ML20149G920
ML20149G920 | |
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Site: | 05000054 |
Issue date: | 06/27/1997 |
From: | CINTICHEM, INC. |
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ML20149G914 | List: |
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NUDOCS 9707240129 | |
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{{#Wiki_filter:. . . Cintichem Finct Survey Plan Section 13 Outdoor Arena Within F:rmer RCA Page 1 of 18
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- 13. FINAL SURVEY PLAN: OUTDOOR AREAS WITHIN FORMER RCA 13.1 INTENT OF SURVEY 13.1.1 Scope ,
The scope of this portion of the final survey includes the land areas within the formerly fenced-in Radiologically Controlled Area (RCA). This area surrounds the reactor, hot laboratory, and waste storage buildings. This final survey will . address asphalt driveways, soil areas, concrete sidewalks and pads, and miscellaneous surfaces such as stairs, railings, and ramps. This survey does not include outdoor areas south of the reactor building which were previously surveyed as part of the Hold-Up Tank (HUT) interim survey, nor the outdoor areas outside of the RCA boundary. This survey also excludes areas where known contaminated bedrock and/or soil was encountered directly underneath the reactor er hot laboratory buildings These excluded areas have either been previously surveyed and reported or will be the subject of future survey efforts. 13.1.2 Purnose, n The purpose of this outdoor area final survey is to produce data that will U demonstrate that this portion of the site meets the criteria for unrestricted : release (see Sections 13.3.1 and 13.3.2). 13.2 - REMEDIATION WORK PRIOR TO THE SURVEY ; The outdoor area within the RCA.was established to provide space for storage of equipment and materials that were used or generated in the remediation work, to facilitate controlled access to and among all of the buildings, accessory structures, and land areas that were involved in the decommissioning project, , to restrict the movement of potentially contaminated objects into and out of ! these work areas, and to control the movement of peop e into and out of these l work areas. Some areas within the RCA were included in the original i remediation plan and some were added to the remediation plan as a result of l operations within the RCA during the project. l Remediation work surrounding the reactor and hot labaratory buildings was l divided into many individual tasks. Final survey areas have been divided into areas that generally reflect physical area divHons (i.e., roadways, ramps, etc.) and by the natural divisions of required remewation work. Descriptions of the remediation work in each area are organized and presented using the same area designations. assigned for the survey data (i.e., survey areas 400-403). The general approach to remediation work in all areas was to remove i contaminated soil and asphalt, and to decontaminate concrete surfaces. A brief ' l description of the work that was done in each area follows.
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Cintichem Final Survey Plan Section 13 Outdoor Area: Within Former RCA Page 2 of 18 O V 13.2.1 Asphalt Driveway (400 Area) This area includes all of the roadways within the outdoor RCA. The roadway between the south gate and the northeast plume (the south driveway at the 804' elevation) had buried process and sanitary liquid waste piping beneath it. The pavement, the soil above this piping and the piping were removed and they either were released for future use on site or were disposed of as LARW as appropriate. The excavation was backfilled after the remaining soil had been released as meeting the criteria for residual soil per the decommissioning plan. The pavement between the northeast plume and the north gate (the north driveway) was selectively decontaminated by removing small sections as necessary. The pavement in the mall area had buried sanitary and process piping beneath it. This piping was removed by the same process that was used in the upper south driveway at the 804' elevation. 13.2.2 Soil areas (401 Area.} These areas included the soils west of the hot laboratory building, the northeast plume, surrounding the waste storage building (WSB), insido the mall area, the north spoils pile and the bank between the hot laboratory and buildings 3&5. Some soil west of the hot lab was removed as a consequence of remediation work in the canal, the T1/ Evaporator room, the polishing filter room and the , o waste pit room. Soil was also excavated from under a porch that was removed 1 V from the west wall of the hot lab adjacent to the old north loading dock. These soils were either disposed of as LARW or released for future use on site as appropriate. Soil from the northeast plume was removed and released for future use on site. This excavation extended down to bedrock to assure that contamination from the hot cell exhaust duct header that was buried below the 804' elevation inside the east wall of the hot lab did not extend beyond the building. A small amount of contaminated soil was found adjacent to the building at columns 8 & D and it was disposed of as LARW. The remainder of the soil was released for future use on site. Some contaminated soil was removed from a small area north of the WSB at the surface and adjacent to the footing of the north wall. This soil was disposed of as LARW. Soil adjacent to the Footings surrounding the WSB was removed to enable an affected-area survey of the WSB footings. Most of this soil was released and backfilled around the footings. Some soil in the mall area was excavated to remove two 5,000 gallon liquid waste storage tanks and liquid process waste and sanitary piping. Some small amounts of soil around the tank access manholes and at the bottom of the manhole at the east side of the excavation where the process waste piping joined the manhole. This soil was disposed of as LARW. The balance of the excavated soil was released for future use on site. n U Thn north spoils pile is an accumulation of soil and some rubble that were removed from numerous locations within the RCA tu a result of remediation
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i Cintichem Final SurveyPlan Section 13 i Outdoor Areas Within Former RCA Page 3 of 18 y
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Lwork. This material was systematically sampled and analyzed during the
- excavation process and only that material that satisfied the pertinent criteria - ,
was allowed to be placed in this spoils pile. The ground underneath this pile ; was released per the acceptance criteria of the deconmiissioning plan prior to T
- building this pile. ;
i The bank between the upper roadway at the 804' elevation and building 3 & 5 !
.was ' excavated east of the main entrance to the hot lab building to remove l process waste and sanitary piping that ran between manholes adjacent to Bldg.2 and the 5000 gallon process waste storage tanks in the mall. Piping was .
disposed of as LARW and the soil was released for future use on site. ; 13.2.3 Concrete Smfaces In RCA (402 Area) ! These areas are scattered within the RCA and include walkways, stairs, ramps, landings and pads for former accessory structures. Minor - ! decontamination of certain small areas was accomplished by scarification or by removal of the component, as appropriate. 13.2.4 Other Surfaces In RCA (403 Area) These areas include metal or wood stairs and railings within the RCA. Minor :
' decontamination was accomplished, as appropriate.
LO 13.3 elsAt SuRvzv 0vsRvlew : 13.3.1 Survey Obiectivs
. The purpose of this final survey is to demonstrate that the radiological conditions of the outdoor areas within the RCA satisfy NRC guidelines for i unrestricted release. The data produced will also be used in conjunction with i additional data from the final survey for other areas of the site to allow the entire site to be released from regulatory control. Tha specific objectives of this :
I survey are to provide the following confirmatioas. A. Surface Activity of Outdoor Structures 1 1
- 1. Average surface contamination levels for each survey unit are !
within the authorized values (refer to Section 13.3.2). i
)
- 2. Small areas of residual activity, knosvn as " hot spots" do not i exceed three times the average value. The hot-spot limit applies l to areas of up to' 100 cm2 The average activity level within the 1 l m2 area containing a hot spot must be \vithin the guideline for the '
average level. L : 3. Reasonable efforts have been made to clean up removable activity and removable activity does not exceed authorized values (refer to 1 Section 13.3.2).
- 4. . Exposure rates in occupiable locations are no more than an
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~ Cintichem Final Survey Plan Section 13 Outdoor Areas Within Former RCA Page 4 of18 1r)
L average ' of 5 pH/h above background. Exposure levels are measured at one meter from surfaces and are averaged over the survey unit / area. Individual hot spots will'not exceed 10 R/hr above background at one meter. ; B. Volume Activity of Soil
- 1. Average radionuclide soil concentrations are within the authorized limits, as shown in Table 13.1. Averaging is based'on a 100 m2 grid area.
- 2. Reasonable efforts have been made to identify and remove hot spots that may exceed the average limits by greater than a factor of(100/A)u2, where A is the area (in square meters) of the hot spot cr three times the average limits, whichever is less.
- 3. Exposure rates do not exceed 5 R/h above background at one meter above the surface. Exposuxe rates may be averaged over a 100m: grid area. Maximum exposure rates over any discrete area of within the 100m2 area may not exceed 10 R/h above ,
background. The above conditions will be demonstrated at a 95% confidence level for each survey unit as a whole. O 1./ 13.3.2 Identity of Contaminants Based on the knowledge of site operations and the results of sampling during the initial site characterization and the D&D process, two distinct radionuclide contaminant mixtures were found to exist for surfaces within the reactor and hot laboratory buildings. Areas of outdoor soil or structural surface contamination would have becomo contaminated with radioactive material originating from these buildings. For the purposes of this final survey it will be assumed that all beta-gamma contamination detected on a structural surface (i.e., roads, pads, sidewalks, etc.) is due to the hot laboratory mixture unless otherwise specified. In reality, surface contamination on outdoor ; structural surfaces could be comprised of any combination of the reactor and hot laboratory radionuclide mixtures. Accounting for these differences would be difficult at best, due to the very large surface area surveyed with the potential for an infinite number of radionuclide ratios. Therefore, the simple j yet conservative approach of using the most restrictive radionuclide mixture l will be used. This hot lab mixture, decayed to January 1,1997, consists of the fbliowing: Radionuclides
- _ Fractional Abundance Ce-144 0.019 Cs-137 0.216 Fe-55 0.002G
~
H3 0.00419
]k Ni-63 Ru 106 0.0181 0.0025 I
l l
Cintichem Final Survey Plan Section 13 Outdoor Areas Within FormerRCA Page 5 of 12 Sb-125 0.00426 Sr-90 0.732 - Tc-09 0.00151 Radionuclides reported comprising >_0.1% of total radioactivity; results are rounded to three significant figures. Surface contamination release criteria will be based upon Regulatory Guide 1.8G Table I limits, as modified for H-3 and Fe-55, per NRC approval (October
- 3,1994). On that basis, the effective beta-gamma surface contamination limits for the area of concern (for the January 1997 hot lab mixture) using the sum-of fractions rule, are:
1,273 dpm/100 cm2, averaged over 1 m2 3,810 dpm/100 cm2, maximum not to exceed 100 cm2 area 255 dpm/100 cm2, removable Within the buildings in the RCA, alpha contamination as Highly Enriched Uranium (HEU) has only been encountered in a small isolated area of the hot lab building, where a vestige of uranium labs remains on the second floor. Therefore, if alpha contaminati n were to have migrated outdoors, the criteria from Reg. Guide 1.86 would apply, as follows. 1 i 5,000 m dpm/100 cm2, averaged over 1 m2
/~'
15,000 e dpm/100 cm2, maximum not to exceed 100 cm2 area I 1,000 m dpm/100 cm2, removable l 1 Soil contaminant mixture makeup and ratios have been found to vary, depending upon the particular leak source (e.g., HUT, canal, hot cell exhaust duct) as well as distance from the release point. As such, no single concentration guideline can be specified since any combination of radionuclides
' from the reactor or hot laboratory could exist outdoors. Instead, individual site specific radionuclide guidelines were developed by site personnel and approved by NRC. Table 13.1 presents this soil criteria. The sum-of-fractions method will be used where a soil contaminant mixture meets "must not exceed" unity (exclusive of uranium and plutonium radionuclides). i Example: if radionuclides A, B and C are present in concentrations Ca, Cb and Cc, and if soil guideline concentrations are Ga, Gb, and Gc, then the soil concentrations will not exceed unity for the following relationship:
1 (Ca/Ga) + (Cb/Gb) + (Cc/Gc) 51 13.3.3 Orcanization and Responsibilities The final survey for the outdoor areas within the RCA will be performed by qualified personnel from the site's Health, Safety, Environmental Affairs Department (HSEA) or equivalent. Logistical support will be provided by the site's D&D Operations Department (or equivalent). Figure 13.1 presents an
- h. organizational chart for the survey activities.
I
Cintichem Final Survey Plan Section 13 Outdoor Arenz Within Former RCA Page 6 of18 o 'd The survey organization will be directed by the Manager of HSEA. The HSEA Manager will have the authoilty to make appropriate changes to the survey plan (subject to established site procedural revision protocol), as deemed necessary as the survey progresses. Field measurements, sample collection and sample analysis will be performed by the Health Physics (HP) Support and Environmental Monitoring groups (or equivalent) from the HSEA Department. QA/QC responsibilities will be handled by the Project QA Manager or equivalent.
' The Project Industrial Safety Specialist (or equivalent) will provide industrial safety oversight for the survey process.
Independent data review will be performed by members of the HP staff who do not have direct responsibility for generating data. Logistical Support will be provided by the D&D Operations group. They will be responsible for gridding survey locations and providing scaffolding erection. Qualifications of each key team member have been previously reviewed by the NRC during routine periodic inspections. n 13.3.4 Inthnng V Cintichem provides continual training for its HP personnel and other workers who may be exposed to radioactive materials. Training varies according to potential exposure and the nature of the employee's job duties. In addition to the regular training, special training will be provided on equipment, special techniques, and practices relative to the survey activities for those employees who will be involved in taking radiological measurements and samples. All members of the survey team will attend an in-h mse orientation session reviewing radiation protection, survey procedures, and quality assurance activities. Documentation will be retained in Cintichem training files. 13.3.51,aboratory Services Analytical services for gross alpha / beta levels on smears, and gamma spectroscopy and Sr-90 analysis of bulk samples will be performed by the site's environmental monitoring group and/or a contract laboratory in accordance with existing procedures. These procedures have been reviewed by the NRC during past routine inspections. Contract laboratories (typically Teledyne, Inc.) will be used for wet chemistry analysis for soil and/or special bulk samples, when required. QA/QC programs for both in-house and contractor laboratory services will be monitored by the QA Manager (or equivalently qualified personnel). 13.3.6 General Survey Plan ,o V This survey plan consists of systematic processes and procedures that have been deemed acceptable by industry standards and the NRC. Activities
Cintichem Final Survey Plan Section 13 Outdoor Areca Within Former RCA Page 7 of18 (% U (organized units of work needed to complete a function) have been defined and tasks (specific work assignments within a specific activity) have been delegated to the appropriate team members. Table 13.2 provides a breakdown of activities and tasks that are currently a part of the termination survey plan. Tasks will be performed in general accordance with guidelines stated in the
" Manual for Conducting Radiological Survey in Support of License Termination," NUREG/CR-5849.
13.3.7 Tentative Schedule Field activities for the final survey of the outdoor areas within the former RCA began in November of 1996 and will be completed by the end of April,1997. 13.3.8 Survey Renort A report describing the survey procedures and findings will be prepared and submitted to the following regulatory agencies: NYDOL, NYDEC, NRC. Report format and content will follow the recommendations contained in NUREG/CR-58 a. 13.4 SURVEY PLAN AND PROCEDURES n 13.4.1 Instrumentation for Outdoor Surveys Within the Former RCA V Table 13.3 lists the instrumentation to be used for the survey activities, along with typical parameters and detection sensitivities for the instrumentation and survey techniques. The radionuclides Fe-55, H-3 and Ni-03 comprise about 2.5% of the radioactivity in the mixture used for the outdoor survey and are not detectable with the field instrumerlation being used. The other 97.5% of the radioactivity in the mixture (Ce-144, Cs-137, Ru-106, Sb-125, Sr-90, and Tc-99) is detectable with the field instrumentation being used. For every radiation event detected (counted), 0.02G radiation events are not counted. Therefore, one count represents 1.026 counts. As such, a correction or scaling factor must be applied to a net count rate in order to account for all detectable and non-detectable radionuclides present. This factor (for the hot laboratory building beta-gamma mixture) is a multiplier of 1.02G or, equivalently, a divisor of 0.075. The combination of instrumentation and technique yield a detection sensitivity for direct survey beta-gamma measurements of about 40% or less of the guideline levels for beta gamma emitters (1,273 dpm/100 cm2). The basic equation for determining field instrument direct survey detection hmits wdl be: MDA = 2.71 + 4.65 Omckground x count timeW2 count time x efficiency x (probe area /100) x scaling factor p Sensitivities for scanning techniques are based on (1) movement of the detector V over the surface at one detector width per second, and (2) use of audible indicators and count-rate meter to sense changes in instrument count rate.
Cintichem Final Survey Plan Section 13
' Outdoor Arean Within FormerRCA Page 8 of18 O
V Data obtained experimentally with the equipment and technicians who will be used on this final survey indicate that qualified surveyors can detect approximately 2880 dpm/100 cm2) with a 90% confidence level. As this level is 2.26 times the average guideline value, an increased direct beta measurement sampling frequency will be used (see Section 13.4.2.4). All instruments will be calibrated a minimum of once every three months, using NIST-traceable standards. Calibrations of beta detection instruments will be made with Sr-00. Operational and background checks will be performed at least once each four hours on instrument use. In-the-field survey instrument readings (counts per time) will be corrected for instrument background, detector efficiency, non-detectable radionuclides, and probe area size to produce a result in upm/100 cm2 (as previously shown). dpm/100 cm2 = ([eross counta/_c_orpt o timel - Ibackcround counts / count timel) x 1 (efficiency x non-detectable scaling factor x 100/ probe area) This dpm/100 cm2 value will then be corrected for the specific surface materials natural background if the material has a natural background sufficiently high as to interfere with achieving releasable levels. This will be accomplished by subtracting an average background value that will be determined for each type of material (rock, concrete, asphalt, wood, etc.) in dpm/100 cm2 (see Section 13.4.3) o 13.4.2 Survey Plan , d 13.4.2.1 Area Classification ) 1 For purposes of establishing the sampling and measurement frequency and I pattern, survey areas have been divided into affected and unaffected areas (as indicated in Table 13.4) and general arrangement of the outdoor areas, as shown in Figure 13.2. The bases for these classifications are described here. A. Affected Areas l Areas that have potential radioactive contamination (based on plant operating history) or known radioactive contamination (based on radiological characterization and/or measurements made during D&D operations). This includes: i areas where radioactive materials were used and stored where records indicate spills or other unusual occurrences that could have resulted in spread of contamination where radioactive materials leaked from systems or structures where decontamination work has been performed. Areas immediately surrounding or adjacent to these locations are included in this classification because of the potential for inadvertent spread of contamination, q
Cintichem Final Survey Plan Section 13 Outdoor Area 2 Within Former RCA Page 9 of18 Q b B. Unaffected Areas All areas that are not classified as affected. These areas are not expected to contain residual radioactivity, based on a knowledge of site history and previous survey information. Table 13.4 lists the various survey units and areas for the outdoor areas within the RCA and the classification of each. 13.4.2.2 Reference Grids Grids will be established for the purpose of referencing locations of affected area samples and measurements relative to building and other site features. The gndding intervals are based on the potential for residual contamination in the various plant areas (i.e., affected or unaffected area classification). All affected area surfaces will be gridded at one meter intervals for areas of high contamination potential (such as sidewalks, ramps, and stairs providing access from formerly contaminated areas) and at 10 meter intervals for open land areas and driveways. Five measurements will be taken within each (i.e., center and mid-way between the center and each of the four corners). Structural surfaces in unaffected areas will not be gridded. Unaffected area measurements will be evenly distributed and referenced to prominent building features and indicated on maps. i o Each survey area will be divided into " survey units" having common history, () function, contamination potential, or that are naturally distinguishable from other site areas. Unaffected area structural surfaces identified by direct measurements as exceeding expected range of background levels will be reclassified as affected areas and will be gridded and resurveyed accordingly. 13.4.2.3 Surface Scans Scanning of surfaces to identify locations of residual radioactive contamination will be performed according to the following schedule-1 Affected Area, Structural: 100% of surface, beta and alpha radiations Affected Area, Exposed Soil 100% of surface gamma radiations Unaffected Area, Exposed Soil 10% of surface gamma radiations (not expected in this survey's scope of work) Unaffected Area, Structural none (not expected in this survey's scope of l work) i Structural surface scans will be conducted for alpha and beta radiations. Soil surfaces will be scanned for gamma radiations. Instrumentation for scanning is listed in Table 13.3. Scanning speeds will be no greater than one detector width per second for alpha and beta detection instruments and 0.5 meter per second for gamma instruments. Audible indicators will be used to identify locations having elevated levels. All o scanning results will be noted on standard field record forms; locations of V elevated radiation will be identified for further investigation. Table 13.4 lists the specific areas and frequency of surface scan measurements.
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~[Cintichem Final Survey Plan .
Section 13 - Outdoor Areas _Within FormerRCA Page 10 of18 - (' y ; ,
^ !13.4.2.4 ~ Surface Activity Measurements .
A? Direct Measurements'-
- Direct measurements of alpha and beta surface activity will be performed:
at selected < locations using the instrumentation described in Table >13.3.' ; Measurements gill be~ conducted by integrating counts over a one minute period. Direct surface activity measurements will be. systematically placed using ; grids with ten meter intervals on all structural surfaces of affe'eted areas, c Direct measurements will be at a frec uency of five per grid box. A one meter grid may be used for surfaces with a high potential for contamination "
. (see Section 13.4.2.2).
i
'While unaffected surface areas are ' not expected to be present, if l encountered, a minimum of 30 random measurements or an average ,
measurement of one per 50 m2 of survey unit area (whichever is greater) will be performed for each unaffected area survey unit. B; Removable Contamination Measurements ; i Smears for removable contamination will not be performed for outdoor
- surfaces. The weathering process (i.e., rain, snow, wind, etc.) would have 1O- .
removed and transferred any non fixed radioactive contamination to nearby l
; soil, where it would have become trappedi Therefore, smear sampling is ~
unlikely to ' producer any relevant data. 13.4.2.5 Exnosure Rate Measurements - Gamma exposure rates will be measured at one meter above surfaces using a gamma scintillation instrument calibrated for Cs 1b7. Measurements will be uniformly spaced according to the following frequency for structural surfaces:
. Affected Structural Areas: 5 measurements per 100 square meters or one per square meter for high potential areas (see Section 13A.2.2)
Unaffected Structural Areas: 30 measurements per area Table 13.4 shows the specific measurement frequency for each survey area. l13.4.2.0 Soil / Sediment Sampling
' Samples 1(about: 500J grams. each) of surface soil (O' - 15 cm) will be systematically collected. Where large exposed ' area of soil exist, soil samples j Ewill be collected from the conter and four points midway between the center j and the block corners for each 10 m x 10 m grid in affected areas. i 4
' W LN ) L All'of the soilfregions of the outdoor areas within the former RCA will be 1 scanned with a 2" x 2" .Nal detector. Biased soil samples will he' taken from any grid location that exhibits a gross gamma. count rate above' the expected A I
Cintichem Final Survey Plan Section 13 Outdoor Areas Within Former RCA Page 11 of18 background range. Additionally, soil samples will also be taken from locations where known contaminated soil had been removed during D&D work. Unaffected soil areas are not expected within this survey's scope of work. 2 13.4.2.7.Special Measurements and Samples None. T 13.
4.3 BACKGROUND
LEVEL DETERMINATIONS
; Background levels for typical construction and natural materials were ,
previously determined during the HUT interim survey. These background levels have been used for prior surveys and will be used for both this survey and future final survey efforts. The following describes the approach that was taken. Background exposure rates were determined for the outdoor areas by taking a minimum of 30 gamma scintillation microRem measurements at unaffected locations of similar off-site terrain. Results of background exposure rates will be evaluated to ensure that the averages determined are representative of the true averages, using procedures described in NUREG/CR-5849. Direct beta-alpha backgrounds were taken from representative materials (e.g., bedrock, concrete) and determined and tested as specified in NUREG/CR- ) 5849. Additional sampling or measurements will be performed if necessary to l
% satisfy statistical criteria. '
Bedrock and/or soil background samples have been previously collected from off-site locations to determine fallout fission product concentrations. Soil fallout concentrations have been determined to contain Cs-137 at 1.25 pCi/gm at the 90th percentile. This value has been accepted by NRC as part of the soil criteria review process. Lledrock and/or soil on site are known to contain deposits of natural i uranium / thorium ore. These localized ore deposits may cause direct measurements of beta-gamma and alpha surface contamination as well as gamma exposure rates to appear to exceed free-release criteria on these or nearby materials, even when corrected with average background values. It will therefore be necessary to distinguish "real" contamination from natural hot spots. Locations where direct surfhee contamination measurements appear to be greater than expected (average) background levels or release riteria for the materialin question will be sampled and analyzed by gamma spectroscopy. If the sample result indicates the presence of uranium / thorium ore without non natural radionuclides, the high readings will be dismissed as background. If non-natural radionuclides are detected, part or all of the high result will be attributed to "real" contamination, dependent upon the ratio of natural and
' non natural radionuclides and the associated decay schemes. ; A similar approach will be taken with higher than expected gamma exposure O- rate results. When this occurs, gamma spectrum will be taken at the same location with a portable intrinsic germanium detector and multi-channel analyzer. If the resulting gamma spectrum indicates the presence of Th 232+D -- \
Cintichem Final Survey Plan Section 13 Outdoor Aren: Within Former RCA Page 12 0f18 U and U-238/235+D without non-natural photopeaks, the higher readings for that area will be attributed to natural background. If non-natural photopeaks are identified, part or all of the high result will be attributed to "real" contamination, dependent upon the distribution of natural and non natural photopeaks and the associated dose conversion factors. 13.5 DATA INTERPRETATION Measurement data will be converted. to units of dpm/100 cm2 (surface activity) and pR/h (exposure rates) for comparison with guidelines. Values will be adjusted for contributions from natural background. Individual measuremers will be compared with hot spot criteria. Average values for survey units and/or grid boxes will be determined and compared with guideline levels. Data for each survey unit will be tested against the confidence level objective using guidance and procedures described in NUREG/CR 5849. Additional remediation and/or further sampling and measurements will be ; performed where guidelines are not met or cannot be demonstrated to the ; specified level of confidence. Additional measurements, computations, and comparisons will be repeated as necessary. l l 13.0 REPORT I A report describing the procedures and findings of the hot laboratory final survey will be prepared and submitted to the NRC. Data will be summarized in tables. Measurement and sampling locations will be shown on scale drawings. All field and analytical data will be archived by the site until such time as the NRC and other regulatory agencies authorize disposal. O V
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' Cintichem Final Survey Plan Section 13 Outdoor Area: Within Former RCA Page 13 of18 7-U TABLE 13.1 :
SOIL RELEASE CRITERIA , Radionuclide oCile H-3 ' 815.4 Mn 54 3.3 Fe 55 521920.7 Co-60 0.9 Ni-63 42500.0 Zn 65 3.7 Sr-90 17.4 Zr-95 2.5
' Nb-95 2.3 Tc-99 450.0 Ru 106 13.5 Ag-108m 1.1 - Ag-110m 0.7 Cd-109 63.1 Sb-125 6.5 I Cs 134 1.8
( Cs 137 3.8 Cc-144 63.4 ) Eu 152 2.0 l Eu-154 1.8 EU-155 99.5 U 234 19.6* ~ U-235- 15.9* l U-238 21.9* l Pu-238 24.1* i Pu-239 4.3* Pu-241 26.4* l Cm 244 17.1
- Excluded from sum of fractions rm 1
+ -. ._. . _ _ _ _ - _ _ _ _ - - _ _l
Cintichem Final Survey Plan Section 13
~ Outdoor Areas Within Former RCA Page 14 of18 .o. \"l TABLE 13.2 MAJOR ACTIVITIES AND TASKS FOR TERMINATION SURVEY PLAN
- Activity Task Evaluate contamination potential 1. Review operating history with respect to facility use, spills, releases, etc.
- 2. ' Review- radiological data from scoping, characterization and D&D progress surveys
- 3. Identify radionuclides of concern and deter-mine guidelines
- 4. Classify areas as to affected and unaffected :
Establish grid reference system 1. Install grids
- 2. Prepare facility survey maps Determine background levels 1. Measure indoor exposure rates and ambient beta-gamma levels i
- 2. Measure outdoor exposure rates !
- 3. Collect background soil samples j n
i V Perform direct measurements L Conduct surface scans
- 2. Determine frequency & locations of measure-ments to meet criteria
- 3. Conduct surface activity measurements
- 4. Measure exposure rates j Collect samples 1. Determine frequency & locations of sampling !
to meet criteria
- 2. Collect systematic and special samples Analyze samples 1. Count smears and swabs
- 2. Analyze soil, paint, residue and other solid samples for activation and fission product Interpret data 1. Convert data to standard units
- 2. Calculate average levels
- 3. Compare data with criteria
- 4. Compute total residue activity inventory Prepare report 1. Construct data tables
- 2. Develop graphics
- 3. Prepare text
- 4. Submit report to NRC
- - ~ . , .
Cintichem Final Survey Plan Outdoor Areas Within Former RCA
- TAE LISTING OF SURVEY AREAS, UNIT @ , . - . - - ~ . _ . -- --- . - ~ . _ - - - . . _ _ _ _ . _ . . . ~ _ - ! Unit ! Location Description Media Survey Area iUnaffected ! i -
400l Asphalt Driveway _ _ _ _ _ _ _ _ _ _ _ 400.01 South driveway (between south gate and northeast plume) }
][~] A . Asphalt pavin l ; 400.02 iSoith3riv~e[ay[(ye@n northeajysiejfd}n{drth gated .
A [Esphalt paviq 400.03 Malldriveway A Asphalt pavin _ . _ . , . _ . _ . _ . _ _ _ _m..__.. ___ . _ . _ _ _ . _ _ __ _ . . _ _ _
~~~ '~ - ~ ~ ~ ~ ~
Soil w/ rodi
] TOI Ye~siof rioflib buiiding A l Soilw/ gravy .jp1.p2jland area between mall and R_x building _____j_A . _
__.i____.. _ __ 301,.0gaste storage building yard (reassigned to Unit 500.6) j_-
, _ _ 1 - ! 401.04 ! Mall area i A Soil
_jgi.05jN_ orth spoils pile [ A ; Soil q A_ 401.06 iEast of hot lab and west of Bldg 3 i i Soil i A Sois w/ roch 4
-_0_1.07 lNo._rth_eas__t plume excavation __
i !
! 402.01 inot used ! -I~~ - ~
402.02 [ Outbuilding concrete slabs l AI Concrete A j Concrete . _i __ 302.04fPad at_ base of RCA stairs ___ ____ . l U _ E _. . _ _._ 402;p5 @ amp to Building 3, underside __ _ __ _ J A j_ Metal l Concrete 402.06) amp to_ Building 3, footings _ ___ _ _____ g pp2.pyPad behind boiler house , A Concrete ! _ .n _ _._ _ ._ 402.08 l Pad outside Building 2 east stairwell ~~ ~ ~~ ~ ' A Concrete j A }_ Stone ,
.~.
_ b _ .. _ _ . _ _ .._ 302.10 Stairs (between mall area and upper road) y2.09))Fie5ctofitair~s'TeTainihg wall ~' -j A_ Concrete /Stp 402.11 iPad north of waste pit building i A Concrete j
. . ~ _ L . ._ i
- ; 402,12 ' Pads below Building 3 i A i Concrete l _ _ - .
MkShIkITNhhh9 _. _. . ._ A ))-{ Metal i 403 02 }Bui ding 3 ramp railings, upper U Metal
._.4.____.__
_ Metal l
.403.03 ! Building 3 ramp railings, lower ! U :
[~A- ~I~ Mood 7
~ ~ ~ ~
iO3 05 lWood stairs ~u'pper road, bottom and sides " l
,'["'~~~ A03ll0Ei]NAnd}aIlyMEihiiding' 3 iamp} _ _ ,_ ~ ))]X))U P[Mefai] _
_. d ._ _ 403.07jBuilding 3 stairs handrail, footing Metal l
.d _ _ _ _ _ . - _. ..._____[._.._. _ _ _ _ _ ) ~U
- Surface soils only i " Includes a back-filled pipe trenchi j
ww
7. 1 Section 13
"" avl 8 ped AP 'TURE n a.4 - . _ . _ . _ . . _ _ . . _ . . . _ . . . _ _ _ _ _ _ _ _ _ . _ _ . . _ __._. _ _ _ _ .r_.
( aD ND MINIMUM ANALYSIS FREQUENCY
, ggjgh q .
_ _~._._ _ _ . _ . . . . _ . _ _ _ _ . . _ _ . _ _ . _ _ _ . . . . . _ . _ . _ _ . _ . _ .a Aperture CBrd _._L_.____..__. . ERemgyaple, _ ,g_ualitatpgammaj - _ Jamma {Lspecla[ _ buQq, , Soil / Sediment Direct Beta / Gamma & Alpha Beta l Gamma _ scan w/ Sample at f ,_ Exposure Rate _, Analysis / Arra, m2 (Y Spect & Sr90) Time. Integrated l Scanned and Alpha Elevated Locations ! at 1 Meter ! Samples I__,._.- _ _ . _ . _ _ _ _ . _ _ _ _ _ . _ . _ _ _ _ _ _ _ _ . _ _ . . . _ _ _ _.._ ._____ -- b N[b_l,._.p!10g_sq meters _ 100 {__ N/A _ _ A_l N/ 1/100 sq meters i ._ _ N/A _ . _ . . _ _ . _ . _ _ _ _ _ _ _ _ . . _ . _ _ _ .._._._ _ . ___ : __.__L_____ i !
~
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R7A~l N/A 100 % ~I 1/100 sq meters i N/A
~T00'~ ~5./iOO_sq5eters___.._'~_N_/ ~ .___. _ _ . . . _ _ ____.-ANT ~~I ~~N/X ^ ~~~ _ _ _ . . _
IOO9o D_7I00Tq meters ,i _ . _ _ _ . _ _ N/A '
- - - - - - = . - e=a. - --+-=--..-c -- - .4=- i .*.-.-i.+- - -,- - ..=- ---+--~a--- - - - - - + - - . - - * - - - - * * ~ * -
Tj0{ j j 0U j % rs ] _i j f ] ] _ p { } ] N/A__ _ , _ _ , 00% 1 ._ .1/100 sq meters _. __
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2400 5/100 sq meters i N/A N/Aj N/A 100% ]_1/100 sq metersi____* _
._20g_ 5/100 sq meters j __N/A ,
N/A _ N/A __ 100%__f _1/100 sq meters __1 _ _ _ . _
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_ ] { [ ] @ h@j {_[ ] { N/A 1/ sq meter N/A j 5/sq meter _ .. . 100 % ! i ; ; _. g .
._____s_.__.._._.._._.m_.__.. .
. . . _ . _3/A_ _ _.. N/A , _ _ g_5/s mete _r, _ _ 100% N/A N/A . . __]_._ _ _ _ _.1/ sg meter J_ _N/A_ . . . Si _ N/A _ __.5/sg meter _ _ . _ 100 % ! N/A____ _ N/A _. 1/ sg meter _ _ L N/A. __ _ _ . - ..-. A__ _ __S/A__ _ . _ . . .5/sq meter _.__10_0 % _N/A _ _ _ _ N/A_ __ _ 1/ sg meter _ CN/A___ _ l 102 N/A . 5/sq meter 100%j N/A . N/A_1. 1/ sq meter 3_N/A . j _599 _ _ _ N/A ___ i _5/sq meterj_100%i N/A .. _ N/A i _ 1/ sq meter _i N/A___ l N/A. 5/sq meter i 100 % ! 2 i N/A , N/A i 1/ sq meter N/A
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J . _ . ._ l _ _. _ . /. _ ... .. , - - . - . . . _ "* A portion of ti?e NE plume is bare bedrock; this is int,luded in the sire bedrock dose assessment. I l t 9707240129-0 - - . , .-. i
Cintichem Final Survey Pl n Outdoor Areas Within Former RCA 8 INSTRUMENTATION USED F Nom. 4P: 10 Detector Meter Type of Measurement Backgrnd eff (%) Detect
- 1. Nuclear Enterprises Bieron Lab Tecn dual surface scans, alpha 0 - 3.6 cpm 16 4375 d AB100,100cm dual channel scaler phosphor (alpha, beta) scintillation detector surface scans, beta 400 - 700 cpm Sr90=25 2880 d 90% ce surface activity, alpha 0 - 3.6 cpm 16 0 - 72 c 390-52 surface activity, beta 400 - 700 cpm Sr90=25 (1.0 mi
- 2. 2x2 Nal, Ludlum 43.2 Ludlum 2200 single qualitative gamma scans 1500 crm n/a n/a analyzer of pipes, etc.
- 3. pRem meter, Bicron see detector (Item 1) gamma exposure rates 10-15 Rem /hr n/a 2pRen organic scintillator
- 4. Twin window - gasflow Tennelec LB5100 gross alpha smears 0.2 cpm 35.6 14 Gpr1 proportional gross beta smears 2.5 cpm 36.8 48 dpr
- 5. 1x1 Nat, Bicron G1 Ludlum 2200 single qualitative gamma scans 1500 cpm n/a n/a channel analyzer of pipes, land areas, etc.
- 6. HPGe (d) (d) soil activity assay varies with gamma (e) in 250 ml geometry energies
- 7. Canberra sealed alpha beta soil activity for Sr90 3 cpm 27 < 0.5 t proportional detector Model 2404
- 8. Portable High Purity MCA, model 75008, quaktative isotope mix of n/a n/a Germanium detector, EG&G Ortec in-situ soil, building EG&G Ortec,10% material, etc.
efficient relative to a 3x3@ Nat detector
- 9. Pancake GM, Ludlum 2200 " Pigeon Hole" survey 2 60 24 s 117<
p
%e Ludlum 44 9 scaler /ratemeter men ** Ns
i Section 13 ; Page 15 of18 BLE 13.3 - I RADIOLOGICAL SURVEY ACTIVITIES l ,nsitivity . Notes ' ANST5C 1 Ecm2 (a) APER "RE
- (a) Sensitivity is linked to combined counts in alpha and beta channels, see (b) 4 CAO '
g g. 00cm2at Aperture Card . ty (b) (b) Empirically determined at 90% certainty ! iOOcm2 (c) . - (c) Based on 1.0 minute count times n/100cm2 ' I int)(c) (d)- Five Ortec high purity germanium detectors,2 n-type thin windowed and 3 p-type, all approximately j 30% efficient (relative to 3x3" Nal)
- Five Ortec 92x Multichannel Buf.ers (MCB), including high voltage power supply, pre-amp power supply, a 16K multichannel buffer and a proprietary computer interface - MCBs are connected to a 386/32 MHz IBM /PC-compatible computer - EG&G Ortec's Maestro software is an MCA emulator which allows the storage and examination of gamma spectra. The Ortec Omnigam software provides for the analysis of gamma spectra to calculate radionuclide identity and concentrations.
(e) Typical values in pCi/g (approximately 405 gram samples) l Mn-54 <0.05 Cd-109 <1.5 I Co40 <0.04 Sb-125 <0.2 Zn-65 <0.3 Cs-135 <0.06 Zr-95 <0.2 Cs-137 <0.06 I Nb-95 <0.07 Ce-144 <0.34 Ru-106 <0.5 Eu-152 <0.07 Ag-108 <0.05 Eu-154 <0.4 Ag-110m <0.12 Eu-155 <0.2 i J /3 (f) GM Pancake case / handle has been modified to fit into pigeon holes. i 100 cm2 9707240129-O } ,
()' r - Cta..schem Final Survey Plan O) Secti:n
. Outdoor Areas Within FormerRCA Page 17 of18 FIGURE 13.1 FINAL SURVEY ORGANIZATION President /
Plant Manager Manager, HSEA Manager DdD ercaU Operations Graphics Logistics r i l Contract Lab Radiation Sr Lab Services industrial Safety Field Surveys 1.G. Lab P edon (Teledyne, Inc.) 1
,i HP Techs HP Techs Technicians Technicians
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O-G CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT 14.0
SUMMARY
OF OUTDOOR AREAS WITHIN FORMER RCA FINAL SURVEY RESULTS Section fourteen of the Cintichem Final Status Survey Plan and Report provides the results of the Outdoor Areas Within the Former RCA final survey that was performed between November. 1996 and end-April 1997. Results are provided in 25 sub-sections below which correspond to the 25 survey areas listed in Table 13.4 Each sub-section provides a description of the survey area and the curvey measurements and/or sampling that was performed for each survey unit within the survey area. Direct survey results and soil / sediment results along with results summary for each survey unit are provided in summary tables within each sub-section of the report. Soil / sediment sample spreadsheet results include data for the most relevant radionuclides of interest. and not the complete results for all radionuclides for which analysis was performed. Those radionuclides not listed are those for which soil criteria was developed, but which have not been generally found in site soil and/or would not contribute significantly to the sum-of-f ractions tally if found. The concentration and sum-of-fractions data shown in the tables have been corrected /' for background due to fallout at the site background level where surface soil was sampled (1.25 pci/gm Cs-137 at the 907. confidence level). . Systematic soil sampling, for the affected land areas. was performed by collecting 5 samples from each 10 meter by 10 meter grid box. Each of the 5 samples f rom each grid box have been separately analyzed for gamma emitting radionuclides. Sr-90 analysis was performed on composite samples made up of equal aliquots of soil f rom the 5 soil samples collected f rom I each grid box. The result of this analysis represents a mean Sr-90 soil concentration for a grid box. The resulting j fraction of criteria for this mean Sr-90 concentration was l then summed with the fractions of criteria for the gamma ! emitting radionuclides found in the 5 individual soil samples. i However, strontium analysis was performed on the individual soil samples if either the resulting Sr-90 composite sample concentration exceeded 207. of the Sr-90 soil criteria or, the sum-of-fractions for all radionuclides would exceed one when calculated using 5 times the composite Sr-90 concentration. By using this method. no single soil sample can exceed the average soil criteria, while keeping the number of required Sr-90 analyses reasonable. Survey unit 401.5. the soil spoils pile south of the Waste 3 Storage Building. contained a hot spot at grid location 192.5 (d N x 72.5 W with a result at 1.17 times the average soil j criteria. This elevated result is due to finding a Co-60
concentration of 1.05 pci/gm. This hot spot was bounded with 4 additional soil samples. Tyeareaofelevatedactivitywas [^}- x- found to be less than 2.7 m in size. The grid box that contains this result is truncated to the west by the Hot Lab driveway and therefore has a total area of only 35 m Elevated areas are acceptable if the sum-of-fractiogg do not exceed 3 times the average soil criteria and (100/A) . where A is thg size of the hot spot. Conservatively replacing 100 3
- m. 35 m. the actual size of the grid box. in the preceding equation. a maximum SOF of 3.6 is obtained. Therefore. the hot spot with a SOF of 1.17 meets both criteria.
Gamma exposure rate measurements from survey units 401.5 and 401.6 were found to be at 7r exceed the maximum exposure rate criterion of 10 uR/hr. In-situ gamma spectral measurements were made at these locations to determine the source of the elevated exposure rates. The results of these determinations indicates that natural thorium and uranium plus daughters is the source. s
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. ~ ,_. CINTICilEM FINAL STATUS SURVEY PLAN AND REPORT s !
\' The 400.2 survey unit was survqyed on an affected area basis and has a surface area of 2300 m'. 71 direct beta / alpha surface contamination measurement locations were placed in this area using 5 readings -per 10m by 10m grid. One reading was taken at the center of the grid and four each at the midpoint between the center and the corners of the grid. 71 gamma exposure rate measurement locations were placed in this area using a 10m by 10m grid. In addition a 100% scan was performed in each 10m by 10m grid location. The location of these measurements is shown in the map at the beginning of this volume. Measurement and sampling results for the 400.2 survey unit are provided'in 3 attached tables as follows: Table 400.2-1 North Driveway - NE Plume to N Gate gamma exposure rate data Table 400.2-2 North Driveway - NE Plume to N Gate direct beta / gamma surface contamination data Table 400.2-3 North Driveway - NE Plume to N Gate direct alpha surface contamination data /~S (.) im %J SECTION 14
sg. i.-
' CINTICIB4 FINAL STATUS- SURVEY PLAN AND' REPORT-' !
, i AREA 400.2
. Meas. Type: ~ Gamma ;
. Exposure- Direct Direct Rate (a) Beta (b) Alpha (b) Units uRem/hr dpm/ dpm/ ) 100 cm2- 100 cm2 I MDA- 2 426 46 ! i i Number of Meas:. 71 -71 71- !
=u======================------------===========-- =#----=---~--- --
i Survey. Unit.Mean:: -1.0 78 8 t True-Mean:U a1pha 95% C.L.: -0.7 119 10 Criteria 5 1273 5000 ; Acceptable Y/N Y Y Y ;
-a========__________== -- -____------------ = = - - --==___________==== , -Max Grid Block Wt. Mean 2 804 38 I I
Criteria 10 1273 5000 : b eceptable Y/N~ Y Y l V ==============================---- Y -_=
=======-------- - - __ --_;= )
Max.~ Hot Spot Scans NONE NONE NONE I
'(sffected areas only) ,
i
)
Criteria NA NA NA ' Acceptable Y/N NA NA NA 1
=========---=====m - __-z = - - = ____=__________======= i i
(a) With a mean site. background of 6 uRem/hr subtracted (b) Without subtraction of radioactivity due to natural radioactive material ., content ' i i i i i l 1 l l L j I i 1 I
7~~. KETA 8tf 400.2-11 k[ -ff . kiNTICHEM'.0ECOMNISSIGNINGPLAN '04/14/975 . 3
- / ; FINAL SURVEY DATA SHEET
.. DATAr04AFFECTEDAREADESCRIPi!0N: e. ' NORTH DRIVEWAY FRON NE PLUME TO NORTH GATE. ' ARIA 400.2FORuR/HR s RADIATIONTYPEt, .GAMMASURVEYINUREM/HR.-
1 COMPLETION
, .DATE: 04/12/97. , ;; : TECHNICIANS: 'GF/PM/P8.. MATERIALCODE. +
AREA: 400.0 1: CONCRETE 5:PLASi!C
- UNIT: 400.2 2: ROCK 6:S0!L - !
~ MEDIATYPE: ASPHALT 3:N00D 7:ASPHAli' , 8ofPOINTS: 71 4:METALL 8:0THER(SPECIFY): NO MATERIAL 8ACKGROUND USED MICR0 REM
- PER HOUR: LIMIT'- !
MAX:- 2.00 PASS 10- . AVG. .1.01 PASS 5 STD X: -1.45 MU SUB ALPHA: -0.73 PASS 5
-MATER-INST. AREA AREA IAL' NET. .f D 8 _
GRID' POINT ' 10 i BKG READING CODE UREM/HR ^ UREM/HRUREM/HR A/ - y y _. ;
.400.2 77.5 82.5 A 6 7 8 1 -
Y _400.2 77.5 87.5 -A 6 8 8 2
-400.2 -77.5 92.5- A- 6 7 8 1 400.2 67.5 87.5 A 6 5 8 -1 . 400.2- 67.5- 92.5 A 6 6 8 0 -400.2 77.5. 97.5 A 6 8 8 2 ,
400.2: 17.5 102.5 A 6: 7 8 1 400.2 72.5 97.5 A- 6 5 8 -1 . , .400.2 72.5 102.5- A 6 6 8 0 400.2. 70. 100 A 6' .7 8 1 ! 400.2- 77.5 ~97.5 A '6 8 8 2 400.2= 77.5- 102.5 A 6 7 8 1 400.2 72.5 107.5 A 6 7 8 1 4 400.2- 72.5. -112.5 A 6 8 8 2 , 400.2 70 110- A- 6 5 8 -1 400.2- 72.5 117.5- A 6 4 .8 2 400.2 . 72.5 : 122.5 A 6 6' 8= 0 , 400.2 70 < 120 -A 6. 6 8 0 400.2 . 72.5 127.5. A 6' 5- 8. -l '
-400.2 72.5- 132.5: 'A1 6 4: 8 -2 ;400.2, 70 ' 130- A ~6 5~ 8 -l'
.. 400.2 :72.5 ;137.5 :A- 6- 4 8 -2 , l' ,400.2: c72.5 :142.5. .A- 6 4 8 -2 f] 400.2 " 70 - 140 :A~ .6 5 ,- 8 X /,400 2: :67.5L. '137.5 A- -6 3.: 8' 400.2 ;72.5 1147.5 A- 6 -7 . 8 1
.400.22 72.5~ 152.5 : A 6' 6 -' 8- 0 ~4 00.2.: 70 - 150- A" .6 4 -8 -2 '400.2L ~ 77.5 : 157.5 -A '6; .5. 78 - .-! '
[ _,400.2/ 77.5.'-162.5 . A- 6: -4' ,8 -2 1
~~BL[400.2-l' ,s 400.2 72.5 157.5- A 6 8- '8 2 400.2 72.5 162.5 - A 6 7 8 1
[']00.2 '; 77.5 '167.5
. A 6 6. 8 0 ' G 00.2 _72.5
_ 167.5 A 6 5 8- -1 400.2 72.5 172.5 A- 6 4 8 -2 400.2- '77.5 177.5 A 6 6 8 0
.400.2 77.5 182.5- A- 6 5 8 -1 <
400.2: 72.5 177.5 A 6 4 -8 -2 400.2 72.5 182.5 A- 6 3 8 -3 400.2 77.5- 187.5 A 6 6 8 0 400.2) -77.5 192.5 A 6. 4 8 -2
-400.2 72.5 187.5 A 6 4. 8 -2 400.2' 72.5' 192.5. A 6 5 8 -1 400.2 77,5 197.5 A .6 -3 8 -3 400.2 7 7.5 202.5 A 6 4 8 -2 '
400.2- 72.5 197.5- A 6- 4 8 -2
-400.2 72.5 202.5 A 6 5 8- -1 400.2 - 77.5 '207.5 A. 6 4 8 -2 400.21 77.5 212.5 A 6- 5 8 -1 400.2-- 72.5. 207.5 A- 6 5- 8 -1 400.2-- 72.5 212.5 A 6 3 8 -3 400.2' 77.5 217.5 A 6 4 8 -7 400:2- 72.5 217.5- A 6 3 8 3 '-
400.2' 70 220 A 6 5 8 -1 400.2 67.5 217.5 A 6 5 8 -1 400.2 67.5 222.5 A 6 3 8 -3 400.2- 67.5 227.5 A 6 6 8 0 , 1
. 400.2 62.5 217.5 A 6- 3 8 -3
_(s,00.2 60 220 A 6 4 8 -2
' 400.2 57.5 217.5 A 6 4 8 -2 '400.2- 52.5 217.5 A 6 3 8 400.2- 50 220 A 6 3 8 -3 400.2. 47.5 217.5 A 6 5 8 -1 400.2 52.5 212.5 A 6 4 8 -2 400.2 42.5 222.5- A 6 3 8 -3 400.2 40 220 A 6 4 8 -2 400.2 40 210 A 6 4 8 -2 400.2 37.5 207.5 A 6 4 8 -2 400.2 -37.5 212.5 A 6 5 8 -1 400.2 31.5. 202.5 A- 6 5 8 -1 400.2- 32.5' 202.5 A 6 4 8 -2 ;-g
TABLE 400.2-2 [h--/.[@[
~ Cl*TICdEM DiCOMIS$10NING PLM 04/14/91 ; flML SJVD 0ATA SHEET DAIA FOR AffECTED AREA DESCRIPIION:
N0Hii DRIVfnM f ROM NE PLUME 10 h0RTH GATE akfA 400.2 FOR BETA PO!M;Cs hf E: 1 BETA SCALING FACTOR - 0.975 COMPLEI!Cn DATE: 04/12/97 IEChNICIANS: GF/PN/P8 MATERIAL CODE AREA: 400 1:00NCCETE 5: PLASTIC UNII: 400.2 2:R00K 6:S0Il PEDIA DPE: ASPMLT 3: WOOD 7:AS?MLT i et F0lNIS: 71 4: METAL 8:0ThER(SPECIffJ: Ci IN MINVIES: 1 N0 MATERIAL BAC M R0V O USED OPM/100CM'2
' REM.+ FIXED: LIMIT MAX FOR IND GRIO 804 PASS 1273 HQ - SURVEV UNIT 78 PASS 1273 STD X 208 MV SUS ALPEA 119 MSS MAX kOf SPOT NONE FASS 3818 WEIGHTED BETA 8 ETA SCAN TOTAL AVG.
GRID INST. flXED MAX CONI. MATER- BETA MAX C00RIDIMIES INST. AREACOUNIS/ BETA AREA IAL MDA FIXED PEll INST Eff.
^
D8 GRID ID LCCATION ID t 8KG 1 COUNTS CM 2 CODE DPM/ DPM/ MG 100 MAX CPM /0PM G W h CFM MINUTES 100 CM'2 100 CM'2 TEST CM'2 TEST 400.2 77,5 82.5 16 500 571 0 0 8 412 274+/-248 M (.2653 400.2 77.5 87.5 16 500 519 0 0 8 412 73+/-242 hA 0.2653 400.2 77.5 92.5 16 500 708 0 0 8 412 294+/-263 hA 0.2653 400.2 e7.5 87.5 16 500 532 0 0 8 412 124+/-243 NA 0.2e53 400.2 67.5 92.5 16 500 542 0 0 8 412 162+/-245 NA 0.2653 400.2 77.5 H.5 1 485 558 0 0 8 426 296+/-257 M 0.2528 400.2 77.5 102.5 1 485 526 0 0 8 426 166+/-253 NA 0.2528 400.2 72.5 97.5 1 485 555 0 0 8 426 284+/-256 NA 0.2528 400.2 72.5 102.5 1 485 516 0 0 8 426 126+/-252 NA 0. 2 5 ? 400.2 70 100 1 485 521 0 0 8 426 146+/-252 NA 0.2528 400.2 77.5 97.5 1 485 565 0 0 8 426 325+/-258 NA 0.2528 400.2 77.5 102.5 1 485 563 0 0 8 426 316+/-257 NA 0.2528 400.2 72.5 107.5 1 4?5 574 0 0 8 426 361+/-259 hA 0.2528 400.2 72.5 112.5 1 485 551 0 0 8 426 265+/-256 M 0.2528 400.2 70 110 1 485 527 0 0 8 426 170+/-253 NA 0.2528 400.2 72.5 117.5 1 435 488 0 0 8 426 12+/-248 NA 0,2528 400.2 72.5 122.5 1 485 459 0 0 8 426 -105+/-244 M C.2528 400.2 70 120 1 485 469 0 0 i 42: -65t/-246 M 0.2529 400.2 72.5 127.5 1 485 496 0 0 8 426 45+/-249 % 0.2528 400.2- 72.5 132.5 1 4s5 525 0 0 8 42c 162 +/- 253 s 0.2528 400.2 70 130 1 485 622 0 0 8 426 556+/-265 9 0.2526 400.2 72.5 137.5 1 485 495 0 0 8 42o 41t/- 249 hA 0.2528 400.2 72.5 142.5 1 485 469 0 0 8 42e -65+/-243 M 0.2528 (l.2 70 140 1 435 527 0 0 S 426 170+/-253 M 0.2528 U .2 (7.5 137.5 1 485 508 0 0 8 426 93+/-251 9 0.2528 400,2 72.5 147.5 1 485 480 0 0 8 426 -20+/-247 HA 0.2528 400.2 72.5 152.5 1 485 460 0 0 8 426 -101+/-'244 NA 0.2528 400 2 10 150 l' 485 503 0 0 8 426 H +/- 250 M 0.2528 400.2 77.5 10.5 1 485 446 0 0 8 426 -158+/-243 M 0.2528 400.2 77.5 itJ.5 1 485 490 0 0 8 426 20 +/- 248 hA 0.2528
t TABLE 400.2-2 L400.2 72 3 157.5 1 485 553 0 0 8 426 276+/-256 M 0.2528 N.5 162.5 1 485 509 0 -0 8 426 97+/-251 NA 0.2528 (400,2 77.5 167.5 1- 485 453 0 0 8 426 -130+/-244 M 0.2528 N}0.2- 0.2 72.5 167.5 1 485 462 .0 0 8 426 -93+/-245 NA 0.2528 400.2 12.5 172.5 1 485 533 0 0 8 426 195+/-254 6 0.2528 400.2 77.5 177.5- 1 485 480 0 0 8 426 -20t/-247 NA 0.2522 400.2 '77.5 182.5 1 485 475 0 0 8 426 -41+/-24e NA 0.2528 400.2 72.5 177.5 1 485 581 0 0 8 426 389+/-260 M :0.2528 400.2 72.5 182.5' 1 485 507- 0 0 8 426 89+/-250 M 0.2528
- 400.2 77.5 187.5 1 485 473 0 0 8 426 -49+/-246 M 0.2528 400.2 77.5 102.5 1 ~ .485 470 0 0 8 426 -61+/-246 hA 0.2528 4 00.2' 72.5 187.5 1 485- 509 0 0 8 426 97+/-251 M 0.2528 400.2 72.5 - 192.5 1- 485 489 0 0 8 426 16+/-248 M 0.2528 400.2 77.5 197.5 1 485 413- 0 0 8 426 -292+/-238 M 0.2528 400.2 77.5 202.5' 1 485 439 0 0 8 426 -187+/-242 M 0.2528 400.2 72.5 197.5 1 485 '489- 0 0 8 426 16+/-248 M 0.2528 400.2 72 4 202.5 1 485 525 0 0 8 426- 162+/-253' H 0.2528 400.2 77.5 207.5 1 485 436 0 0 8 426 -199+/-241 M 0.2528 400.2 77.5 212.5 1 485 562 0 -0 8 426 312+/-257 M 0.2528 400.2 72.5 207.5 l' 485 506 0 0 8 426 85+/-250 M 0.2528
'400.7 72.5 212.5 1 485 441 'O 0 8 426 -179+/-242 NA 0.2528 400.' 77.5 217.5 1 485' 579 0 0 8 426 381+/-259' NA 0.2528 400.2 72.5 217.5 1 485 442 0 0 8 426 -174+/-242 NA 0.252E 400.2 70 220 1 485 609 0 0 8 426 503+/-263 M 0.2528 400.2 67.5 217.5 1 485 424 0 0 8 426 -247+/-240 M 0.2528 400.2 67.5 222.5 1 485 543 0 0 8 426 235+/-255 M 0.2528 400.2 6L5 227.5 1 485 583 0 0 8 426 398+/-260 M 0.2528 400.2 62.5 217.5 1 485 449 0 0 8 426 -146+/-243 NA 0.2528 )0.2 60 '220 1- 485 525 0 0 8 426 1/2+/-253 M 0.2528
' 4'00.2 SL5 217.5 l' 485 418 0 0 8 42; -272+/-239 NA 0.2528 400.2 52.5 217.5 'l 485 438 0 0 8 426 -1?!+/-242 M 0.2528 400.2 50 220 1 485 482 0 0 8 426 -12+/-247 M 0.2528 400.2 4L5 217.5 1 485 466 0 0 8 426 -77+/-245 M 0.2528 400.2 52.5 212.5 1 485 488 0 0 8 426 12+/-248 M 0.2528 400.2 42.5 222.5 1 485 456 0 0 8 426 -118+/-244 M 0.2528 400.2 40 220 1 485' 503 0 0 8 426 73+/-250 M 0.2528 400.2 40 2P 1 485 466 0 0 8 426 -77+/-245 M 0.2528 400.2 37.5 2u7.5 1 485 492 0 0 8 426 28+/-249 NA 0.2528 ; 400.2 '3L5 212.5 1 485 482 0 0 8 426 -12+/-247 M 0.2528 i i 400.2 37.5 202.5 1 485 459 0 0 8 426 -105+/-244 M 0.2528 400.2 32.5 202.5 1 485 522 0 0 8 426 150i/-252 M 0.2528 l i l 1 I j O l L) i i 4
. -l
IABLE 400.2 3 kh ((Nf)V CINilChEM E CCMISSIONIhG PLAN 04/14/97 j f!NAL SURV!Y DATA ShEE1 OATA FOR Af fECTED AREA CESCRIPi10N: NORTH DRIVE W FROM NE PLUME 10 NORTH GATE AREA 400.2 f0R ALPHA PA01Ai!0N TYPE: 2 COMPLEi!0M DATE: 04/12/97 TECHNICIAN 5: GF/PM/PB MATER!^1. CODE APCS: 400.0 1:00NCRETE 5: PLASTIC UN!!: 400.2 2: ROCK 6:S0!L MEDIA 1YPE: ASPHALT 3:W00D 7:ASNALT 8 0.' P0lhi$: 71 4: METAL 8:0TH!R(SPECIff): Ci IN Mih0TES: 1 NC MATERIAL BACKGROUND USED 0?M/100CM'2 FEM.+ flXED: LIMIT MAX FOR IND GRID 38 PASS 5000 AVG SURVEY UNIT 8 PASS 5000 SID X 9 MU SUB ALPHA 10 PASS 5000 MAX HOT SPOT NONE PASS 15000 hEIGHTED ALPHA ALPHA SCAN TOTAL AVG. GRID INST. FIXED MAX CONT. MATER- ALPHA MAX C00RIDINATES INST. AREA COUNTS / ALPHA AREA IAL MDA FIXED PER INST Eff. 0: GRIO ID LOCAi!0N ID i BKG 1 COUNTS CM'? CODE DPM/ DPM/ AVG 100 MAX CFM/0PM 9 N N CPM MINVIES 100 CM'2 100 CM^2 IEST CM^2 TEST 400.2 77.5 82.5 16 2 2 0 0 8 46 0+/- 19 NA 0.2021 400.2 77.5 87.s 16 2 2 0 0 8 46 0+/- 19 NA 0.2021 400.2 77.5 92.5 16 2 0 0 0 8 46 -10+/- 14 NA 0.2021 400,2 67.5 87.5 16 0 0 0 8 46 -10+/- 14 NA 0.2021 400.2 67.5 92.5 16 2 3 0 0 8 46 5+/- 22 NA 0.2021 400.2 77.5 97.5 1 0 4 0 0 8 17 25+/- 25 NA 0.1588 400.2 77.5 102.5 1 0 1 0 0 8 17 6+/- 12 hA 0.1588 400.2 72.5 97.5 1 0 2 0 0 8 17 13+/- 17 NA 0.1588 400.2 72.5 102.5 'l 0 2 0 0 8 17 13+/- 17 hA 0.1588 400.2 70 100 1 0 1 0 0 8 17 6+/- 12 NA 0.1588 400.2 77.5 97.5 1 0 0 0 0 8 17 0+/- 0 hA 0.158B 400.2 77.5 102.5 1 0 6 0 0 8 17 38+/- 30 NA 0.1588 400.2 72.5 107.5 1 0 2 0 0 8 17 13+/- 17 NA 0.1588 400.2 72.5 112.5 1 0 1 0 0 8 17 6+/- 12 NA 0.1588 400.2 70 110 1 0 0 0 0 8 17 0+/- 0 NA 0.1589 1400.2 72.5 117.5 1 0 1 0 0 8 17 6+/- 12 NA 0.1588 40L2 12.5 122.5 1 0 5 0 0 8 17 31+/- 28 u C.1588 400 2 10 120 1 0 1 0 0 ! 17 6+/- 12 h4 0.1588 400.2 72,5 121.5 1 0 1 0 0 3 17 6 +/- 12 H 0.188 400.2 72.5 -(32.5 1 0 3 0 0 8 17 19+/- 21 hA 0.1588 400.2 70 130 1 0 3 0 0 8 17 19+/- 21 NA 0.1588 400.2 72.5 137.5 1 0 0 0 0 6 17 0+/- 0 NA 0.1588 400.2 72.5 142.5 1, 0 1 0 0 8 17 6+/- 12 6 0.1588
' '0,2 70 140 1 0 4 0 0 8 17 25+/- 25 N 0.1538 J.2 67.5 137.5 1 0 3 0 0 6 17 14+/- 21 4 0.1588 400.2 72.5 147.5 1 0 2 0 0 8 17 13+/- 17 M C.1588 400.2 72.5 152.5 1 0 1 0 0 8 17 6+/- 12 NA 0.1589 400.2 70 150 1 0 3 0 0 8 17 19+/- 21 M 0.1588 400.2 17.5 157.5 1 0 0 0 0 8 17 0+/- 0 NA 0.1588 400.2 77.5 16?.5 1 0 0 0 0 8 17 0+/- 0 NA 0.1588
t
'IA6ti4b0.2-3 - 400.2< ~ 72.5 157.5 1 'O 0 0 0 8 17 0+/- 0 M -0.1588 . 400.2 72.5; 162.5 I 0 1 0' 0 8 17 6+/- 12 6 0.1588 ?['12 77.5 ' 167.5 :1 0 1 0 0 S 17 6+/- 12 4 0.15E8 (30.2- 72.5: 167.5 1 0 1 0 0 8 11 6+/- 12 u c.158e ^ - 400.2- 72.5 172.5 1 0 1 'O 8- 17 6+/- 12 .M 0.1588 400.2' 77.5 .177,5' 1 0 0 0 0 8 17. 0+/- 0 M 0.1588 400.2- 77.5. 182.5 - 1 0 3 0 0 8 17 19+/- 21 0 0.1588 400.2 72.5 177.5 1 0 1 0 0 S 17 e +/- 12 M 0.1583 403.2 -72.5 182.5 1 0 1 0 0 8 17 6+/- 12 M 0.1588 . 400.2- 77.5 187.5 1 -0 2 -0 .0 8 17 13+/-'!? M 0.1588 400.2 17.5 '192.5 1' 0 0 0 0 8 17 0 +/ . O. NA 0.1588 400.2 72.5 187.5- -1 0 1 0 0 8 17 ' 6 +/- 12 M 0.1588 400.2 ;72.5 192.5 1 0 2 0 0 8 .17 13+/- 17 p 0.1588 400.2 77.5 197.5 1 0 1 0- 0 8 17 6+/- 12 NA 0.1588 400.2 77.5 202.5 1 0 2 0 0 8 17 13+/- 17 'M 0.1588 400.2 72.5 197.5 1 '0 1 -0 0 8 17 6+/- 12 M 0.1588 400.2 72.5 202.5 1 0 1 0 0 ~8 17 6+/- 12 M 0.1588 400.2- 77.5 207.5 1 0 0 0- 0 8 17 0+/- 0 M '0.1588 400.2 77,5 212.5 1 0' 3 0 0 8 17 19+/- 21 M 0.1589 400.2. 72.5 207.5 1 0 1 0 'O 8 17 6+/- 12 hA 0.1588 400.2- 72.5 212.5 - 1 0 1. 0 0 8 17 6+/- 12 M 0.1588 400.2- 77.5 217.5 1 0 0 0 0 8 17 0t/- 0 M 0.1588 400.2 72.5 217.5 1 0 2 0 0 8 17 13+/- 17 M 0.1588 - 400.2 : 70 220 1 0 0 0 0 8 17 0+/- 0 M 0.1588 400.2 67.5 -217.5 1 0 0 0 0- 8 17 04/- 0 M 0.1558 400.2 . 67.5 ' 222.5 1 0- 2 0 0 8 17 13+/- 17 M 0.1588 400.2 67.5 227.5 1 0 1 0 0 8 17 6+/- 12 M 0.1588 . 400.2 62.5 217.5 1 0 0 0 0 8 17 0+/- 0 M 0.1588 ID.2 60 220 1 0 2 0 0 8 17 13+/- 17 NA 0.1558 J0.2 57.5 217.5 1 0 2 0 0 8 17 13+/- 17 M 0.1588 400.2 52.5 217.5 1 0 1 0 0 8 17 6+/- 12 M 0.1588 -400.2 50 220 1 0 1 0 0 8 17 6+/- 12 8 0.1588 400.2 47.5 217.5 1 0 2 0 0 8 17 13+/- 17 6 0.1588 400.2 52.5 212.$ 1 0 3 0 0 8 17 19+/- 21 M 0.1588 400.2 42.5 ' 222.5 1 0 0 0 0 8 17 0+/- 0 M 0.1588 400.2. 40 220 1 0 1 0 0 8 17 6+/ 12 M 0.1588 400.2 40 210 1 0 0 0 0 8 17 0+/- 0 M 0.1588 400.2 37.5 207.5 1 0 2 0 0 8 17 13+/- 17 M 0.1588 400.2 37.5 212.5 1 0 2 0 0 8 17 13+/- 17 M 0.1588 400.2 37.5 202.5 1 0 1 0 0 8 17 6+/- 12 NA 0.1588 - .400.2 32.5 202.5 1 0 3 0 -0 8 17 19 +/- 21 M 0.15B3 s ?O f
4 F r+, r. e a -
r CINTICIIEN FINAL STATUS SURVEY PLAN AND REPORT (3-V The'400.3 survey unit was surveyed on an affected area basis and has a surface area of 500 m'. 19 direct beta / alpha surface contamination measurement locations were placed in this area using 5 readings per 10m by 10m grid. One reading was taken at the center of the grid and four each at the midpoint between the center and the corners of the grid, 19 gamma exposure rate measurement locations were placed in this area using a 10m by 10m grid. In addition a 100% scan was performed in each 10m by 10m grid location. The 1; cation of these measurements is shown in the map at the beginning of this volume. Measurement and sampling results for the 400.3 survey unit are provided in 3 attached tables as follows: Table 400.3-1 Mall Driveway gamma exposure rate data Table 400.3-2 Man! Driveway direct beta / gamma surface contamination data Table 400.3-3 Mall Driveway direct alpha surface contamination data O b SECTION 14
)
'E CINTICl!EM FINAL STATUS SURVEY PLAN AND REPORT.
n
! i \_./
AREA 400.3 Meas. Type: Gamma Exposure Direct Direct Rate (a) Beta (b) Alpha (b) Units uRem/hr dpm/ dpm/ 100 cm2 100 cm2 MDA 2 431 68 Number of Meas: 19 19 19 ce=========--- =&--- -__________=s--- -_____________;=mm_____s=========== Survey Unit ~Mean: 1.3 -32 -9 True Mean:U alpha 95% C.L.: 1.7 62 -5 Criteria 5 1273 5000 Acceptable Y/N Y Y Y c ====- - - - - - - - _ _ = _ _ _ _ _ - ----er---------------r--=============-----------. Max Grid Block Wt. Mean 3 608 19
/ -. Criteria 10 1273 5000
.( cceptable Y/N Y Y Y cl2c=============================================================== Max. Ilot Spot Scans NONE NONE NONE
.(Effected areas only)
Criteria NA NA NA Acceptable Y/N NA NA NA
==================================================================-----
(c) With a mean site background of 6 uRem/hr subtracted (b) Without subtraction of radioactivity due to natural radioactive material content
,cs \s)
TAEu 200 ~ , / h, h - (./ - Di.'Ohn D!C0*r! CIO4f MG ?LAN 05/27/97 j., f!AAL SUFYEY DATA CFEE" l JATA (CR AffECTED AFEA DESCRIPTION: MALL AREA A0 PHAL: AREA 400.3 TOR LRlHF RADIATION TYP!: GAMMA SURVEY IN UREM/XP 00MPLEi!0N DATE: 04/14/91 TECHNICIANC: 3E MATERIA'. CODE AREA: 400.0 1:CChCRETE 5: PLASTIC UNIT: 400.3 2:R00K 6:501; MEDIA TYPE: ASPHALT 3:4000 7: ASPHALT I of POINIC: 19 4: METAL 6:DiH!RlCPEClfY NO MATERIAL BACKGROUND USED MICR0 RER PER HOUR: LIMIT MAX: 3.00 PASS 10 AVG: 1.26 PASS 5 0f0 L 0.99
.MU 303 ALPHA: '!.66 PASS 5 MATER-IhST. AREA AREA IA'. NET ID 8 . GRID POINI ID # BKG READlhG CODE UREM/HR
- /9 e
- g UREM/HRUREM/HR
("/ 400.3 2.5 57.5 A 6 8 3 2 400.3 5 55 A 6 8 8 2 400.3 7.5 47.5 A 6 8 8 2 400.3 2.5 47.5 A 6 7 8 1 400.3 5 45 A 6 6 3 0 400.3 7.5 42.5 A 6 6 S C 400.3 2.5 42.5 A 6 7 3 1 400.3 12.5 47.5 A 6 9 8 3 400.3 15 45 A 6 7 8 1 400.3 12.5 42.5 A 6 9 6 3 400.3 17.5 42.5 A 6 3 8 2 400.3 17.5 37.5 A 6 8 8 2 400.3 15 35 A 6 3 3 2 400.3 17.5 32.5 A 6 7 6 1 400.3 17.5- 27.5 A 6 7 8 1 400.! 12.5 27.5 A 6 6 : 0 ) 400.3 15 25 A 6 6 3 0 ! 400.3 17.5 22.5 A 6 6 5 0 400.3 12,5 22.5 A 6 7 3 1 i { . v ! I I
dfETABit400.32~ 5 h ((.h[
. ClNTICHEM DECOMMISSIONING PLAN . .05/27/97
- x . LFINAL SURVEY DATA SHEET
( J'
~'
DATA FOR AffECTED AREA DESCRIPTION: MALL AREA ASPHAli-AREA 400.3 FOR BETA PADIAi!0N TYPE: 11 BETA SCALING FACIOR : 0.975 COMPLETION- , _DATE: 04/14/97 TECHNICIANS: . .18 . MATERIALCODE AREA: 400.0 1: CONCRETE 5: PLASTIC UNif: 400.3 2: ROCK- 6:$0!L MEDIA TYPE: ASPHALT -3:W000 7:ASPHAli i of POINIS: 19 4: METAL 8:0THER(SPECIfY): CT IN MINUTES: 1 NO MATERIAL BACKGROUND USED DPN/100CM'2'
-REM.t flXED: LIMli MAXFORINDGRIO' 608 PASS 1273' ~ AVG - SURVEY UN!! -32 PASS: 1273 STD X 236 MU SUB ALPHA' 62 PASS 1273 MAX HOT SP0f NONE PASS 3818 NEIGNTED BETA BETA - SCAN TOTAL AVG.
GRID INST. FIXED MAX CONT. MATER- BETA MAX C00RIDINATES INST. AREACOUNTS/ BETA AREA IAL MDA flXED PER INST Eff. ID 8 GRID 10 LOCATION ID I 8KG 1 COUNTS CM'2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM CPM MINUTES 100 CM'2 100 CM'2 TEST CM'2 TEST w./ S N 400.3- 2.5 57.5 5 516 623 0 0 8 '431 425+/-263 NA 0.2581 400.3 5 55 5 516 669 0 0 8 431 608+/-268 NA 0.2581 400.3 7.5 47.5- '5 516 475- 0 0 8 431 -163+/-245 NA 0.2581 400.3 2.5 47.5 5 516 454 0 0 8 431 -246+/-243 NA 0.2581
-400.3 5 45 5 516 487 0 0 8 431 -!!5+/-247 NA 0.2581
, 400.3 7.5 42.5 5 516 558 0 0 8 431 167+/-255 NA 0.2581 ; 400.3 2.5 42.5 5 516 464 0 0 8 431 -207+/-244 NA 0.2581 ; 400.3 12.5 47.5 5 516 457 0 0 8 431 -234+/-243 NA 0.2581 ,
-400.3 15 45 5 516 485 0 0 8 431 -123+/-246 NA 0.2581 l 400.3' 12. 5 '. 42.5 5 516 509 0 0 8 431 -28+/-249 NA 0.2581 400.3 17.5 42.5 5 516 477 0 0 8 431 -155+/-245 NA 0.2581 400.3 17.5 37.5 5 516 483 0 0 8 431 . -131+/-246 NA 0.2581 400.3 15 35 5 516' 518 0 0 8 . 431 8+/-250 NA 0.2581 i 400.3 17.5 32.5 5 516 461 0 0 8 431- -219+/-243 NA 0.2581 l 400.3' .17.5 27.5 5 516 462 0 0 8 431 -215+/-244 NA 0.2581 ,
400.3- 12.5- 27.5 5 516 578 0 0 8 431 246+/-258 NA 0.2581 I 400.3 15 25 5 516 505 0 0 8 431 . -44+/-249 NA 0.2581
-400.3 17.5- 22.5 l5 516 471 0 0 8 431 -179+/-245 NA 0.2581 1
- 400.3 12.5 22.5 5 ;516 : 516 0 0 8 431 0+/-250 NA 0.2581'
]<
1 - i W j J l
.IAQLt20.3- h h- L{ hA
- INMC%EM DECOMISSIONING PLAN 05/27/97 flNAL 20RVEY DATA SHE!'
(_) v DATA FOR AffECIE0 AREA DESCRIPTION: MALL AR!A ASPnAL* AREA 400.3 f0R Ar?HA . FADIATION TYP!: ; 00MPLEi!0N 0 ATE: 04/14/97 TECHNICIAN!: JE MATERIAL CODE AREA: .400.0 1:00NCR!TE 5: PLASTIC UNIT: 400.3 2:ROCf. 6:S0!L MEDIA TYPE: A3PHALT 3:5000 7: ASPHALT I of POINTS: 19 4: METAL 8:0THERISPECIFY): 07 IN MINUIES: 1 ND MATERIAL BACKGROUND USED DPM/100CM'? REM.+ FIXED: LIMll MAX FOR IND GRID 19 PASS 5000 AVG - SURVEY UNIT 9 iASS 5000 STD X 10 MU SUB ALPHA -5 PA03 5000 MAX HOT SPOT NONE PASS 15000 WEIGHTED ALPHA ALPHA SCAN TOTAL AVG. 4RIO INST. flXED MAX CONT. MATER- ALPHA MAX C00RIDINATES JST. AREA C0JNTS/ ALPHA AREA IAL MDA FIXED PER INST Eff ID 8 GRID ID LOCATION ID I 8KG 1 COUNTS CM'2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM CPM MINUIES 100 CM^2 100 CM^2 TEST CM'2 TEST /7 e y Q
- 2.5 57.5 5 3 2 0 0 8 68 -6 +/- 28 NA 0.1539 400.3 5 55 5 3 1 0 0 8 68 -13 +/- 25 NA 0.1589 400.3 7.5 47.5 5 3 3 t 0 8 68 0 +/- 30 NA 0.1589 400.3 2.5 47.5 5 3 3 0 0 8 68 0+/- 30 NA 0.1589 400.3 .5 45 5 3 1 0 0 8 68 -13 +/- 25 NA 0.1589 400.3 7.5 42.5 5 3 2 0 0 8 68 '6+/-
28 NA 0.1589 400.3 2.5 42.5 5 3 0 0 S 8 68 -19 +/- 21 NA 0.1599 400.3 12.5 47.5 5 3 1 0 0 8 68 -13+/- 25 NA 0.1589 400.3 15 45 5 3 0 0 0 8 68 -19 +/- 21 NA 0.1589 400.3 12.5- 42.5 5 t 0 0 0 8 68 -19+/- 21 NA 0.1589 400.3 17.5 42.5 5 3 0 0 0 8 68 -19 +/- 21 NA 0.1589 400.3 17.5 37.5 5 3 4 0 0 8 68 6+/- 33 NA 0.1589 400.3 15 35 5 3 1 0 0 8 68 -13 +/- 25 NA 0.1589 400.3 17.5 32.5 5 3 2 0 0 8 6? -6+/- 28 NA 0.1589 400.3 !?.5 27.5- -5 3 2 0 0 8 68 -6+/- 28 NA 0.1599 400.3 12.5 27.5 5 3 2 0 0 8 68 -6 +/- 28 NA 0.1580 400.3- 15 25 5 3 6 0 0- 8 68 19 +/- 37 NA 0.1589
-1s +/ 21 400.3 17.5 22.5 5 3 0 0 0 8 68 NA 0.1539 400 3 12.5 22.5 5 3 1 0 0 8 68 - 13 + '- 25 NA 0.1509
__J
CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT The 401.1 survey unit was suryeyed on an affected area basis and 46 plus 9 biased surface soil has a surface area of 500 m. contamination measurement locations were placed in this-area using 5 samples per 10m by 10m grid. One sample was taken at the center of the grid _and four each at the midpoint between the center and the corners of the grid. 40 gamma exposure rate measurement locations were placed in this area using a 10m by 10m grid. In addition a 100% scan was performed in each 10m by 10m grid locatlon. The location of these measurements is shown in the map at the beginning of this volume. Measurement and sampling results for the 401.1 survey unit are provided in 2 attached tables as follows: Table 401.1-1 West of Hot Lab Land Area gamma exposure rate data Table 401.1-2 West of Hot Lab Land ,cea surface soil contamination data O O sectio" 14
. . - . . . .~.-~.. . - . . _ . . . . . - - -
ifftiAllE401.1-1" GA , o E [CINilCHiM DECOMIS$10NING PLAN 04/10/97
'W
' r
- FINAL'SURVEYDATASHEET b I3
'kJ ' - ^ ~DATAFORAFfECTEDAREADESCRIPi!0N:
WEST'0F N01 LA8 LAND AREA.
- AREA 401.1 FOR uR/HR- ;
RADIA!!0N. TYPE: 'GANMASURVEYINUREM/HR j COMPLEil0N' 0 ATE:- 03/28/97 . IECHNICIANS: RW/LC/JB- MATERIALCODE AREA:-- l401.0~ 1:00NCRETE 5:PLASTICL UNIT: '401.1 2: ROCK 6:50!L MEDIA TYPE: S0IL 3: WOOD 7: ASPHALT
'8 cf P0lNIS:1 40 ' diMETAL 8:0THER(SPECIFY): .NO MATERIAL 8ACKGROUND USED.
MICR0RER- ; j PER HOUR: LIMIT MAX: 6.00 PASS 10 ; p ' AVG: 1.80 PASS. .5 :
< STDX: 1.84 ,
- MU SUB ALPHA: 2.29 PASS 5 1' MATER-
+ INST. AREA AREA IAL NET
, 10 8 GRID POINT- 10 8 8KG READING CODE UREM/HR 4
p UAEM/HRUREM/NR j V N N 401.1- 92.5 8?.5 A 6 6 8 0 401.1 97.5 87.5 A 6 8 8 2 { 401.1 95 85 Al 6 8 8 2-
- 401.1 92.5 82.5 A 6- 8 8 2
'401.! -97.5 82.5 A 6 8 8 2 40!.1 ~102.5 87.5 A 6 8' 8 2 to .1 - 107.5 87.5 A 6 6 8- 0
- 4't.1 105 85 A 6 8 8 2 4' t- 102.5 82.5 A '6 6 8 0 401.i 107.5 82.5 A 6 6 8 0 401.1 .!!2.5 87.5 A 6 4 8 -2 401.1 117.5 87.5 A 6 7- 8 1
-401.1 .115 .85 A 6- 8 8 2 401.I' '112.5 - 82.5 A 6- 8 8 2 401.1- !!7.5 82.5 A 6- 8 8 2 401.I' 122.5-. 87.5 A- 6. '8 8 2 'A 401.1; 127.5. -87.5 6- 6- 8 0 '401.1: 'A- "125 :: ' 85 ' -6 7 8 1
. '401.1.i 122.5:- '82.5 -A. '6 ~ -
- 7. 8 1
- 401.1 127.5 --82.5 'A '6' 5 8 1 t 401 lc .102.5 77.5 A' .6- 8- 8 2 3 x
401.1 . -107.5 '77.5' A : 6' 6' -8 0 l 401.1 : ll2.5 . 1 77.5 - A0 =6 . 9 8- '3
- 401.1; a 117.5 - ' 77.5 1 A. 6- 8 8 2 l
401.1 fl22.5 f77.5' 'A' 6 11 8 ;5 '
- . 401.1 J '127.5i 77.5! A' - 6- !! ' 8- 5-401.1. 132.5' - 77.5 A :6 : 12 - .8 6, ;
401,14 137.5 77.5 A' 6- .11 - 8 5 :
. 401.1 . -142;5 - 77.5 i : A .. 6 :9 8 .- 3 401.!! i147.5 - 77.5 A- '6. 10; 8 4i
- s . . , -
- CELE 401.1-1!
401.1 152.5. -- 77.5" 'A 6' ' !! '8 5 401.1 .157.5' .'77 5 . A 6' 11 . 8 5
, g 401.1 . 162.5 ' . 77.5 ;A, 6 8 1 401.1 .167.5- 77.5. ' A' 6 7 8 1 9
401.1; -172.5 77.5 A~ 6 7 8 1 401.11 177.5 - 77.5 A-~ '6 8 8 2
.401.1. 182.5 77.52 A 6' 7 8 1 401;l '167.5 77.5 A 6' 7- 8. '11 401.-1 '192.5 77.5 A 6 7' '8 1. .401.1- .197.5 . 77.5 - A 6 5 8 -1 Z
1 O l l I i i-4 4 h 1
__ _ . _ . _ ii._ . T _ . -_ z _ Z z z z _ _ 4 6TAILE 401,1-2 CINilCHEM DECOMM!$$10NING PLAN 06/20/97 FINAL SURVEY DATA SHEET DATA FOR AFFECTED AREA DESCRIPi!0N: NEST Of HOT LA8 LAND AREA AREA 401.1 RADIA110N TYPE: S0lt DATA FOR SUM OF THE FRACTIONS COMPLEi!0N DATE: 03/28/97 TECHNICIANS: RW/LC/JB
- -- - - -~'-- ~
AREO 401.0 UNIT: 401.1 MEDIA TYPE: S0lt - - -
~ .m~ ~
X~of POINIS: ~46 PLUS 9 BIASED SAMPLES - ~~ - -~ S0ll DATA IN -
~ ~ ' ~ ~ ~ - ~ ~ ~~ t1MIT - ~ ~ ~ '
y ~SL'M OF FRACTIONS:-
!j MAX !.40 PASS 3 ilj MAX GRID AVG. 0.73 PASS 1 -
Sio X 0.12 -
,l MU SUB ALPHA 0.76 PASS 1 IS0 TOPES OF CONLERN IN~PCI/G 1NITH~8ACIGROUND INCLUDED)'--~~ IS
[j GRID (N C00RIDINATES SR-90' 'CO-60 AG-108M CS-134 CS-137 CE-144~ EU-152'$0It C00E~ 'SR l (; -- ~ ^ ~ ~ - - ~ ~ ~ ~ - - - - -
.ID 8 ~0R OTHER ID N W .. ~~ 4 01. ! ~ ~~ 92.5' ~~ 87.3 T0.30T- 0:09 < 0;06 < 0.06 1).23T 015 s E09 1r0 Ij 401.1 97.5 87.5 ' c 0.30 < 0.09 1 'O.09 ( 0.09 "I' 73 "( 0.28<'"E12 . 'l- r "O 'l~ "( ~0 if' 401.1 95 ~85~< 0.30 r 0.06 'T ~ 0.06- ( 0.07 ~< ~ 0.11'-( " 0.34' r " 0.14 0;07 TE04T~037 0:71 s K44 s 0.07 s 0 l --
4013- 92.5~- 82.5T 0:30 3 I 401.1 "5 82.5 ( 0.30 < 0.05 < 0.03 < 0.09 0.98 < 0.25 < 0.21 1 < 0
] ~401.1 ~202.5 87.5 ~ ~< 0.30T'- 03)5~ r0.05 T ~ 0:08 T.22 r0:31 rT08-~'T ( 0
( {j 401.1 107.5 87.5'< 0.30 < 0.07 < 0.07 < 0.08 0.79 < 0.38 ('"0.13 ~1 < 0 85 ( 0.30 < 0.10 < 0.07 ( 0.08 1.77 < 0.28 <'~0.13 c'0 [' 401.1 105 0;V4T 0:08 < t.07-- 237 r0~39 < 014
'I i s 0 -- 401T 102.5~ 8M T0':30 s
[! 401.1 107.5 82.5 ( 0.30 < 0.04 ( 0.04 < 0.01 0.68 < 0.17 < 0.17 1 < 0 l i ~<0 If~' ^401.I 112.5 ~87.5T 0:30 I EV6 T 0;08-~< 0.12 r56 TE54T- 032 Li 401.1 117.5 87.5 ( 0.30 < '0.09 < 0.08 < 0.09 1.00"< 0.40~( '0.17 ~1 (' 0 401.1 115 85 ( 0.30 < 0.07 < 0.08 < 0.10 1.61 < 0.55 < 0.28' I < 0 I, { ~~' I, e ~401.1 ~112.5 82.5' < 0.30 T 0.11~ C 0.05 < ~ 0.08 ~ 0.44~ < ' 0.44" r 0.74~ 1 r 0 401,1 117.5 82.5 < 0.30 < 0.13 < 0.03 < 0.08 1.17 < 0.43 < 0.14 1 < 0
'401.1 122.5 87.5 < 0.20 (' O.06 < 0.09 ( 0.09' 2.10 T O.24 ~~( 0;19~ ~ 1 - ~~ ( 0 401.1 127.5 87.5 ( 0.20 < 0.05 < 0.05 < 0.09 1.51 < 0.24 < 0.13 1 < 0 401.1 125 85 < 0.20 < 0.07 < 0.08 < 0.11 2.21 < 0.51 < 0.17 1 < 0 401.1 122.5 82.5 < 0.20 < 0.08 < 0.07 < 0.08 1.09 < 0.27 (~ 0.28 1 < 0 401.1 127.5 82.5 < 0.20 < 0.08 < 0.08 < 0.10 1.16 < 0.42 < 0.09 1 < 0 401.1 102.5 77.5 0.45' (" 0.12 ~ < 0.12T 0.06 ~~2.15 < 'O.35 ' r '0.21- 'l ~0 q 401.1 107.5 77.5 0.45 < 0.13 < 0.10 < 0.08 4.24 < 0.47 < 0.25 1 0 i > 401.1 107.5 75 0.86 0.39 ( 0.12 < 0.13 4.26 < 0.38 < 0.19 1 0 l ,
- 401.1 112.5 77.5 0.45 ( 0.09 < 0.04 < 0.07 2.41 < 0.23 < 0.0B 1 0 l9 401.1 117.5 77.5 0.45 < 0.12 < 0.19 ( 0.21 3.93 < 0.43 ( 0.27 1 0 401.1 122.5 77.5 0.45 < 0.11 < 0.07 < 0.06 2.15 < 0.44 < 0.25 1 0 v m.
- - - - _ - . ~ - _ _ _ _ _ _ - _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . - _ _ _ ._ _ _ _ _ _ . _ _ _ _ __ _ _ _ _ _ _ _ _
$16 6- to-9t __.
1 i
. , __ I' .j r3 i- - -~ ~ - _ . ..__ _. _ _ , . . _ _ . _ _ ._ ., ;J i.:
IS OF CONCERN INDIVIDUAt 5 AMPLE FRACTION OF' HOT SPOT t!MIT-' . (s137BACKGROUNDOF1.25pCi/gsSUBTRACTED)
-C0-60 ^ AG-108M^- CS-134 137' CE-144~ EU-152 SUM GRID 8t00K~ /j .
AVG;~ FRACTION-- - ----U OF LIMIT (1 T 0.033 r~~0.018 r0.0!! 0.000 r -0.001 t--0.015 -0.000 - - - ~ - - ( 0.033 r ~0.027 (' -0.017" 0.042 ( 0.001 ( 0.020 0.042 APERTURE -
< ~ 0.022 r 0.018 < 0.013 r- 0.000t 0.002 (
- r 0.126T~~0;t!? t 0;t31 0.023 0:000 r '0;002 r ~0.012---- 0:000------
0.000 gg- [ iI l( 0.019 ( 0.009 < 0.017 0.000 < 0.001 < 0.035 0.000 h 0.025263 Also Avellebte on i tr 0.019r0;015ro.015-~ 0.t00 r "0.002 ( 0.013 0;000- - - - APetWe M , T 0.026 ( ~0.021 < - 0.015- 0.000 < 0.002 ( 0.022 0.000 lt 0.0371- 0.021-( 0.015 0.046 ( 0.001 < 0.022 0.046
--~ N T- 0.015 T- 0:024-(-0;013 0.081 C-0.002 (-t.023--- -0.-081 -- - - - - < 0.015 < 0.012< 0.013 0.000 < 0.001 < -0.028 0.000 d l 0.075789 l
Irt.022 r-~0.024T 0:022-0:115 <- 0;003r 0.020 ---- 0.!!5 -- -
--+!
0.000 < 0.002 c~ 0.028 P l<O.033( 0.024 < - 0.017- 0.000 l( 0.026 ( 0.024 <' O.019 -0.032 < 0.003 ( 0.047 0.032-lr 0.041 0 0.015r~0.015 --0.000 r0.002 ( - 0.040 0.000 - - - --
- /i l< 0.048 ( 0.009 < -0.015 0.000 < 0.002 < 0.023 0.000 'i/
l 0.087895
-0.075~ #[
f 0.022 0 0.027 e ^0.017 - 0.075 0 - 0.001 < ~ 0.032 !< 0.019 ( 0.015 < 0.017 0.023 ( 0.001 < 0.022 0.023 (< 0.026 ( 0.024 < 0.020 0.084 ( 0.003 ( 0.028 0.084 i l< 0.030 < 0.021 < 0.015 0.000 ( 0.001 < 0.047 0.000 i< 0.030 < 0.024 < 0.019 0.000 < 0.002 < 0.015 0.000 0.108947 lC ~ 0.044 r ~ 0.036-( 0.011 '0.079 ( 0.002 < 0.035 0.105 i< 0.048 ( 0.030 < 0.015 0.262 < 0.002 < 0.042 0.289 0.144 < 0.036 ( 0.024 0.264 ( 0.002 < 0.032 0.459
~~ ~
0.394169 l< 0.033 < . 0.012 < 0.013 0,.102 ( 0.001 < 0.013 0.126 ij l< 0.044 < 0.058 ( 0.039 0.235 < 0.002 ( 0.045 0.262 '^ "~~ ~ - - - - - i 0.584675 i< 0.041 < 0.021 < 0.011 0.079 < 0.002 < 0.042 0.105 9707240129-0 3 -
. . - - ~ .-. . - . - - . CBLE 401.1-2 ,
r , l
~
401.1 127.5 77.5 0.51 < 0.14 < 0.08 < 0.07 3.65 < 0.34 < 0.21 1 401.1 !!2.5 77.5 0.51 < 0.24 ( 0.10 < 0.10 3.40 < 0.48 < 0.29 1 o 1 401.1 137.5 77.5 0.51 ( 0.15 ( 0.04 ( 0.05 1.53 < 0.31 < 0.18 1 v - 401.1 142.5 77.5 0.51 < 0.08 ( 0.11 ( 0,10 4.12 < 0.46 < 0.27 1- n 401.1 147.5 77.5 0.51 < 0.12 < 0.07 ( 0.07 2.39 < 0.25 < 0.25 _ 1- i 401.1 152.5 77.5 0.74 ( 0.28 < 0.04 < 0.14 1.53 < 0.28 < 0.19 1 { 401.1 157.5 77.5 -0.74 < 0.06 < 0.03 < 0.06 2.29 < 0.24 ( 0.14 1 9 401.1 162.5 77.5 0.74 0.40 < 0.05 ( 0.06 0.94 ( 0.39 < '0.06 1 e 0.29 < 0.06 < 0.15 2.89'< 0.25 ( 0.15 401.1 167.5 77.5 0.74 1
]
401.1. 172.5 77.5 0.74 ( 0.05 < 0.05 < 0.06 0.74 ( 0.17 ( 0.19 1 i
. 401.1 177.5 77.5 0.24 < 0.03 < 0.06 < 0.14 0.85 < 0.38 ( 0.08 1 9
0.24 < 0.07 < 0.06 ( 0.07 1.38 ( 0.26 < 0.09~ '1 ( 401.1 182.5 77.5 401.1 187.5 77.5 0.24 < 0.08 < 0.06 < 0.17 1.28~< 0.32 0 0.19' ~1" 1 401.1 192.5 77.5 ( 0.20 ( 0.05 < 0.06 < 0.08 1.02 ( 0.23 < 0.14 1 < _ ._'401.1 197.5 77.5 0.24 ( 0.05 < 0.02 < 0.06 0.55 < 0.38 < 0.06 1 d
. _q yl- 401.1 187.5 05 ~0.87 0.20 0.28 < 0.12 4.19 ( 0.37 ( 0.24 1 ( '
(j- '401.1 186.5' 85 < 0.05 0.05 < 0.15 1.50 < 0.12 <' O.19 1 gg - 4 01'. ! ~ ~ '187.5-~ ~ 84 - ~~T ~0.11 ~~ 0.03TO.07 1:22 T 0:34T 0.09 l~~~ ; L .! 401.1 187.5 86 < 0.08 0.08 ( 0.07 1.89 .< 0.25 .( -0.17 1 , 401.1 188.5 85 < 0.28 0.10 < 0.09 2.87 < .0.46 < 0.12 1 'h; '- BIASED SAMPLES OU75!0E OF SURVEY AREA (NOT INCLUDED IN CALCULATIONS)"
~ -- ,l 401.1 ~ 185 95 ('0.30 < 0.08 ( 0.03 < 0.06 0.67 r 0.37 ~(- 0.22 ' ~1~ T "@
m i
;j - 401.1 120 75 < 0.20 < 0.12 < 0.08 < 0.09 2.13 < 0.39 ( 0.08 1 < .@
- ! .i
)+ " 401.1- - 170 75 < 0.20 T ' ' 0.04 ~< ' 0.04 ~( ' O.07 ~ ~ 1;00-(-~0.42T 0;17 1" r--@
h 401.1' 225 75 ( ~0.40 0.21 0.21 < 0.09 ' 2.27 < 0.32 ~<~ 'O.25 1-'< 0
,t I 401.1 250 . 75 ,( 0.50 < 0.05 < 0.03 ( 0.12 1.10 < 0.30 < 0.10 1 b
SAMPLE 81^ t-- 0.00 < -0;0$v0.05 T0:06"tl6 rt39 < 0.06 - i <@ ( p - _ ~401.1~
. . 40 dl SAMPLE 12 ( 0.00 - ( - 0.06"< 0.02-<-0.13~ 0.91- C 0.16 < - 0.06- e -0 1 401.1- SAMPLE 13 < 0,00 - 0.24 - ~ 0.14 -< 0.06-- 2.76- r 0.28 ~< 0.15- 1 ~< - 0 - 401;l - SAMPLE 84' '- <- 0.00 - 0.30 < ~0.19 T -0.06- -3.04 v 0;54 t - 0:15 1-t-0 y .
_ _ _ . . . . .__ _ ._ __._ __ _ _ . . . _ . ._._.._ _. _ =_2
-l tf r . - [
t 4 4 0 ._ m _ _ _ _ _ - W Q* .
, ~ . - , _ - .+ =-.a . - ...- - . -.
- , y M
3< 0.052< 0.024 < 0.013 0.211 < 0.002 < 0.035 0.241 5 0.518916
< 0.089 < 0.030 < 0.019 0.189 < 0.003 < 0.048 0.219 l < 0.056(- 0.012< 0.009 0.025< 0.002 ( 0.030 0.055 !
_' ._ - _ _ _ _ . _ . ~ 0.409737 ! )< 0.030 < -0.033 ( 0.019 0.252 < 0.002 < 0.045 0.282 [ 3< 0.044 ( 0.021< 0.013 0.100< 0.001 < 0.042 0.130 0.617632 0.104 < 0.012 < 0.026 0.025< 0.001 < 0.032 0.068 p) ,( <0.022 ( . . 0.009 < 0.011 0.091 < 0.001 < 0.023 0.135 _ . _ . _ , _ . _ _ . . - _ _ _ _- ~ 0.30072
' O.148 ( 0.015'< '0.011' O.000 < 0.002 < 0.010 0.192 0.107 ( 0.018 < 0.001 ( 0.025 0.295 ..." , . - . _ - . . . . 0.028- - _."0.144 (- .. .n,yg,yg; .( 0.019 < 0.015 < 0.011 0.000 ( 0.001 < 0.032. 0.044
- ( -0.011< 0.018 < 0.026 0.000< 0.002 <. 0.013 0.014
<' 0.026'< 0.018-(- 0.013' O.0!! < 0.001 < 0.015 0.026 N -0.030 ( 7 0.018 C - 0.031 0.003 ( . 0.002 < 0.032 0.017 . _ _ . _ .0.063406-3 < 0.019 <' O.018 ( 0.0!$ 0.000 < 0.001 < 0.023 0.000 1< 0,019 ('- 0.006 < .0.011 0.000 < 0.002 < 0.010 0.014 L '0.074 0.085 < 0.022 ~ "0.258 C' O.002 < 0.040 0.468 < 'O.019 0.015 0 ~0.028~ -0.022 0 0.001 0 0.032' '0.037 T 0.041 0:009T~ 0.013 0;000ro.002T -0:015-'-0;009 - ~- ~~- - < 0.030. ' O 024 ( 0.013 0.056 < 0.001 < .0.028 0.080 !. < 0.104 0.030 < 0.017 - 0.142 < 0.002 < 0.020 0.172 . ..ANSTEC q T - 0.030 0 -0.009 <- 0.011' O.000 t'" 0.002 < 0.037 0.000- APERTUREi - - ~ ~+ < 0.044 ( 0.024 < 0.017 0.077 < 0.002 < 0.013 0.077 ' CARD-J <f 0.028~ --0.000
{0.015-(~0.012T 0:013-0.000T- 0.002 <
~0.078- 0.064 <'"0.017 0.089 ( C.002 < -0.042 0.231 0.692663 -- -- -- ' '< 0.019( 0.009 <- 0.022 0.000 < 0.002 < 0.017 0.000 0
t--0.019 <-0.015't -tell-0.080 ~(-0. cut-e - 0.010 - 0.080-- - - - + 0 -0.022 <=-0.006-< -0.024- - 0.000 < 0.001 < 0.010 -0.000-
- 0.069 - 0.042 e - 0.011- 0.132 0 0.001 < 0.025- 0.264 -0.111-e-0:058e-0.0ll-Orl57e 0.003t- 0.025 - 0.268- - - ----1 0.367033 i
b i
) ; yr w.y, so...,.m.. - , .~ ......m~ . . ,
9707240129- 0 4 g
i CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT O g The 401.2 survey unit was surveyed on an affected area basis and 2 has a surface area of 300 m. 44 surface soil contamination measurement locations were placed in this area using 5 samples per 10m by 10m grid. One sample was taken at the center of the grid and four each at the midpoint between .the center and the corners of the grid. 44 gamma exposure rate measurement locations were placed in this area using a 10m by 10m grid. In addition a 100% scan. was , performed in each 10m by 10m grid location. The location of these measurements is shown in the map at the beginning of this volume. Measurement and sampling results for the 401.2 survey unit are provided in 2 attached tables as follows: Table 401.2-1 Land Area Between Reactor Bldg and Mall Area gamma exposure rate data Table 401.2-2 Land Area Between Reactor Bldg and Mall Area Burface soil Contamination data t G
,o l
l l l l ~ [ SECTION 14 1
- , . - . .-.___-__l
, 4 -@ 0 TAILE 401.2-1-:' ? ,' x -06/12/97L Q [CINTICHEM DICOMMISSIONING PLAN .f!NAL'SURVEYDATASHEET- ' N /;-' DATA FOR AffECTED AREA DESCRIPTION:-- . l i . LAND AREA BETWEEN REACTOR BLDG AND MALL AREA- ;
- i. L AREA 401'2 .
RADIAi!0N TYPEP GAMMA SURVEY IN UREM/HRr COMPLEi!0N '
.DATE:10/30/96 .i
- r TECHNICIANS: _MANY: MATERIAL' CODE. !
i AREA: '401;0 -
^ 1: CONCRETE- 5: PLASTIC UNIT:-, 401.22 2: ROCK , 6:S0It : ,
MEDIATYPE;- S0IL ' ;3: WOOD- 7: ASPHALT 8cfPo!NTS::~ 44 - .4: METAL 8:0THERISPECIFY): . NO MATERIAL BACKGROUND USED- . MICR0 REM. . zPERHOUR: LIMIT l MAX: -9.00 PASS 10 ' i
% ., AVG: ,2.45 PASS. I STD X: :1.95 3
- MU SUB ALPHA:-
2.95 PASS 5 1
/i l
MATER-
.)MST. AREA AREA _IAL NET 10 0 8KG READING CODE UREM/HR I ;}fLI :GRIDPOINT' UREN/HRVREh/HR .- l 'N' N' '401.2 22.5 67.5 A 6 10 8 4 .j .401.2 '27.5 67.5 A 6 8 8 2 "401.2. 25 ' 65 - A 6 8 8 2 ;
401.2 ~22.5- 162.5 A. 6 9 8 3 3
-401.2 27.5 62.5 A '6 6 8 0
- 401 2 12.5 67.5 A 6 10 -8 4 I
$401.2' 17.5 . 67.5 - A 6 8 8 2 j 1
401.2. 15 65 :: A 6 11 8 5 401.2 - 12.5 . 62.3 A 6 9 8 3 I l
- 401.2. 17.5- 62.5 A 6 8 8 2 l
4401.2- : 2.5 - 67.5 A 6 5- 8 -1
- 401.2 ' 7,5 67.5- A -6 8 8 2 l ^ '401.2 .5 65- A 6' 8 8 2 j '
- '401.2- '2.5: 62.5 A- 6 8- 8 2
;401.2' t7.5 62.5. .A. 6 7 8- 1 401.2.- :5S 65 - A 6 11' .8 5 '1 i401.2l : 7.5S - 62.51 A: 6' 11- 8 5 -J 401.2 r 2.5$ :: ~ ; 62. 5 =- :A 6. 17 8 1 J 01.2 '
4 R 17.5S L -:62.5- A- -- 6' 11 8 5 i l 401.2 = 12.5S' 'A; '6 .15: 8- 9/ i , , -62.5 L . 401.2? ?22.55 62,$T cAE 4 6 ;9: 8' 3- ! . f401.2 : (22.5 :57.5 "A: 6 -7 .8' 1 l
.j 401. 2c i27.51 ~57.5 :A. 6 - 6. .8- 0- {
. fQ2)
= L4,2 -
125i 22,5
.! 55 -
i 52.5 ; A
- A. 16 6 '9 7
8' 8
.3-1 J
l
]401.2i ; 27.5i ' 52.5 L A: :a- 5 8~ '1' i
ep'!401;2;
- l 12.5 :. :57.5 : Ai 6i ~10 -- 8 4; !
14011 517.5 .:57.5~ A- !6 48t 8' 2: 1 401.24 ... :.15 s 155 Af 16: ' 9f
. : 8- 3( j ? 401.2 h 312.5 : J$2.5 ?A- '6' 8 :8: ~2: < +
- k. - a - ,. ..
b
,.'l' L :. , . n. J. , _ . , '4 A ..a . . . - . , - , -
. ~ _ . . - .- . ~ C BLE 401.2-1 401.2 17.5- 52.5 A 6 6 8 0 401.2- 2.5- 57.5 A 6 9 8 3 /*l.2 . 7.5 57.5 a -6 8 8 2
(,, ) . 2 5 55 -A 6 10 8 4 401.2 ' 2.5 52.5 A 6 8 8 2 401.2 7.5 52.5 'A- '6 - 7 8 1
-401.2 7.55 57.5 A- 6 !! ^ 8 5 401.2 7.5$ - '52.5 A- 6 7 8 1 401.2 17.55 ' 57.5 A 6 8 -8 2' 401.2 12.5S 57.5 A 6 .8 8 2- '401.2 ISS 55 . ~ A- 6 9 8 3 .
401.'? 17.5S 52.5 A 6 9 8 3 401.2 12.55 .52.5 A. 6 5 8 -l
'401.2 22.5$ 57.5 A 6 11 8 5 8
l 4
'lf u
=. , # nTABLE 401.2-2 CINTICHEM DECOMMISSION!NG PLAN 06/12/97 FINAL SVRVEY DATA SHEET
- h. DATA FOR AFFECTED AREA DESCRIPTION:
i '" LAND AREA BETNEEN REACTOR BLOG AND Mall AREA AREA 401.2 RADIATION TYPE: 50!L DATA FOR SUM OF THE FRAC 110NS COMPLET!0N DATE: 10/30/96 IECHNICIANS: MANY AREA: 401.0 UNIT: 401.2 hEDIA TYPE: S0ll i of POINTS: 44 SOIL DATA IN SUM OF FRACTIONS: LIMIT MAX 0.14 PASS 1 AVG 0.00 PASS 1 STD X 0.02 MV 5UB ALPNA 0.01 PASS 1 ISOTOPESOFCONCERNINPCI/G (WITHBACKGROUNDINCLUDED) I GRID CCORIDINATES SR-90 C0-60 AG-108M CS-134 CS-137 CE-144 EU-152 S0IL CODE S ID I OK Oth!R 10 LIMIT LIMIT LIMIT LIMIT LIMIT LIMIT LIMIT 17 0.9 1.1 1.8 3.8 63 2 N N 401.2 21.5 67.5 < 0.11 < 0.03 < 0.02 < ' O.05 < 0.07 < 0.16 < 0.06 1 < 0. 401.2 27.5 67.5 < 0.11 < 0.04 < 0.06 < 0.05 0.21 ( 0.14 < 0.13 1 < 0. 401.2 20 65 < 0.11 < 0.03 ( 0.02 < 0.04 < 0.06 < 0.29 < 0.12 1 < 0. 401.2 22.5 62.5 < 0.11 ( 0.03 <'O.05 < 0.05 < 0.08 < 0.19 < 0.06 1 < 0. 401.2 27.5 62.5 ( 0.11 < 0.03 ( 0.02 < 0.06 < 0.08 < 0.23 < 0.19 1 < 0. 401.2 12.5 67.5 ( 0.09 < 0.04 < 0.05 ( 0.06 0.75 < 0.24 < 0.10 1 < 0. 401.2 17.5 67.5 < 0.09 < 0.06 < 0.05 < 0.07 < 0.06 < 0.23 ( 0.07 1 < 0. 401.2 15 65 < 0.09 < 0.12 < 0.04 < 0.06 0.74 < 0.25 < 0.21 1 < 0. 401.2 12.5 62.5 < 0.09 < 0.07 < 0.07 < 0.07 0.59 < 0.13 < 0.17 1 < 0. 401.2 17.5 62.5 < 0.09 < 0.04 < 0.02 < 0.05 0.19 < 0.28 < 0.16 1 < 0. 401.2 2.5 67.5 < 0.10 < 0.05 < 0.02 < 0.05 < 0.08 < 0.18 < 0.10 1 < 0. 401.2 7.5 67.5 < 0.10 < 0.04 < 0.04 < 0.05 0.14 ( 0.24 < 0.06 1 < 0. 401.2 5 65 ( 0.10 < 0.04 < 0.04 < 0.04 < 0.06 < 0.36 < 0.10 1 < 0. 401.2 2.5 62.5 < 0.10 < 0.08 < 0.07 < 0.08 0.87 < 0.60 < 0.09 1 < 0. 401.2 7.5 62.5 ( 0.10 < 0.04 < 0.08 < 0.09 < 0.15 ( 0.37 < 0.27 1 < 0. 401.2 55 65 < 0.10 < 0.05 < 0.03 < 0.07 < 0.09 < 0.37 < 0.06 1 < 0. 401.2 7.5S 62.5 ( G.10 < 0.07 < 0.04 < 0.06 ( 0.11 < 0.33 < 0.20 1 < 0. 401.2 2.5S 62.5 < 0.10 < 0.05 < 0.08 ( 0.09 1.01 < 0.16 < 0.15 1 < 0. 401.2 17.55 62.5 ( 0.10 < 0.06 < 0.03 < 0.07 < 0.11 < 0.27 ( 0.08 1 < 0. 401.2 12.55 62.5 < 0.10 < 0.06 < 0.04 < 0.05 < 0.09 < 0.41 < 0.06 1 < 0. 401.2 22.55 62.5 ( 0.13 < 0.03 < 0.02 < 0.03 0.04 < 0.20 < 0.07 1 < 0. 401.2 22.5 57.5 < 0.12 s 0.09 < 0.04 < 0.06 0.41 ( 0.13 ( 0.10 1 < 0. 401.2 27.5 57.5 < 0.12 < 0.01 < 0.05 < 0.05 0.23 ( 0.24 ( 0.08 1 < 0. 401.2 25 55 < 0.12 < 0.05 < 0.04 < 0.05 0.13 ( 0.38 < 0.12 1 < 0. 401.2 22.5 52.5 < 0.12 < 0.04 < 0.03 ( 0.06 < 0.09 < 0.29 < 0.06 1 < 0. 401.2 27.5 52.5 < 0.12 < 0.07 < 0.02 < 0.05 0.14 < 0.35 < 0.06 1 < 0. 401.2 12.5 57.5 < 0.12 ( 0.07 < 0.04 ( 0.08 0.81 < 0.26 < 0.09 1 < 0. 401.2 17.5 57.5 < 0.12 < 0.01 < 0.02 < 0.04 0.22 < 0.13 < 0.15 1 < 0. 401.2 15 55 < 0.12 < 0.0i ( 0.06 < 0.07 0.73 < 0.39 < 0.!! l ( 0. 401.2 12.5 52.5 ( 0.12 < 0.07 < 0.02 < 0.06 ( 0.07 ( 0.12 < 0.07 1 < 0. 401.2 17.5 52.5 ( 0.12 < 0.07 < 0.06 < 0.07 0.73 < 0.50 < 0.13 1 < 0. 401.2 2.5 57.5 < 0.12 ( 0.11 < 0.05 < 0.08 0.53 < 0.38 < 0.08 1 < 0. s
B 0F CONCERN IN FRACTION OF LIMil (W?iH Cs-137 BACEROUND OF 1.25 pCf/ga SUBTRACTED) l C0-60 F M 08M CS-134 CS-137 CE-144 EU-152 SUM i( 0.033 < 0.018 : 0.028 < 0.000 < 0.003 < 0.030 0.000 l< 0.044 < 0.055 < 0.l?8 0.000 < 0.002 < 0.065 0.000 i< 0.033 < 0.018 < 0.022 < 0.000 < 0.005 < )< 0.033< 0.045<' ~0.020~< l0.000< 0.003 < 0.060 0.030 0.000 0.000 ANSTEC )< )< 0.033< 0.044 < 0.018 < 0.033 < 0.000 < 0.004 < 0.095 0.000 APERTURE )< 0.067 < 0.045 < 0.045 < 0.033 0.039 < 0.000 < 0.000 < 0.004 < 0.004 < 0.050 0.035 0.000 0.000 CARD )< 0.133 < 0.036 < 0.033 0.000 < )( ".078 < 0.064 < 0.039 0.000 < 0.004 < 0.002 < 0.105 0.035 0.000 0.000 g g ag )< Card 0.044 < 0.018 < '0.028 0.000 < 0.004 < 0.030 0.000 !< 0.056 < 0.018 < 0.028 < 0.000 < 0.003 < 0.050 0.000 f< 0.044 < 0.036 < 0.028 0.000 < 0.004 < 0.030 0.000 l< 0.044 < 0.036 < ' ~ 0.022 < ' '0.000 < 0.006 < 0.050 0.000 l< 0.089 < 0.064 < 0.044 0.000 < 0.010 < 0.045 0.000 !< 0.044 < 0.073 < 0.050 < 0.000 < 0.006 < 0.135 0.000 !(~ 0.056 < 0.027 4 0.039 ( 0.000 < 0.006 < 0.030 0.000 l< 0.078 < 0.036 < 0.033 < 0.000 < 0.005 < 0.100 0.000 l< 0.056 < 0.073 < 0.050 0.000 < 0.003 ( 0.075 0,000 l<' O 067 < 0.027 < 0.039 < 0.000 < 0.004 < 0.040 0.000 i< 0.067 < 0.036 < 0.028 < 0.000 < 0.007 < 0.030 0.000
< 0.033< 0,018 < 0.017 0.000 < 0.003 < 0.035 0.000 < 0.100 < 0.036 < 0.033 0.000 < 0.002 < 0.050 0.000 l< 0.044 < 0.045 < 0.028 0.000 < 0.004 < 0.040 0.000
!( 0.056 < 0.036 < 0.028 0.000 ( 0.006 < 0.060 0.000 i( 0.044 < 0.027 < 0.033 < 0.000 < 0.005 < 0.030 0.000 i< 0.078 < 0.018 < 0.028 0.000 < 0.006 < 0.030 0.000 ( 0.078 < 0.036 < 0.044 0.000 < 0.004 < 0.045 0.000 l< 0.078 < 0.018<- 0.022 0.000 < 0.002< 0.075 0.000 l< 0.078 < 0.055< 0.039 0.000 < 0.006 < 0.055 0.000
- ( 0.078 < 0.018 < 0.033 < 0.000 < 0.002 < 0.035 0.000
- ( 0.078 < 0.055< 0.039 0.000 < 0.003 < 0.065 0.000 -
'( 0.122 < 0.045 < 0.044 0.000 < 0.006 < 0.040 0.000 9707240129 " J
~~ #
TABLE 401.2-2 401.2 7.5 57.5 ( 0.12 < 0.04 < 0.04 < 0.05 < 0.08 < 0.31 < 0.14 1 <0 401.2 5 55 < 0.12 ( 0.09 < 0.03 < 0.07 0.40 < 0.18 < 0.09 1 <0 401.2 2.5 52.5 < 0.12 < 0.16 < 0.04 < 0.06 0.54 < 0.38 < 0.15 1 <0
, 401.2 7.5 52.5 < 0.12 < 0.09 < 0.03 ( 0.06 < 0.03 < 0.27 ( 0.15 1 <0 401.2 7.55 57.5 < 0.09 < 0.03 ( 0.03 < 0.05 < 0.10 < 0.44 < 0.07 1 <0 401.2 7.55 52.5 < 0.09 < 0.17 ( 0.06 < 0.05 0.39 < 0.16 < 0.11 1 <0 401.2 17.5S 57.5 0.12 < 0.06 ( 0.03 < 0.09 0.34 < 0.23 < 0.20 1 0 401.2 12.5S 57.5 0.12 < 0.04 < 0.03 < 0.06 1.76 ( 0.46 < 0.08 1 0 401.2 15S 55 0.12 < 0.07 < 0.05 < 0.06 0.41 < 0.21 < 0.09 1 0 401.2 17.5$ 52.5 0.12 < 0.06 ( 0.03 < 0.04 0.12 < 0.17 < 0.09 1 0 401.2 12.55 52.5 0.12 < 0.05 < 0.02 < 0.04 < 0.07 < 0.25 < 0.07 1 0 401.2 22.55 57.5 < 0.13 < 0.04 < 0.03 < 0.05 < 0.05 ( 0.30 < 0.10 1 <0 ~:
I l
'i t 'N &J
0.044 < 0.036 < 0.028 < 0.000 < 0.005 < 0.070 (059< 0.000 7059 < . 0.100 < 0.027 < 0.039 0.000 < 0.003 < 0.045 0.000 {059< 0.178 < 0.036 < 0.033 0.000 < 0.006 < 0.075 0.000 h59< 0.100 < 0.027 ( 0.033 < 0.000 < 0.004 < 0.075 0.000 I294< 0.033 < 0.027 < 0.020 < 0.000 ( 0.007 < 0.035 0.000 )294< 0.189 < 0.055 < 0.028 0.000 < 0.003 ( 0.055 0.000 l059 < 0.067 < 0.027 < 0.050 0.000 < 0.004 < 0.100 0.007 59 < 0.044 < 0.027 ( 0.033 0.134 < 0.007 < 0.040 0.141 059( 0.078 < 0.045 < 0.033 0.000 ( 0.003 < 0.045 0.007 %59< 0.067 < 0.027 < 0.022 0.000 < 0.003 < 0.045 0.007 059 < 0.056 < 0.018 < 0.022 < 0.000 < 0.004 < 0.035 0.007 547< 0.044 < 0.027 < 0.028 < 0.000 < 0.005 < 0.050 0.000 ANSTEC APERTURE CARD j Also Available on Aperture Card 9 70 7 24 012 9 " O B --
L,.
- , CINTICHEN FINAL STATUS SURVEY PLAN AND REPORT The.'401(4 survey unit was' surveyed on an affected area basis on a 0.3. meters wide'by'30 m e t e r s '-
cu rved . s t[)l p '5.. o measurement f land.approximately long-(10m . points 'were evenly spaced along the i strip of_ land.-- In addition a100% scan.was performed in each-10m ' by 10m grid location. The location' of these measurements. is shown in:the map at the beginning of this volume..
' Measurement 'and ' sampling results for the 401.4. survey . unit are' ,
- provided in 2 attached tables as'follows ,
Table =401.4-1 ' Mal 1 Area. ' < gamma exposure rate data Table '401.4-2 Mal 1 Area surface.so'il contamination data } 1 O l l q 4 i 1 1 4 6 h.SECTION14-' + I
vo - - .. .. .
.-. . . , ,~. . . = . . .- . ~
3 - , _ 'k~ , a'
.-A RTABLE 491.4-l' '
1
- r. A . ,: , .
,g , ,. 'CINTICHEMDECOMMIS$10NINGPLAN. 05/05/97. . ; flNAl. SURVEY DATA SMEET. + 6 OATA FOR AFFECTED AREA DESCRIPTION: i l V ' Mall AREA $0!L fBIASED)"
i AREA 401.4 FOR uR/HR. g- l
'RADIATIONTYPE:' - GAMMA SURVEY IN UREMlllR ;
COMPLEi!0N. . ;
- DATE:- ' 04/14/97.
TECHNICIANS: : J8 = MATERIAL CODE' AREA:~ 401.0 -1: CONCRETE 5:PLASilC JUNii:
.401.4 .2: ROCK. 6:S0ll ' ; ~ HEDIA TYPE:1 S0IL 3:N000 '7: ASPHALT; ;
I of POINIS:: -5: 4: METAL' 8:0THER(SPECIFY):
-. . NO MATERIAL BACKGROUND USE0 - , l .MICR0 REM.
{ PER liUUR: ; LIMIT :
. MAX:c 4.00 PASS 10. :
AVG: 2.40 PASS 5-4
- STD X: 1.14' :
,MU SUB ALPHA:. 3.49 PASS' ' 5 -- i i
MATER- ! INST. AREA AREA ' IAL NET ; 10 8 , GRID POINT 1 ID I BKG READING CODE Uk;M/HR ,
- '1 UREM/HRUREM/HR ,
fs, i S. . N !
'401.4 112' 34 A 6' 8 8 2-401.4- 14 ~ 44 A 6 10 8 4 i 7
401.4 . 17 - 20 A 6 8 8 2
-401.4- 19 ' 24 - A 6 7- 8. 1 : -401.4' 20 28 A 6 1 8 3 -j p
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j FINAL SURVEY DATA $NEET DATA FOR AFFECTED AREA DESCRIPi10N:
, MAllAREASOIL "~
AREA 401.4 - RADIATIONTYtt: SOIL DATA FOR SUM OF THE FRACTIONS i
, COMPLTTION . , DATE:04/14/97 , TECHNICIANS: JB y AREA: 401 0 - ' . MT* ~ ~40M .,- ~MEDIATYPE: $0It' I of NINT$i~~~~5 ~ , ,l u
SOILDATAIN
! ,, SUMOfFRACTIOKi -~~~ ~-~lI M I T- ~- ~~~-~~-~ ~~ ^ ~ ~ ~ ~ ~ ~ ^ l ' ' ' ' ~ ~ "''H 0.09 PMS~~~r .ng . p g, . . . , . -7 STD I - 0 DI i n MU SUB ALPHA. l0.02 PASS' 1 .
IS0f 0 PES ~ 0FCONCERW IN'PCI/4 IWillFBACKGROUND~IRCIUDED)^ S~ H' C0-60 AG-108M~CS-134 CS-13T' CE-144 ' EU-152 S0lt CODE ~"~ g ID I ' 000MRlo,
, s ~ ~
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,- 401.4 17 26 ( 0.T0 < 0~65 ( 0.06 < 0.15 0.82 < 0.29 < 0.14 1 ( ....g,_... ~ .. g ... . ... g .... T- ~~~~098 ~'r" 0'J '( ' 0A' 9 ' 1"'-"(~
4 ... ...
...g...... . g3._. . .) .... . g $ _. .g._7. ,. 373'". , 'T""0.22 ~l~ ~ 77 m .461.4 I2 34 ( c.30'.' < 0.05 ( 6~55 TT0s- 1.I5 < 0.27..< _ 0.17 1 <f - .u .401.4 14 44 ( 0.30 ( -
0.06 '<' 0.03 ( 0.06 .l.10 < 0.19 < 0.11 1 <l 1 31
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'~ ~"-'^~ ~ANSTEQ; rr uscroirrou acrea0rrus, o. m
.8 ( - 0.067 (- 0.027.(-'0.033 0.000 <-.0.003 ( 0.055 0.000 .APERTUR E y
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Also' Available on :
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m 970724012970 C .
j CINTICHEN FINAL STATUS SURVEY PLAN AND REPORT . The 401.5 survey unit was sur$ eyed on an af fected area basis and has a surface area of 1300 m. 127 surface soil contamination measurement locations were placed in this area using 5 samples per 10m by 10m grid. One sample was taken at the center of the grid and four. each at the midpoint between the center and the corners of the grid. 127 gamma exposure rate measurement locations were placed in this area using a 10m by 10m grid. In addition a 100% scan was performed in each 10m by 10m' grid location. The location - of these measurements is shown in the map at the beginning of this 2 volume.. Measurement and sampling results for the 401.5 survey unit are provided in 2 attached tables as follows: Table 401.5-1 In Front of Waste Storage Building gamma exposure rate data
- Table 401.5-2 In Front of Waste Storage Building ,
surface soil contamination data ! 4 1 l I l O J b l l t i
. SECTION 14
.- - ' ^
fh) )0k LR: ETA 8L! 401.5-l' CINilCHEM DECOMIS$10NING PLAN - 06/20/97
, A s FINAL SURVEY DATA SHEET.' l
( f ' DATA FOR AFFECTED AREA DESCRIPi!0N. .
.IN FRONT Of NASTE STORAGE 8UILDING i JAREA401.5f0RuR/HR- !
RADIAi!0N TYPE:' GAMA SURVEY IN' UREM/HR COMPLET!0W .. l DATE:'06/20/97~ i TECHNICIANS: MANY. MATERIALCODE' AREA: 401.0 - 1: CONCRETE 5:PLAsi!C UNIT: 401.5 2: ROCK 6:$0ll MEDIA TYPE:- S0!L .3:N000 7: ASPHALT I of POINTS: 127 4: METAL 8:0THER(SPECIff): N0 MATERIAL BACKGROUND USED MICR0 REM PER HOUR: LIMIT. MAX: 8.00 PASS 10
. AVG: - 2.03 PASS. 5 STD X: 1.90 MU SUB ALPHA: 2.31 PASS 5 MATER- . INST. AREA AREA IAL NET 10 8 ' GRID P0lNT ID 4 8KG READING CODE UREM/HR tO
() - N N UREM/HRUREM/HR 401.5 197.5 72.5 A 6 6 8 0 401.5 192.5- 72.5. A 6 -6 8 0 401.5 187.5 72.5 A 6 5 E -1 401.5 182.5 '72.5' A 6 6 8 0 401.5 '212.5 67.5 A 6 8 8 '2 401.5 215. 65 A' -6 7, 8 1 401.5 212.5 62.5 A 6 8 8 2 401.5 202.5 67.5 A 6 6 8 0 401.5 207.5 67.5 A 6 7 8 1 401.5- 205 65- 'A- 6 ,7- 8 1 401.5 202.5 62.5 A 6 6 8 0 401.5 207.5 -62.5 A 6 8 8 2 401.5 192.5' 67.5 A 6 6 8 0 401.5- 197.5 67.5 A 6 8 8 2 401.5 195 65~ A 6 4 8 -2 401.5 192.5 62.5- A 6 7. 8 1 401.5' 197.5 62.5 'A 6 8 8 2 401.5 182.5 '67.5. A 6 8 B 2. 401.5 '187.5 67.5 A 6 5 8 -1. i401.5 -185 65 A 6. 9 -8 3 401.5' ~182.5 62.5 A 6 6 8 0
' 401.5. '187.5 62.5' 5' A 6 -1 8 } Cl.5 ' 172.5 '67.5 A 6l 12 8 6 .5 : '177.5 67.5- A 6 11 - 8 5 .5 s 175 65 A 6 "$ '8 4 1.5 172.5 .62.5 A 9 8 3 C1.5" 177.5 12.5 . 6 .10 B 4 - Cl.5 -' 162.5' A 6 9 8 3- -.Cl.5 : '167.5' 67.5- A' 6. 9 8 3 C1.5 . 165' 65 .A- 6- 7- 8 1 L
t
< 2 8tt G l.5 1 - i, t401.5 162.5~ ~62.5 : :: A 6' 5 -8 ;401.5; 2167.51 62.5 -A: 6: 9 8.- 3-f'l'.5 4 4152.5! .67.5 'A: 6: 7 8 ~!=
Nd.5L :157.5' ! 67.5 . A 6 ~6- ~. 8 0'
- C1.5 155'. - 65 A. 6- 9 8- F 4 i 401.5 i /152.5- 62.5' .A- '6 : 7~ .8 1 401.5 ' 157.5'. 62.5 :A '6 7' :8 1' 401.5 142.5- .67.5 ~A 6 5, 8- -l
' L401.5 : :147.5- 67.5 : A .6 7- 8 -li '401.5: 145 65- A 6 4 8 -2 '
401.5 ol52.5 62.5 -A 6- 6 '8 0 >
= Ci.5 .147.5 - 62.5 A. 16 .6" 8' 0 t 401.5 132.5~ 67.5- A 16 - 9 8: 3 401.51 '137.5 67.5 ~A. 6 5 8- !
401.5 135 ~ 65 A 6 9- 8 -3 401.5' 132.5 62.5 A' 6 10 - 8. 4 401.5- 137.5 62.5- A 6 10 ' 8 4'
'401.5 ' 122.5 67.5 .A? 6 10 8 4 ;
401.5: 127.5 67.5 A -- 6- 6 8 0
'401.5 , 125 65 A: 6 10' 8 4 , ~ .6' 401.5 '122.5- 62.5 A. 12 ' 8 6 401.5 : 127.5 62.5! -A 6- 11; 8 -5 l 401.5 !!2.5. 67.5. A 6 4 8- i 401.5 117.5 67.5 A .6 7 8 1 , 401.5 !!5 ' 65- A 6' .7 8 .1 , !!2.5 401.5 - 62.5 A 6 10 - 8 4 401.5: 117.5- 62.5 A 6. 9 8 3 .401.5- '107.5 67.5 ,
A 6 7 .8 1-107.5L 62.5 A '6 12 8 6 f]a' N 55 212.5 '$7.5 A 6 8 8. 2 401.5 215 55 A 6 - 7. 8 1 401.5 212.5 52.5 'A -6 5 8 -1 3 401.5 202.5 57.5: A. 6 '9 8 3 401.5 207.5 -57.5 A 6 7 8 'l 401.5 ' 205 2 55 A 6 7 8 1-
+
401.5 202.5 52.5 A .6 9 8 3 401.5' 207.5 '52.5 A~ -6 7 8 1
- '401.5 192.5 57.5 - A 6 6 8 0
.A '401.5 197.5 57.5 6 7 8 1 '401.5 195 55 A 6 8 8 2 ;
401.5 192.5 52.5 A 6 9 8 3' i
-401.5 . 197.5 52.5' A- 6 8 8 2 ;
401.5 182.5 57.5 A 6 7 8 1 1 401.5 187.5- 57.5' A. 6: 8 8 2 l 401.5 185' 55 A 6 8 8 2 401.5- 182.5 '52.5 'A' 6 8 8 2-
- 401.5 -187.5 52.5- A 6- 6' .8 0
- 401.5 172.5 ' 57.5 A 6- 7 8 1 .i 401.5- ^177.5 57.5 A 6' 10 8- 4 j
-401.5-~ 175 55 A- 6 6 8 .O l .401.5 172.5 52.5 'A '6 .11 8 5 I + 401.5 177.5~ $2.5 ~ . A. 6' 11 8 5- '
1401.5 - 162.5L $7.5 A 6. 9' -8 3
/].5 ; 167.5 - 57.5 A- 6 7 8 l' t, 1.5 : 165 . 55 'A 6 10 8 4 '401.5f L162.5 : 52.5 AL ~6' 9 8 '3
{ 401.5 ! '167.5: ~ 52.5 ': A. 61 8 8 2~ l
- :401.55 152.5 57.5 . 'AJ 9< 8 3 7 401.5 1157.5 57.5; A- 6' 9 'S -3 C1.5)[;
155: ' 55 : AD 6 6l 8- -0
- n. . - . . . . .. . . ~ . . . = - - - .- . - . - - . . . - - -
~
Im8CE401.5-1l Cl.5 -142.5, -57.5 'A 6- 8- '8' 2
'6 ' 401.5 147.5.' =57.5' A- 8- .8 2 f^% 5 '.. :145~ 55 'A. 6 10 : .4 LJ5 - '132.5. 57.5 A- 6- 8. 8- 2' - 401.5E 137.51 57.5T A. 6. 7 8 l' '401.5 '135 i 55 A .6 5: 8 -l ; 401.5 122.5- 57.5 'A~ 6 10 8 4- - 401.5 .127.5- 57.5 A. 6L 8 8 2 . 401.5- -125 55 'A- 6 8 8 2 401.5 112.5 57.5 'A. 6 ' 10 8 4.
401.5. 117.5- 57.5. , A '6 10 8 4
' C1.5 115. 55- A 6- 7 8 1 '401.5 107.5. 57.5 J A 6. 10 8 4 ~ 401.5 - 202.5 47.5 A 6 7 8' 1 1401.5 207.5 47.5 A 6 8 8 2 401.5 205L 45 A- 6 8= 8 2 401.5 202.5 42.5: A. 6 8- 8 2 G1. 3 207.5 42.5. A- 6 5 8 -1 401.5 ?192.5 47.5 A 6 10 . 8 4 401.5 =197.5, 47.5 'A. 6 7 8 .
1 401.5 j E 195 - 45 A~ 6 11 8 5 401.5' 192.5' 42.5 A' 6 10 8- 4 401.5-' 197.5- 42.5- A 6 9 8 3 401.5 182.5- 47.5' 'A 6 8 8 2 401.5 187.5 47.5 A 6 8 8 2 401.5 185 - 45 A 6 11 8 5 401.5' 182.5 ' 42.5. A 6 10 ' 8 4
+ 401.5 187.5 42.5: ~A 6 8 8 2
- 5. -172.5: 47.5 A. 6 14 8 8 G(/.5 - 177.5 '47.5 'A 6 8 8 2 401.5 175. 45 - A 6 - 11 8 5
- 401.5 172.5 - 42.5 - A 6 10 8 4 401.5. 177.5 42.5 A 6 8 8 2 ' 401.5 162.5 .47.5: A 6 9 8 3 401.5- 167.5 47.5 -A 6- 9 8 3 . 401,5 ' 165 45 A 6 9- 8 3 401.5 162.5 '42.5 A 6 10 8 4 u .- .. V '
n --- - _ . . _ _
^- N ftTABLE 401.5-2 m ' '~
CINTICHEM DICOMMIS$10NING PLAN 06/20/97
^ flNAL SURVEY DATA SHEET k DATA FOR AffECTED AREA DESCRIPTION: ~ 'INFRONTOfWASTESTORAGEBUILDlHG ARIA 401.5 RADIATIONTYPE: 50ll DATA FOR SUM Of THE FRACTIONS DATE: 10/96 .,_ TECHNICIANS: MANY
[ ,. ARIA: 401.0 UNIT: 401.5 MEDIATYPE: S0IL - . - . . - - - - ..-
.p l SOIL DATA IN ~ ~ ~ ~ ~' ~
SUMOffRACTIONS: LIMIT MAX 1.17 PASS 3 MAX GRID AVG. 0.59 PASS 1 _ _ _ STD X 0.04 MV SUB AlfdA 0.60 PASS 1 -
~ -
ISOTOPES Of CONCERN IN PC1/G (NITHBACKGROUNDINCLUDED)'-- GRID
. C00RIDINATES SR-90 C0-60 AG-108M CS-134 CS-137 CE-144 EU 152 50ll CODE ID I OR OTHER ID I
p N 1 ~~
~
401.5 197.5 ~72.5 0.'14 < 0.07 < 0.02 < 0.05 0.55 < 0.13 < 0.09 {- 401.5 192.5 72.5 0.14
- 1.05 < 0.06 < 0.05 0.21 < 0.22 < 0.12 1 hi 401.5 ~187.5~ 72.5 < 0.10 < 0.06' < 0.03 < 0.06 0.46 < 0.23 ( 0.16 1- <
0.52 < 0.32 < 0.12 " 401.5 182.5 72.5 < 0.10 < 0.04 < 0.02 < 0.05 1 <
~
212.5 67.5 < 0.11 < ~0.10 < 0.10 < 0.10 0.40 < 0'.20 T ~0.20 ~ ~1~ ~ ' ~< 401.5
- 1 401.5 215 65 < 0.11 < 0.10 < 0.10 < 0.10 0.40 < 0.10 < 0.20 1 <
401.5 212.5 62.5 < 0.11 < 0.10 < 0.10 < 0.20 < 0.10 < 0.30 < 0.50 1 < 401.5 202.5 67.5 < 0.10 < 0.09 < 0.06 < 0.05 1.24 < 0.26 < 0.15 1 < -- 401.5 207.5 67.5 < 0.10 ( 0.03 ( 0.03 < 0.05 < 0.09 < 0.19 < 0.15 1 < - 401.5 205 65 ( 0.10 < 0.05 < 0.04 < 0.06 ( 0.06 < 0.44 < 0.12 1 < 401.5 202.5 62.5 < 0.10 < 0.03 < 0.03 < 0.05 ( 0.05 < 0.30 < 0.06 1 < 401.5 207.5 62.5 < 0.10 < 0.03 < 0.02 < 0.06 0.32 < 0.37 < 0.15 1 < l ' 401.5 192.5 67.5 < 0.12 < 0.20 < 0.10 < 0.10 ( 0.10 < 0.40 < 0.30 1 < 401.5 197.5 67.5 < 0.12 < 0.10 < 0.10 < 0.10 ( 0.10 < 0.20 < 0.40 1 < 401.5 195 65 < 0.12 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 < 0.20 1 < 401.5 192.5 62.5 s 0.12 < 0.10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.30 1 < - l 401.5 197.5 62.5 ( 0.12 < 0.10 < 0.10 < 0.20 < 0.10 < 0.20 < 0.20 1 < 401.5 182.5 67.5 < 0.11 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 < 0.40 1 < 401.5 187.5 67.5 < 0.11 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 < 0.20 1 < 401.5 155 65 ( 0.11 < 0.10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 1 < 401.5 182.5 62.5 < 0.11 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 < 0.20 1 < I (s # 401.5 187.5 62.5 < 0.11 < 0.10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.30 1 < 401.5 172.5 67.5 < 0.10 < 0.03 < 0.03 < 0.04 0.33 ( 0.20 < 0.10 1 < - l , W 401.5 177.5 67.5 < 0.10 < 0.03 < 0.03 ( 0.04 0._82_ < 0.20_ < _ 0.10 . .I 65 ( 0.10 < 0.04 < 0.04 < 0.06 _ 0.49 <_. 0.30 < 0.10 1 _.< 401.5 175 401.5 172.5 62.5 < 0.10 < 0.03 < 0.02 < 0.03 ( 0.03 < 0.20 < 0.07 1 (
.- v
{ iO l Fi
- ..- - - - . . . _ . ~ . .
b
]n] i; i . _ _ _ ._ _ _ i
l 0 l ! TOPES OF C0hClRM INDIVIDUAL SAMPLE FRACTION Of HOT SPOT LIMIT
~ ~~ ~ ~ ~
b JHCs-137BACKGP.0VNDOF1.25pCi/gsSUBTRACTED) d 90 (0-60 AG-10BM CS-134 CS-137 CE-144 EU-152 ~-~ SUM GRID BLOCK
~ ~ - ~ i,j M ~ AVG. FRACTION ~' - ~ ~~
0F LIMil C , IP 43T~ 0.026T 0.006T'0.009 ~ 0.000 T0.~00lT~ 0.015~ ~ ~0.003 r iO3 ' O.389 ( 0.018 < 0.009 0.000 < 0.001 < 0.020 0.392 '[', 0.591569
~ ~ ~ - - - ~ ~ ~ ~ ~ - - - -
42T 0'.022 T 0.009T 0'.0ll' ~0:000T0:00IT 0~ 027 ~~ ~0.000^ . y 02 < 0.015 ( 0.006 ( 0.009 0.000 < 0.002 < 0.020 0.000 1 ANSTEC h 42 < 0.037 <~~ 0.030 < 0.019 0.000~< 0.001 < 0.033 0.000 42 < 0.0n ( 0.030 ( 0.019 0.000 < 0.001 < 0.033 0.000 APERTURE : . 42 ( 0.0 n < 0.030 < 0.0n < 0.e0 ( 0.a2 < 0.a3 0." 0 CARD : *, 22 < 0.033 ( 0.018 ( 0.009 0.000 < 0.001 < 0.025 0.000 i 42 ( 0.011 < 0.009 ( 0.009 < 0.000 ( 0.001 ( 0.025 0.000 Also Available on
~
)02 < 0.019 < ' O.012 < 0.0!! < 0.000~( 0.002 < 0.020 0.000 @M 0" M $2 ( 0.011 ( 0.009 < 0.009 ( 0.000 < 0.002 ( 0.010 0.000 y )02 < 0.011 < 0.006 < 0.011 0.000 < 0.002 ( 0.025 0.000 l l 0 9 )02 ( 0.074 ( 0.030 < 0.019 < 0.000 < 0.002 < 0.050 0.000 l.l )c2 < 0.037 ( 0.030 < 0.019 < 0.000 < 0.001 < 0.067 0.000 }02 ( ~0.037 ( 0.030 < 0.019 < 0.000 < ~0.001 < 0.033 0.000 )02 ( 0.037 ( 0.030 < 0.019 ( 0.000 < 0.001 < 0.050 0.000 }02 < 0.037 < n.030 < 0.037 ( 0.000 < 0.001 < 0.033 0.000 l 0 $2 < 0.037 ( 0.030 < 0.019 ( 0.000 < 0.001 < 0.067 0.000
)02 < 0.037 ( 0.030 < 0.019 ( 0.000 < 0.001 < 0.033 0.000 D02 ( 0.037 < 0.030 < 0.019 ( 0.000 < 0.001 < O.033 0.000 P02 < 0.037 ( 0.030 < 0.019 < 0.000 ( 0.001 < 0.033 0.000
)02 < 0.037 ( 0.030 < 0.019 ( 0 000 ( 0.001 < 0.050 0.000 0 h02 < 0.011 < 0.009 < 0.007 0.000 < 0.001 < 0.017 0.000 DC2 ( 0.011 < 0.009 < 0.007 0.000 ( 0.M1 < 0.017 0.000
~
W2 < 0.015<'0.012i~0'.011~ 0.000 ( 0.002 < 0.017 0.000 1, )C2 < 0.011 < 0.006 < 0.006 ( 0.000 ( 0.001 < 0.012 0.000 w 9707240129 ' ~
~
'~
28LE 401.5-2 i 401.5 177.5 62.5 < 0.10 < 0.03 < 0.03 < 0.04 < 0.03 < 0.20 < 0.09 1 401.5 162.5 67.5 0.19 < 0.04 ( 0.02 < 0.04 0.09 ( 0.25 < 0.06 1 401.5 167.5 67.5 0.19 < 0.07 < 0.06 < 0.06 0.56 < 0.49 < 0.17 1 401.5 165 65 0.19 < 0.06 < 0.07 < 0.05 2.48 < 0.31 < 0.08 1 401.5 162.5 62.5 0.19 < 0.06 < 0.08 ( 0.06 0.94 < 0.35 < 0.10 1 401.5 167.5 62.5 0.19 < 0.05 < 0.04 < 0.09 0.57 < 0.16 .._0.21 _ _ _1 401.5 152.5 67.5 < 0.12 < 0.05 < 0.02 < 0.06 < 0.09 < 0.35 < 0.16 1 < 0.07 < 0.04 < 401.5 157.5 67.5 < 0.12 <. <._0.09 0.82 _< 0.34 _<. 0.20_ _1_ . ., 401.5 155 65 ( 0.12 < 0.04 < 0.06 < 0.08 0.65 < 0.42 < 0.12 1 < 401.5 152.5 62.5 < 0.12 < 0.04 ( 0.04 < 0.08 < 0.12 < 0.34 < 0.16 1 < 401.5 157.5 62.5 < 0.12 < 0.10 < 0.07 < 0.08 0.41 < 0.48 < 0.14 1 <
! 401.5 142.5 67.5 ( 0.11 < 0.08 < 0.02 < 0.05 0.27 < 0.24 < 0.13 1 <
401.5 147.5 67.5 ( 0.11 < 0.03 < 0.06 < 0.06 0.13 < 0.13 ( 0.10 1 < 401.5 145 65 < 0.11 < 0.04 < 0.04 < 0.05 < 0.09 < 0.17 < 0.12 ' 1 < l 401.5 142.5 62.5 ( 0.11 < 0.07 ( 0.03 < 0.07' ~0.28 < ~0.44 < 0.18 ~ 1 < 0.06 (' O.05 '< O.06< 0.04 < 0.37 Y 0.23' k 401.5 147.5 62.5 < 0.11' < 1 < t 401.5 132.5 67.5 < 0.12 < 0.06 < 0.05 < 0.07 0.90 < 0.30 < 0.21 1 < 401.5 137.5 67.5 < 0.12 < 0.06 < 0.03 < 0.05 0.48 ( 0.41 < 0.08 1 < 401.5 135 65 < 0.12 < 0.04 < 0.07 < 0.08 0.30 < 0.40 < 0.17 1 < a 401.5 132.5 62.5 < 0.12 < 0.05 < 0.05 < 0.07 0.77 < 0.60 < 0.32 1 < 401.5 137.5 62.5 < 0.12 < 0.09 < 0.06 < 0.07 0.17 < 0.29 < 0.17 1 <
, 401.5 122.5 67.5 < 0.11 < 0.21 < 0.11 < 0.13 0.62 < 0.70 < 0.43 1 <
401.5 127.5 67.5 < 0.11 < 0.26 ( 0.11 < 0.21 0.61 < 0.86 < 0.37 1 < 401.5 125 65 < 0.11 < 0.22 < 0.13 < 0.12 0.28 < l.01 < 0.60 1 < 401.5 122.5 62.5 < 0.11 < 0.19 < 0.15 < 0.15 0.70 < ~ 1.38 < 0.69 1~ < 62.5 < 0.11 < 0.29 < 0.14 < 0 15 _ 0.63_ < 1.30 < 0.70 1 < 401.5 127.5 _ _ _ _ _ _ 401.5 112.5 67.5 < 0.10 < 0.10 < 0.03 < 0.07 0.78 < 0.33 < 0.17 1 < 401.5 117.5 67.5 ( 0.10 < 0.05 < 0.06 < 0.07 0.47 ( 0.26 < 0.18 1 < 401.5 115 65 < 0.10 < 0.09 Y ~0.04 (~ f.09 0.22 7 0.38 < 0.12 'i~ < l 401.5 112.5 62.5 < 0.10 < 0.04 < 0.06 < 0.06 0.58 < 0.30 < 0.17 1 < ! 401.5 117.5 62.5 ( 0.10 < 0.03 < 0.07 < 0.07 0.87 < 0.41 < 0.14 1 < L 401.5 107.5 67.5 < 0.10 < 0.07 < 0.08 ( 0.07 3.19 < 0.43 ( 0.23 1 < 107.5 62.5 < 0.10 < 0.06 < 0.04 < 0.04 0.44 < 0.43 ( 0.07 l < 4 _ _ 401.5 _ _ _ . __ _ _ _ . 1, 401.5 212.5 57.5 < 0.11 < 0.05 < 0.04 < 0.04 < 0.10 < 0.34 < 0.11 1 < 401.5 215 55 < 0.11 < 0.07 < 0.04 < 0.07 0.43 < 0.25 < 0.08 1 <
~0.09" i 0.03 < ~~0.08 ( '0.09~ < 0.32 <~ '.12~'~~I' T ~
401.5 212.5 '52.5 ( 0.11< 0 401.5 202.5 57.5 < 0.11 < 0.10 < 0.10 < 0.20 < 0.10 < 0.10 < 0.20 1 < 401.5 207.5 57.5 < 0.11 < 0.10 ~i 0.10 < 0.10 < 0.10~ f 0.20 i 0.50 'l < 401.5 205 55 < 0.11 < 0.20 < 0.10 < 0.10 < 0.10 < 0.40 < 0.30 1 < 401.5 202.5 52.5 < 0.11 < 0.10 < 0.10 < 0.10 < 0.10 < 0.40 < 0.30 1 < 401.5 207.5 $2.5 < 0.11 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 < 0.40 1 < 401.5 192.5 57.5 < 0.11 < 0.10 < 0.03 < 0.05 < 0.07 < 0.34 ( 0.16 1 < 401.5 197.5 57.5 ( 0.11 < 0.04 < 0.03 < 0.04 < 0.06 < 0.33 < 0.09 1 < 401.5 195 55 < 0.11 ( 0.06 < 0.04 < 0.05 0.11 < 0.21 < 0.05 1 < 401.5 192.5 52.5 ( 0.11 < 0.11 < 0.06 < 0.06 < 0.07 < 0.26 < 0.15 1 < 401.5 197.5 52.5 < 0.11 < 0.03 < 0.05 < 0.06 < 0.04 < 0.24 < 0.14 1 < 401.5 182.5 57.5 ( 0.13 < 0.10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.40 1 < l 401.5 187.5' ~57.5 <~ 0.13 '< 0.10 ~<~ 0 10 T 0.20 T 0.10~ r o.30 < ~ 0.40 1 C l 401.5 185 55 < 0.13 < 0.10 <. 0.10 < 0.10 < 0.10 < 0.20 < 0.20 1 < m%
h .mi . as.s..O t
- l. .
@2 < 0.011 < 0.009 < 0.007 < 0.000 < 0.001 < 0.015 0.000 94 < 0.015 < 0.006 < 0.007 0.000 < 0.001 < 0.010 0.004 34( ~0.026 < 0.018 < 0.011
~ ~ ~
0.000 < 0.003 < 0.028 0.004 %4 i 0.022<0.021}~0'.009 0.108 T 0;002 < 'O.013 0.112 ~'I " 04 < 0.022 < 0.024 < 0.011 0.000 < 0.002 < 0.017 0.004 '4< 0 0.019 < 0.012 < 0.017 0.000 < 0.001 < ~ 0.035 0.004 2 j 0.075913 '
- y 02 < 0.019 < 0.006 ( 0.011 < 0.000 < 0.002 < 0.027 0.000 32<~ 0.026 < 0.012 < 0.017 ~
0.000 < 0.002 < 0.033 0.000 62< 0.015 < 0.018 T 0.015 ~'0.000'< 0.002 < 0.020 0.000
- 32 < 0.015 < 0.012 < 0.015 ( 0.000 < 0.002 < 0.027 0.000
$2 < 0.037y0,021f0.015 _ 0.000 < 0.003 < 0.023 0.000 l 0 92 < 0.030 < 0.006 < 0.009 0.000 < 0.001 < 0.022 0.000 ' 32< 0.011 < 0.018 < 0.011
~~ ~
0.000 < 0.001 < 0.017 0.000 92< ' 0.015 < ~ 0.012 Y 0.009 < ^ 0.000 '< 'O.001 < ~0.020 0.000 92< 0.026 < 0.009 < 0.013 0.000 < ~ 0.002 < "0.030 0.000 D2< 0.022 < 0.015 < ~0.011'< 0.000 < 0.002 < 0.038 0.000 D2 < 0.022 < 0.015 < 0.013 . 0.000 < 0.002 < 0.035 0.000 12< 0.022 < 0.009 < 0.009
~ "'
0.000 < 0.002 < 0.013 ~ ' 0.000 D21 0.015' < 0.02f T 0.015 ' 0'.000 < 0.002 < 0.028 ~ 0.000 92< 0.019 (" 0.015 ( '0.013 0.000 < 0.003 < 0.053 0.000 e2 ' < - 0.033 <- 0.018 0.013' O.000 <~ 0.002'< 0.028 0.000 92 < 0.078 < 0.033 < 0.024 0.000 < 0.004 < 0.072 0.000 , B2< 0.096 ( 0.033 < 0.039 0.000 < 0.005 < 0.062 0.000 b2 T 0.081"i '0.039 ( 0.022' '~0.000 T ~0.005~i ~0.~100' 'O.000' 32< 0.070 < 0.045 < 0.028 ' O.000 1 0.007 <~ 0.115 0.000 , )2< 0.107 < 0.042 < 0.028 0.000 < 0.007 < '0.117 ._ 0.000 )2< 0.037 < 0.009 < 0.013 0.000 < 0.002 < 0.028 0.000 t
- 2 < 0.019 < 0.018 < 0.013 32( 0.03 n 0.012 < 0. m 0.000 < 0.001 < 0.030 0.00 n 0.00 n 0.020 0.000 0.000 APER 7YRE '
)2< 0.015 ( 0.018 < 0.011 0.000 < 0.002 < 0.028 0.000 l CARD j
~
s 12< 0.011 < 0.021 < 0.013 0.000 < 0.002 ( 0.023 0.000 1 0 Also Available on 92< G.026 < 0.024 < 0.013 0.170 < 0.002 < 0.038 0.170 M&S M , , , )2< _.022 < 0.012 < 0.007_ _ . _0.000 0 _ _ . .<. 0.002 _ < 0.012 0.000 i' )2 ~< 0.019 < 0.012 < 0.007 ( 0.000 < 0.002 < 0.018 0.000 12'< 0.026 < ' O.012 < 0.013 " 0.000 < 0.001 < 0.013
~ ~
0.000 * )2^t ' ~~0.033 '< 0.00W6:015 < 0.000T0'.002 T0.020~ ~0.000~ 0 )2< 0.037 ( 0.030 < 0.037 < 0.000 < 0.001 < 0.033 0.000 r 12< 0.037'<'0.0304"~0.019~<~0.000'< 0.001 <~ 0.083 0.000 12< 0.074 ( f.030 < 0.019 < 0.000 < 0.002 < 0.050 0.000 )2 < 0.037 ( 0.030 < 0.019 < 0.000 < 0.002 < 0.050 0.000 12 < 0.037 < 0.030 < 0.019 < 0.000 < 0.001 < 0.067 0.000 , 0 )2< 0.037 ( 0.009 < 0.009 < 0.000 < 0.002 < 0.027 0.000 ,, 12 < 0.015 ( 0.009 < 0.007 ( 0.000 < 0.002 < 0.015 0.000 . T l2 < 0.022 < 0.012 < 0.009 0.000 < 0.001 < 0.008 0.000 )2 < 0.041 < 0.018 < 0.011 < 0.000 < 0.001 < 0.025
~
0.000 . )2< 0.011 < 0.015 < 0.011 < 'O.000 < 0.001 < 0.023 0.000 0 - ' )3< 0.037 ( 0.030 < 0.019 ( 0.000 ( 0.001 < 0.067 0.000 ). 13 T ~0.037 0 0.030 < 0~.037 < 0.000 0 0.002 C'O.067 0.000 ^ 53 < 0,037 < 0.030 < 0.019 < 0.000 < 0.001 < 0.033 0.000 h h
- 9707240129 U> - '
rABLI 401.5-2 401.5 182.5 52.5 < 0.13 < 0.10 < 0.10 < 0.10 < 0.10 < 0.40 < 0.40 1 52.5 < 0.13 < 0.10 < 0.10 < 0.10 < 0.10 < 0.1C 0.40 1 < 401.5 187.5 401.5 172.5 57.5 < 0.11 < 0.04 < 0.03 < 0.06 < 0.06 ( 0.38 < 0.09 1 < 401.5 177.5 57.5 < 0.11 < 0.04 < 0.05 < 0.05 0.09 < 0.18 < 0.13 1 < 401.5 175 55 ( 0.11 < 0.04 < 0.07 < 0. 0(, ( 0.09 < 0.36 < 0.10 1 < 401.5 172.5 52.5 < 0.11 < 0.08 < 0.03 ( 0.06 < 0.08 < 0.40 < 0.09 1 <
~ 401.5 177.5 52.5 < 0.11 < 0.06 < 0.04 < 0.05 0.09 < 0.31 7 0.07 T ~~< ' 401.5 162.5 57.5 < 0.10 < 0.06 < 0.03 ( 0.09 < 0.56 < 0.46 < 0.16 1 <
401.5 167.5 57.5 < 0.10 < 0.08 < 0.03 < 0.06 < 0.12 < 0.37 < 0.17 1 401.5 165 55 ( 0.10 < 0.06 < 0.04 < 0.07 0.26 < 0.35 < 0.09 1 < 401.5 162.5 52.5 < 0.10 < 0.04 < 0.05 < 0.05 0.08 < 0.36 < 0.28 1 < 401.5 167.5 52.5 < 0.10 < 0.03 < 0.03 < 0.05 < 0.07 < 0.26 < 0.07 1 401.5 ~152.5 0.12 < 0.05 < 0.04 < 0.08 < 0.13 ( 0.34 < 0.11 1 4 401.5 157.5 57.5 57.5 ' < < ~ 0.12 0.04 < < 0.03 '< 0.06 0.40 < 0.41 < 0.12 1 < 401.5 155 55 ( 0.12 < 0.04 < 0.02 < 0.04 0.10 < 0.39 < 0.07 1 < q 401.5 142.5 57.5 ( 0.13 < 0.05 < 0.04 < 0.06 < 0.10 < 0.45 < 0.07 1 < y 401.5 147.5 57.5 < 0.13 < 0.08 < 0.02 < 0.05 ( 0.08 < 0.17 < 0.20 1 401.5 145 55 < 0.13 < 0.04 < 0.06 < 0.06 0.26 < 0.16 < 0.20 1 < 401.5 132.5 57.5 < 0.11 < 0.12 < 0.08 < 0.15 0.29 < 0.78 < 0.31 L1 (<
., 401.5 137.5 57.5 < 0.11 < 0.11 < 0.07 < 0.11 0.19 < 0.54 < . 0.40 1 <
U 401.5 135 55 < 0.11 < 0.16 < 0.10 < 0.09 0.65 < 0.69 < 0.38 1 < d 401.5 122.5 57.5 < 0.10 < 0.21 < 0.16 ( 0.19 0.82 < l.08 < 0.50 1 < 401.5 127.5 57.5 < 0.10 < 0.15 ( 0.13 < 0.12 0.27 < 0.68 < 0.d! 1 <
~~ T 55 ( 0.10 < 0.16 < 0.18 < 0.19 '1.55 < !!0370.49 l 401.5 125 d
- ! 401.5 112.5 57.5 < 0.12 < 0.10 < 0.05 < 0.05 0.18 < 0.31 < 0.14 1 <
l 57.5 ( 0.12 < 0.04 < 0.03 < 0.05 0.63 ( 0.51 < 0.16 1 < 1 p' 401.5 117.5 0.05 < 0.06 < 0.07 < 0.07 < 0.32 < 0.16 1 (
- o. 401.5 115 55 < 0.12 <
l 401.5 107.5 57.5 < 0.10 < 0.04 < 0.05 < 0.07 0.45 < 0.16 ( 0.14 1 < 401.5 202.5 47.5 < 0.10 < 0.10 < 0.03 ( 0.06 < 1.28 < 0.24 < 0.12 1 < 401.5 207.5 47.5 ( 0.10 < 0.08 < 0.03 < 0.05 < 0.06 < 0.40 < 0.16 1 401.5 205 45 ( 0.10 < 0.05 ( 0.02 < 0.04 < 0.08 < 0.40 < 0.07 1 < 401.5 202.5 42.5 ( 0.10 < 0.16 < 0.11 < 0.10 2.27 < 0.45 < 0.19 1 < 401.5 207.5 42.5 < 0.10 < 0.04 < 0.04 ( 0.06 < 0.05 < 0.42 < 0.07 1 0.50 < 401.5 192.5 47.5 < 0.10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 1 401.5 197.5 41.5 ( 0.10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.20 1
- 401.5 195 45 < 0.10 < 0.10 ( 0.10 < 0.10 < 0.10 < 0.30 < 0.50 1 <
401.5 192.5 42.5 < 0,10 < 0.10 < 0.10 < 0.10 < 0.10 < 0.10 ( 0.30 1 < 401.5 197.5 42.5 < 0.10 ( 0.10 < 0.10 < 0.10 < 0.10 < 0.20 < 0.20 1 <
~~
401.5 182.5 47.5 < 0.12 < 0.04 < 0.03 < 0.06 < 0.05 .43 < 0.17 1 <
"8 401.5 187.5 47.5 < 0.12 < 0.06 < 0.04 ( 0.05 < 0.04 ( ( 0.14 1 <
401.5 185 45 < 0.12 < 0.06 < 0.04 < 0.06 < 0.09 < < 0.12 1 < 401.5 182.5 42.5 < 0.12 < 0.08 < 0.02 < 0.06 < 0.05 < 0.. < 0.16 1 < 401.5 187.5 42.5 ( 0.12 < 0.05 < 0.03 ( 0.06 0.07 ( 0.22 < 0.16 1 <
~
47.5 < 0.11 < 0.07 < 0.03 < 0.07 < 0.30 < 0.38'< 0'.18 l' < 401.5 172.5 0.05 < 0.05 < 0.06 ( 0.03 < 0.18 < 0.13 1 ( 401.5 177.5 47.5 < 0.11 < I'i - 401.5 175 45 < 0.!! ( 0.06 < 0.04 < 0.07 0.13 ( 0.33 < 0.12 1 < 401.5 172.5 42.5 < 0.11 < 0.05 ( 0.04 < 0.06 < 0.07 < 0.67 ( 0.09 1 < ( 401.5 177.5 42.5 ( 0.11 < 0.05 < 0.05 ( 0.07 ( 0.10 < 0.30 < 0.13 1
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s CINTICIIEM FINAL STATUS SURVEY PLAN AND REPORT The 401.6-survey unit was surypyed on an affected area basis and has a surface area of 2900 m*. 47 surface soil contamination measurement locations were placed in this area using 5 samples per 10m by 10m grid. One sample was taken at the center of the grid and four each at the midpoint between the center and the corners of the grid. 47 gamma exposure rate measurement locations were placed in this area using a 10m by 10m grid. In addit ion a 100% scan was performed in each 10m by 10m grid location. The location of these measurements is shown in the map at th Faginning of this volume. Measurement and sampling results for the 401.6 survey unit are provided in 2 attached tables as follows: Table 401.6-1 Soil Area Between B-2 and B-3 RAM Storage gamma exposure rate data Table 401.6-2 Soil Area Between B-2 and B-3 RAM Storage surface soil contamination data Table 401.6-3 Soil Area Between B-2 and B-3 RAN Storage in-situ gamma spectroscopy results i .[h () SECTION 14 i l
IDITAhE 401.6-1 CINTIONfM DECOMMISSIONING PLAN 06/20/97 f1NAL SURVEY DATA SHEET DATA 70R AffECTED AREA DESCR!i !0N: SOIL AREA BEINEEN 8-2 AND 8-3 RAM STORAGE AR!A 401.6 FOR UR/HR RADIAfiON TYPE: GAMMA SVRVEY IN UREM/HR
,.6~T10N DATE: 10/30/96 TECHNICIANS: MANY MATERIAL CODE AREA: 401.0 1:00NCRETE 5: PLASTIC UNIT: 401.6 2: ROCK 6:S0lt MEDIA TYPE: S0IL 3:N000 7: ASPHALT I of POINIS: 47 4: METAL 8:0THERISPECIFY):
NO MATERIAL BACKGROUND USED MICR0 REM PER HOUR: LIMIT MAX: 11.00 FAIL 8 10 AVG: 4.87 PASS S STD X: 2.70 MV SU8 ALPHA: 5.53 FAIL
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- 2. 238.11 '8.8 0 fB-212 9.42 4.771-H 2.92t-94 2.33t-92 0.3738 3 295.97 f.ht PB !!( f.23 5.91t-H 1.33E 84 1.5(I-82 0.2466 t
- ( 338.02 l8.25810-228- '6.15 6.86E H 1.82t-04 1.IBI-82 0,1893 5 352.82 6.9000B-214 0.56 7.98t-803.95t-94 (.57102 9.7306 ,
6 :(63.34- 8.!(8A>228' 9.11 9.361-H 1.05E-6( !.21E-92 0.1945. ; 7 $19.46 8.198fi268 - 6.16 1.03E-83 1.6ft-H 1.931-02 0.3098 : 8' 583.47 8($5TL283 6.45 1.16t-93 5.3tt-H 6.13t-92 0.9816
' 9 :689.36 'B.718BI-Yl( 9.671.2(E 93 8.3(i-H 9.6(I-92 1.5417 . ' If $11.22: - 6.293 AC-2.'8 0.39 1.86E-03 7.22E H 8.3(I-92 1.2349 11 $69.72 0.16510-223' '0.23 1.982-83 (.56E-BI 5.29I-02 0.8459 : /~1'1468.57 0,737t48 1.65 3.ed!-93 4.93!-83 5.7 H-01 9.1241 .i V .
TOTALS 1.4H-02 8,65E-93 1.9dD00 16.00 2 [ + I h b t i t, (f ~ i
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r w
~ . . . ._ _ _ . _ . ~ . . _. . . ._m . _ _ -_ . ) ~!
CINTICHEN FINAL' STATUS. SURVEY-PLAN AND-REPORT ,1 /._ - The 401.7 ' survey unit was' suryeyed on' an af fected' area basis and-has a ' surf ace- area .of - 200 m. 131 surf ace soi1 contamination measurement--locations were placed in this area. One sample was-
. t aken . per . me t'e r . ' 131 gamma exposure - rate measurement: locations '
were :placed in .this area. In addition a.100% scan was performed in f each grid = location. The location of these measurements is shown'in the map in the beginning of thisivolume. Measurement and sampling 1 results .for- the 401.7 survey . unit are-provided in'2. attached tables as.follows:
. Table-401.7.-1 ' Northeast Plume Excavation gamma exposure rate data > -Table 401.7-2 Northeast Plume: Excavation <
surface soil contamination data ; O j 1 i m
' (J'SECTION'.14 ,
i J l
A fi TABLE 401.7-1 QA ok ClNTICHEM DECOMMIS$10NING PLAN 06/11/97 .
,- f!NAL SVRVEY DATA SHEET t i j DATA FOR AfflCIED AREA DESCRIPIION:
YARD PIPE $0!L
- NORTH EAST PLUME (;;,[ISkO AREA 401.7 FOR uR/HR RADIAi!0NTYPE: GAMMA SURVEY IN UREM/HR COMPLET10M OATE: 9 /95,10/95,3/96 TECHN!CIANS: TA/Li MATERIAL COPE LOCATION: 401.0 1:00NCRETE 5: PLASTIC GRID ID: 401.7 2: ROCK 6:00!L MEDIATYPE: S0lt 3: WOOD 7: ASPHALT
# of POINTS: 131 4: METAL 8:0THER(SPEClfYl:
NO MATERIAL 8ACKGROUND USED MICR0 REM PERHOUR: LIM!i MAX: 6,00 PASS 10 AVG: 1.51 PASS 5 STD X: 2.16 MV SUB ALPHA: 1.82 PASS 5 l l 1 MATER-GRID INST. AREA AREA IAL NET fS .10 I C00RIDINATES 1D I 8KG READING CODE UREM/HR l V N E ELEV UREM/HR UREM/HR INfi. 401.7 1 11 800 A 6 8 8 2 401.7 1 !? 800 A 6 10 8 4 , 401.7 1 13 800 A 6 10 8 4
)
401.7 1 14 800 A 6 8 8 2 401.7 1 15 800 A 6 9 8 3 401.7 1 16 800 A 6 8 8 2 401.7 2 11 795 A 6 7 8 1 401.7 2 12 795 A 6 6 8 0 , I 401.7 2 13 795 A 6 8 8 2 401.7 2 14 795 A 6 8 8 2 401.7 2 15 795 A 6 7 8 1 l 401.7 2 16 795 A 6 9 8 3 j 401.7 2 11 795 A 6 8 8 2 401.7 2 18 795 A 6 8 8 2 401.7 2 19 795 A 6 8 8 2 j 401.7 3 11 800 A 6 8 8 2 401.7 3 12 800 A 6 8 8 2 401.7 3 13 800 A 6 9 8 3 401.7 3. 14 800 A 6 9 8 3 401.7 3 15 800 A 6 10 8 4 401.1 6 10 795 A 6 6 .8 0 401.7 7 8 800 A 6 3 8 -3 l
-s 401.7 7. 9 795 A' 6 5 8 -1 l
( [ 401.7 7. 11 800 A. 6 3 8 -3 401.7 8 8 800 A 6 3 8 -3
'401.7 8 10 795 A 6 4 8 -2 401.7 . 8 11 800 A 6 5 8 -1 -.401.7. 9 8 800. A 6 5 8 1 401,7.' 9 9 795 A 6 3 8 -3
_ m . -- ~. . ,
- . . _ . . _ . . - . -m _ . . - .. , % [TAl(40i'.71j :P m
a- c .. . r1401;7.L9; fil. -:800 JA' 6: .4 18' ' gm M401.7d!0.!'(8; 2800- 'AL 6 4- #: 2. 795': :A . 61 'S '8 -1 j
% l401.7ll101 f91 . 'VQ 3 401.7j i10 : cll> - 800.;- :Ai !6? 4c 8 -2 - ;401,7 a gt. 8' ! 800 l- lAc E6] 4' 8 -2. '
i401.7?l11! 19: 7951 .6 i A :. 1 3 J8- -3 . >
- ,.4017::.Ili . !! 800; "A 6' -4: L8' -2 -
$401;7 3 ?l2 7 ;8- l8007 A 165 :3- ;8 -3 i f 1-L 401.7. 12 - -
9- f795 .A t6' 4 .8' -2 :
- 401.7;:12 111.. -800 A 6- 15 ~ 8 I 401,7. 13 - -
8' !800- A: 6< 9 8- 13~ ; 401.7 '13 9; 800 A 6' 9 18 3: 4 401.7- 13 ' 9. 795: lA' 6 '9 8- .3' - 2401.7 '14 : 8- 800= A. '6 8- 8; f2 1401.7 :14 s 19 796. A- .' 6 : 7' 8: 1 c401;7 14 1 (9-. 795- A ~6- - 8 8 2 6 ?401.7 .15= ;8 -800 A 6 :7- 8 l' .
~ ; 1401.74 15- 9 ' 796 ' A' 16 7- 8 1-401.7- 15: ~9 795 A ' 6 _. 10 : 8 -4 J401;7 '16 ; 7l- - 795 '_ A. 6 7- 8- 1' - ~ '401,7. 16 '81 1800 -A 6- 7 :8 1 i -l
. 1401.7- 16 . 9 : 800
.A 6: 5 8 b L401.7 .16~- 9 795 A- 6' 9 8: 3 ,
401.7 ~'!? '8 1800' A 6 7 8 1 401.7. 17- 9 1800 A 6: 7 8 1 , 401.7J;17- 9 .- 795 A 6 11 8 5 ,
- 401.7- 18 ' -8 _800 ~ A~ 6 _7 8 1 I :- '401.7. 18.- '9 800- A- ^6 7 8- l' o- - =401,7 !!8' 19_ 795 A 6- 7 8 1 N 1 01.7 _ % 8- 800 A 6 7- 8: 1 1 -401.7 19' -9 .800 A. 6. 5 8 -l ' , '401.7.'19 ~9 795 A 6 '4 8 -2 401.7:-20 '8 -800 A 6 8 8- 2 i
l401.7 .20 9 <800. A 6- 10 8; 4 401.7! 20 : 9l 795_- A 6 7 8 1
.40).7 211 8 800 A .~ 6 - 8 8 2 -401.7 21 '9- 800 A 6- 5 8 -1 401.7 21 ' 9 795 A. 6 5 8 l ! > 401.7 '22' 8 800 A: 6 7 8 1 3
+ e401.7__22 .9 800 A 6 '6 8 0 ! (401.7 22. 9 795 A 6 8 8 2
-401.7: 23 -8 L800 A 6 5 8 -I
] .401.7 23 :9 ' B00' .A 6 -5 8 -1 . K401.7J - 23 ': 9 -795' A '6. 7 '8 1
'8- l
- 401.7 '24' 800 A 16' 8 8 2
- 401.7:=24. 9= 795 At 6' 5 8 -l ;
?:1 L_401.7 24 - 9' ~800. A. 6; 6: 8 0 ( 401.7 ,25 8 ,800- A> .6 ~ 15. 8 -1 401.7 1 25' 19. 800 ! AL 6' 5 8 '-l 4 401.7- '25- :9' 795 Al 6~ : 4- i
'2- . 401.7 26' -8 -800 A 6t . 10 8- -4. i T40);7'.26 19- 800'- A; 6- 8- 8 2' ;
401.7 J26< ;9: 795; A- -6 5 8' -l
- ,40!;7 ; [27.: f 8i 800; ,A' : 6' < . B >- 8 .2 J 27 D 7 9.^ 1800: .A- 6 9 8. 3 n (]401.7l:
H: 1-401.7.is27; 9 !7951 ' A ._ 6 7! .8 ' l' .
.401;7 1 28 *8' 8001: A, '6 10 '8: :4 l401.7'l28'1y.9l 1800' ;A: '6- 8' 8 2. . ;
1401.71;28:5. , 4 .: 795 1A- _ 65 _ 8. '. 8 . '2- [ [401.71129'2 8 , f800: lA! < :6I ' .9 - 8L 3 ;
.7 =r . , ..,.s - , , . ., . . .. _ .2 _
JA ; TABLE 401.7-if
=401.7! 9 '800- A' 6 10 8. 4 401.7 9- 800^ A 6 10 ' -8 4-
- w. <401.7.: '9 795. A 6 6 8 0
')' 401.7 30 8- .800 . A- 6 11 8- 5 ~.2401.7 30. 9. 800. A- 6 8 8 2
- 401.7 30- '9 795: -A- 6 .8 8 2 401.7 31: '8 800 A 6 6 8 0
- 401.7 31- 9- 800 A- 6 7 8 1 401.7 31 9 .- 795 A 6 8 8 2 401.7 32 8 800 A 6 8 6 2 401.7. 32 9 800 A. 6 8 8 2 401.7. 32 9 795 A 6 8 8 2 401.7=-33 8 800 A 6 10 . 8 4-401.7 33 9- 800 A 6 10 ' 8 4 401.7 33 - 9 .795 A 6 8 8 2 401.7 ~34 8 800 A 6 10 '8 4 401.7 34 9 800 A 6 10 8 4 401.7 ~34 9 795 A 6 9 8 3
- 401.7 35 -8 800 A 6 10 8 4
'401.7 35 9 800 A 6 9 8 3 '401.7l.35 '9 795 A 6 9 8 3 '401.7 2 7 793 A 6 8 8 2 '401.7 '4 7 796 A' 6 11 8 5 401.7 5 7 796 A 6 9 8 3 ,401.7 6 7 796' A 6 9 8 3 401.7 1- 8 ,793 A 6 9 8 3 401.7 2 8 793 A 6 9 8 3 401.7 3 8- 793 A 6 8 8 2 p' 401.7- 4 8 796. A 6 10 8 4 -()' 401.7. 5 -8. 796 A 6 9 8 3 401.7 6- 8 796 A 6 10 8 4 401.7 1 9 793 A 6 10 8 4 401.'7. 2 9 793 A' 6 10 8 4 401.7 3- 9 800- A 6 5 8 -1 401.7 4 9 796 A 6 10 8 4 401.7 5 9 796 A 6 9 8 3 401.7 6 9 796 A- 6 10 8 4 401.7 1 10 793 A 6 10 8 4 401.7 2 10 793 A 6 10 8 4 401.7 4 10 796 A- 6 12 8 6 401.7 5 -10 796 A 6 10 8 4 401.7 6 10 796 A 6 10 8 4 p
fy.
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f
'I'.. -b
' " ' ~
HTABLE 401.7-2 CINTICHEM DECOMMIS$10NING PLAN 06/19/97 FINAL SURVEf DA1A SHEET DATA FOR AFFECTED AREA DESCRIPTION: YARD PIPE SOIL NORTH EAST PLUME AREA 401.7 RADIATION TYPE: S0lt DATA FOR SUM OF THE FRACTIONS COMPLETION DATE: 9/95,10/95,3/96 TECHNICIANS: TA/LT/JN ~~~ ~
~ ~ $ LOCAi!0N: 401.0 CRID 10: 401.7 MEDIATYPE: S0lt - ~ - - - ~ '~ ' ~ ~ ~ ~ ~ ~ ~ ~ - ~ ~ ^ l of POINTS: ~ ^~' 130 ~~ ~ ' - -
[ SOIL DATA IN SUM OF FRACTIONS:
~ - - ~ ~~~t1MIT'~ ~ ~~~~~~~ - ~ ~ - ~ ~ ~ ' MAX 0.09 PASS 1 i~ AVG 0.00 PASS 1' ~~~ ~ ~ ~ ~ - ~~~ ~ ~~ ~~ ~~~ ~ ~ ~~~ ~ STD 1 ~ ~ ' 'O R ~~~~ ! MU SUB ALPHA 0.01 PASS 1 ISOTOPES'Of CONCERN IN PCI/G~~(NITH'8ACKGROUND~INCDJ0ED)~~~
GRID SR-90 C0-60 AG-108M " CS-134 CS-137 '~ CE-144 C00RIDINATES L ~ LIMIT ' LIMIT t ID l'~"0R'OTHER ID'
~ "
LIMIT ~TIMIT~ -- ~IIMIT~ 71MIT 17 0.9 1.1 1.8 3.8 63 N E ELEV IN FT.
._ . _ 7 T -~~ 8" ~ 793 -~~~ T 0:10~~T 0:03 < 0.03 < 006 1.81 T ~' 0!3I ' 0.05 T 0;15 T ~0'.05 -( 'O.16 '401.7 l' 9 793 <~ 0.10 T 0.06~ (
y ., T 0.10 ~ < ' ' O .~ 06 ~ < 0.04~< "0.06 ~ 0.59 T " 0.13 U "401.7 ' 1 10 793'
~Bo r un-T M C'-'0:03-( O!05' < C05 < 0 31 t' m n 7 <
0.05 < 0.17 0.09 ( 0.07 < 0.02 < 0.05 < 401.7 1 12 800 < 0.10 < 0.03 < 0.02 < 0.05 0.14 < 0.1
!a,) 401.7 1 13 800 <
r ~0.10" '< ' ~ ~0.03 < 0:03 T- 0:06~ T 0~07T~ 0.2 t )"" '~401^.7 l'~ 14 ~ 800 0.10 < 0.07 < 0.03 < 0.05 < 0.07 < 0.2 i 401.7 1 15 800 < 401.7 1 16 800 < 0.09 < 'O.04 (' '0.05 ( 0.04 ' O .18 ' < 0.25 0702T 0:10 ~ ( ~ 0;2 _ . -- ~C 2 7 ' 793 ~ <' 0.10T 0.08 T 0:0T~ ~< 0.11 < 0.06 ( 0.04 ( 0.05 ( 0.12 < 0.34 p 401.7 2 8 793 < 0.40 < 0.3 401.7 2 9 793 < 0.!! ( 0.06 < 0.04 < 0.06 LJ L ~ 401.7 ' 2 10 - 793~ T 0.10 '<~~ 0.04 T~~~ ~ 0.02 T~~- 0:05T 0.06 C ~ ~ ~ 0.2 0.03 < ' 0.03 < '0.05 2.75 ( 0;! 401.7 2 11 795 '< 0.09 <
'O.12 < 0.05 ( 'O.03 < ~0.06 0.21 (' O.2 l 401.7 2 12 795 <
401.7 2 13 795 < '0.09 T ' 0.05~ '< ~ 0.02 ' < ' 0.04 7~ ~0'.08 C- ~ 0.1
- 0.09 < 0.04 ( 0.02 < 0.05 < 0.02 < 0.2 401.7 2 14 795 0.10 < 0.06 < 0.03 < 0.05 ( 0.07 < 0.1 401.7 2 15 795 <
401,7 2 16' 795 < 'O.09 < 0.04 '(' O 05 C 0.06 C 0.05 r ~ 0.2 0.09 < 0.03 < 0.02 < 0.05 ( 0.05 < 0.2 401.7 2 17 795 < ( 0.09 < 0.04 < 0.02 < 0.06 ( 0.05 ( 0.2 401.7 2 18 795 0,3 401.7 2 19 795 < 0.10 < 0.03 < 0.03 < 0.05 0.15 ( 0.11 < 0.10 < 0.04 < 0.05 < 0.08 ( 0.2 401.7 3 8 793 < 401.7 3 9 800 < 0.06 < 0.03 < 0.04 0.44 ( 0.4 0.09 < 0.03 ( 0.03 < 0.05 ( 0.10 (' O2 401.7 3 11 800 < 0.09 < 0.03 < 0.03 < 0.04 0.17 < 0.3 g 401.7 3 12 800 < 401.7 3 13 800 < 0.09 < 0.04 ( 0.03 < 0.05 ( 0.07 < 0.3 ( . 0.09 < 0.04 < 0.04 < 'O.05 (' O.05<' O2 401.7 3 14 800 < 401.7 3 15 800 < 0.12 < 0.03 < 0.03 < 0.05 < 0.07 ( 0.2 ( 0.09 < 0.03 < 0.04 < 0.05 1.11 < 0.3 401.7 4 7 796 401.7 4 8^ 796 < 0.09 < 0.03' < - ~0.05 "< '0.14 0.40-(~ ~ 0.1 401.7 4 9 796 < 0.09 < 0.05 ( 0.05 < 0.07 0.74 ( 0.1
ty)(tir-lQ 4 t _ i
.)
y. r
~~'
__. _ _____.___ _.~1SOTOPES~DF' CONCERN IN TRACTION OF LIMIT EU-152 " ~ S0lt CODE ~ ~ SR-90 '00-60' AG-108M CS-134 CS-137 CE-144 (U-152 SUM h ar---~- - - - - - - - - - 2 l . L
~ ~~ '
_. 7 C 0M~rl.033TO.02TC0.033~~0.147T0:005~< ~ 0.065 ~~ ~ 0.147 ~ ~ , g.
. . .' O .15 ^ ^
07 '
~1^ "~ < 'O 006 T 0.067 < ~0.045 r 0.083 c 0.000 < 0.003 < 0.075 1" '~r'~ u0M "'0E r 0.036T 0.033 ' O.000 0 0.002 < 0.035' ~0.000 0.00 MS ^ V P 0:0T ~ ~~~I C 0~006TIO4rr 0;t27T 0:028 c~0.000 c'0:005 C 0:035 ~ "0.000 APERTURE l-l 0.16 0.13 1
1
< 0.005 < 0.078 < 0.018 < 0.028 < 0.000 < 0.003 < 0.080 < 0.006 < 0.033 < 0.018 < 0.028 0.000 < 0.002 < 0.065 0.000 0.000 g*y .~ 0 ~ 0 8 ~~~~ I . F0.006T 0.033 T 0.027 T 0.033 < ~ 0.000 C 0.003 < ~0.040 '0.000 ~0.11 1 < 0.006 < 0.078 < 0.027 < 0.028 r 0.000 <~ 0.004 < 0.055 0.000Also Available on
! 0.08 1 < 0.005 < 0.044 < ~0.045 < 0.022 0.000 < 0.004 < 0.040 0.000 Aperture Card ( 0.08~~ 1 rT006T 0.089 c'0.0187 0'.039r0.000T 0.003r0.040- ~~ '0.000-l 0.15 1 < 0.006 < 0.067 < 0.036 ( 0.028 < 0.000 < 0.005 < 0.075 0.000 , 0.14 1- < 0.006 < 0.067 < 0.036 <0.033 0.000 < 0.005( 0.070 0.000 E ~ 0;06~ ~' ' T ~~T O.006TC~.044T O.018~ < "0.028 < -~0.000T 0;004 c 0.030 ~ 0.000- - l 0.17~ 'l '< 0.005 ( 0.033 < 0'027 . ( 0.028 0.395 ( 0.003 < 0.085 0.395 l 0.10 ! < '0.007 0 0.056 < 0.027 ( 0.033 0.000 < 0.004 < 0.050 0.000
~
OM~ ~~F ~ < 0.00F'< 0.0% < ~ 0.018 C 0.m ( 0.000 1 0.002'<~0.075 "O.000 l 0.12 1 < 0.005 < 0.044 < 0.018 < 0.028 < 0.000 < 0.005 < 0.060 0.000 0.06 1 < 0.006 < 0.067 < 0.027 < 0.028 < 0.000 < 0.003 < 0.030 0.000
'O.10 1^ ~<~ 0.005 r 0.044 < 0.045 < ~0.033 < 0.000 t' O.004~< 0.050 ~ 0.000 ~
! 0.08 1 < 0.005 < 0.033 < 0.018 < 0.028 < 0.000 < 0.004 ( 0.040 0.000
- 0.08 1 < 0.005 < 0.044 < 0.018 < 0.033 < 0.000 < 0.004 < 0.040 0.000 t 0.15 1 < 0.006 < 0.033 < 0.027 ( 0.028 0.000 < 0.005 < 0.075 0.000 E 0.11 1 < 0.007 ( 0.111 < 0.036 ( 0.028 < 0.000 < 0.004 < 0.055 0.000 t 0.15 1 0 0.000 < 0.067 < 0.027 < 0.022 0.000 < 0.007 < 0.075 0.000 t'
- 0.12 1 <' O.005 < 0.033 ( 0.027 < 0.028 < 0.000 < 0.004 < 0.060 0.000 t 0.14 1 < 0.005 ( 0.033 < 0.027 < 0.022 0.000 < 0.005 ( 0.070 0.000 t 0.07 1- < 0.005 ( 0.044 < 0.027 < 0.028 0 0.000 < 0.005 < 0.035 0.000 1 0.15 ~ 'l~ ~ < 0.005 < ' O.044 '< 0.036 0 0.028 < ~ 0.000 < 0.004 < 0.075 'O.000 t 0.05 1 < 0.007 < 0.033 < 0.027 < 0.028 < 0.000 < 0.003 < 0.025 0.000 1 0.16 1 < 0.005 < 0.033.< 0.036 < 0.028 0.000 < 0.005 < 0.080 0.000 E OX- 1 '~ < 0M05 ( 0.033~< ~0.045 r^0.078- '0.000 c 0.002 <' O.060 ' O.000 1 0.12 1 < 0.005 < 0.056 < 0.045 ( 0.039 0.000 < 0.002 < 0.060 0.000 9707240129 My = -
*~ ~ C 8tt 401.7-2 401.7 4 10 796 ( 0.09 < 0.05 < 0.03 < 0.05 < 0.12 < 0.24 401.7 5 7 796 0.11 ( 0.05 < 0.04 < 0.15 0.23 ( 0.43; 401.? 5 ( 0.09 ( 0.04 ( 0.05 < 0.15 ( 0.08 8 796 0.03 < 0.03 < 0.06 < 0.08 < O.4 0.32 401.7 5 9 796 < 0.09 <
401.7 5 10 796 < 0.09 < 0.03 < 0.03 < 0.06 < 0.07 < 0.30 401.7 6 7 796 < 0.09 < 0.04 < 0.04 ( 0.15 < 0.12 ( 0.35 401.7 6 8 796 < 0.09 < 0.04 < 0.02 ( 0.05 0.19 < 0.22I 401.7 6 9 796 ( 0.09 < 0.07 < 0.02 < 0.06 0.51 < 0.31 401.7 6 10 796 0.10 < 0.05 < 0.05 ( 0.06 1.15 ( 0.35' 401.7 7 8 800 < 0.11 < 0.03 < 0.02 < 0.05 < 0.04 < 0.31 401.7 7 9 795 < 0.05 < 0.03 < 0.04 < 0.09 ( 0.25 401.7 7 11 800 < 0.05 < 0.05 < 0.06 < 0.08 < 0.35 401.7 8 8 800 < 0.11 ( 0.03 < 0.02 ( 0.05 < 0.04 < 0.20 I 401.7 8 10 795 < 0.08 < 0.07 < 0.06 < 0.09 ( 0.20 401.7 8 11 800 < 0.03 < 0.03 < 0.06 < 0.04 < 0.43-401.7 9 8 800 < 0.09 < 0.04 < 0.04 < 0.05 < 0.03 < 0.21 401.7 9 9 795 < 0.04 < 0.05 < 0.06 0.68 < 0.21 401.7 9 11 800 < 0.03 < 0.05 < 0.06 ( 0.04 ( 0.29j 401.7 10 8 800 < 0.09 < 0.04 ( 0.03 < 0.05 ( 0.06 < 0.25 401.7 10 9 795 < 0.03 < 0.03 < ~ ~ 0.05 ( 0.06 < 0.241 401.7 10 11 800 ( 0.04 < 0.02 < 0.05 < 0.05 < 0.37 401.7 11 8 800 < 0.!! ( 0.05 ( 0.03 < 0.05 ( 0.04 ( 0.18 a "401.7 11 9 795 ~< ~ 0.05 < 0.02 < 0.06 ( ' O.06 ' ( ~~ 0.11 q 401.7 11 11 800 < 0.05 < 0.03 ( 0.08 < 0.06 < 0.24 W 401.7 12 8 800 < 0.11 < 0.04 < 0.05 ( 0.06 ( 0.03 ( 0.1 ( r-
~ ~ ~
4g[;7 1y -9 795~ l 0.08 T 0~.N < ~0.05' < 0:07 < 0!3 . W 401.7 12 11 800 < 0.05 < 0.06 ( 0.06 < 0.09 < 0.31 h 401.7 13 8 800 < 0.10 < 0.09 < 0.06 < 0.05 < 0.04 < 0.24
~ ~ 401.7 ~ 13 ' 9' 800 < '0.10 <~' ~0 :03 i ' 0.03 < 0.05~T ~ 0'05 T - ~~0.20 y 401.7 13 9 795 0.42 < 0.09 < 0.05 '< 0.06 0.70 < 0.38 0.03 ('
V 401.7 14 8 800 < 0.09 ( 0.05 < O.05 0.08 < 0.30 0;DFT ~ ~'0:05 <
~' " ~ 401.7 14 ~'9 796 < O.10 < ~0.05 T ~ ~0.05" < ' ~ 0.32 ( 0.11 < 0.03 < 0.03 < 0.05 < 0.05 ( 0.17 401.7 14 9 795 ,, 401.7 15 8 800 ( 0.09 < 0.04 ( 0.04 ( ~
0.05 <
~
0.05 < 0.2@'
. 401.7 15 9 796 0.13 < 0.07 ( 103 < ~ 0.06 0.26 < 0.21T, . 401.7 15 9 795 < 0.10 < 0.09 ( 0.04 < 0.05 1.27 ( 0.20; 401.7 16 7 795 < 0.09 < 0.03 < 0.03 ( 0.05 < 0.03 < 0.31' ~
[ ~ 401.7 16 8 800 0.10 < 0.04 < 0.07~ < 0.06 0.30 < 0:24~
.J 401.7 16 9 800 < 0.11 < 0.02 < 0.02 ( 0.04 ( 0.06 ( 0.23 , .; 401.7 16 9 795 0.21 < 0.07 ( 0.05 < 0.06 1.54 < 0.38!
4 401.7~"17' 8" ~800 < 0.10 < 0.03 < 0.03 < 0.05 < 0.10 < 0.3%
/ 401.7 17 9 800 < 0.10 ( 0,05 < 0.02 < 0.06 < 0.05 < 0.34T ,- 401.7 17 9 795 < 0.10 < ~ ~
0.05 < 0.03 < 0.06 < 0.07 < 0.3$ 4 '~ 7 01.?~~18 8 800 < 0'.09 < 0.03 < 0.04 < 0.05 < 0.0) < 0.27
.' 401.7 18 9 800 < 0.10 < 0.04 < 0.04 ( 0.05 ( 0.06 ( 0.17) 401.7 18 9 795 < 0.10 < 0.03 < 0.02 < 0.06 < 0.04 < 0.2F; 401.7 19 8 800 ( 0.09 < 0.04 < 0.02 < 0.05 ~ 1.03 < 0.37 401.7 19 9 800 < 0.11 < 0.07 < 0.03 < 0.05 s 0.07 < 0.38.
401.7 19 9 795 < 0.11 < 0.03 < 0.02 ( 0.06 ( 0.06 < 0.30! 401.7 20 8 800 < 0.09 < 0.03 < 0.03 < 0.05 0.53 ( 0.2F 401.7 20 9 800 < 0.09 < 0.03 ( 0.04 < 0.04 < 0.05 ( 0.3@ 401.7 20 9 795 < 0.11 < 0.03 < 0.05 ( 0.05 0.19 < 0.31 401.7 21 8 800 < 0.09 < 0.07 ( 0.04 < 0.05 ( 0.04 < 0.3P 401.7 21 9 800 < 0.09 < 0.04 < 0.04 < 0.06 < 0.05 < 0.2F 0,11 < 1.27 < hz 401.7 21 9 795 < 0.09 ( 0.04 < 0.07 e 0.10 < 0.03 < 0.05 OM 0.10 < 0.lS 0.28; 401.7 22 8 600 < , 401.1 22 9 800 < 0.09 < 0.04 < 0.02 < 0.05 < 0.07 ( 0.2P e 401.7 22 9 795 < 0.11 < 0.05 < 0.02 < 0.07 0.91 < 0.32 401.7 '~23 ~ 8 800 < 0.10 ( 0.05 < 0.04'< - 0.05 T 0.07 < 0.2d 401.7 23 9 800 < 0.11 < 0.04 < 0.05 ( 0.05 ( 0.03 ( 0.2P v+
,,,......i .-0.10 1 < 0.005 C 0.056 < 0.027 < 0.028 < 0.000 < 0.004 ( 0.050 0.000 'O.17 1 0.007 ( 0.056 ( 0.036 ( 0.083 0.000 < 0.007 ( 0.085 0.007 0.09 1 < 0.005 < 0.044 < 0.045 < 0.083 ( 0.000 < 0.007 ( 0.045 0.000 0.36 1' < 0.005 ( 0.033 ( 0.027 < 0.033 ( 0.000 < 0.005 ( 0.180 0.000 0.10 1 ~ < 0.005 < 0.033 ( 0.027 < 0.033 < 0.000 < 0.005 < 0.050 0.000 0.13 1 < 0.005 ( 0.044 ( 0.036 ( 0.083 ( 0.000 < 0.006 < 0.065 0.000 0.12 1 ( 0.005 < 0.044 < 0.018 < 0.028 0.000 < 0.003 < 0.060 0.000 0.13 1 ' < 0.005 < 0.078 < 0.018 < ~0.033 'O.000 < 0.005 < 0.065 0.000 0.16 1 0.006 < 0.056 < ~0.045 ( 0.033 0.000.< 0.006 < 0.080 0.006 0.13 1 < 0.006 < 0.033 ( '0.018 < 0.028 < 0.000 0 0.005 ( 0.065 0.000 ~
0.16 1 0 0.000 < 0.056 < 0.027 ( ~0.022 < ~0.000 < 0.004 < 0.080 0.000 u' 0.09 1 0 0.000 ( 0.056 ( 0.045 < 0.033 < 0.000 < 0.006 < 0.045 0.000 O.12 1 < 0.006 < 0.033 ( 0.018 ( 0.028 < 0.000 < 0.003 < 0.060 0.000
'O.20 '1 0 0.000 < 0.089 < ~0.064 < ~0.033 C 0.000~< 0.003 < 0.100 0.000 0.12 1 0 0.000 < 0.033 < 0.027 < 0.033 ( 0.000 < 0.007 < 0.060 0.000 0.09 1 < 0.006i 0.044 < 0.036 ( 0.028 < 0.000 < 0.003 < 0.045 0.000 !
9.06 1 0' O.000 < '0.044 < 0.045 < 0;033'~~ 0.000 ~ < 0.003 < 0.030 0.000 1' 0.17 1 0 0.000 C'O.033 ( 0.045 ( 0.033 ( 0.000 < 0.005 ( 0.085 0.000 0.07 1 < 0.006 ( 0.044 < 0.027 < 0.028 < 0.000 < 0.004 ( 0.035 0.000
' O ~0.000 < 0.033 ( 0.027< 0;028' C O.000 C 0;004 T ~0.080~
0.16~ ?! 0.000 I 0.10 1 0 0.000 < 0.044 < 0.018 ( 0.028 < 0.000 < 0.006 ( 0.050 0.000 ., i 0.09 __ 1
< 0.006 < 0.056 < 0.027 < 0.0?8 < 0.000 < 0.003 < 0.045 0.000 0.12 1 'O 0.000 < 0.056 < 0.027 (' 0.044TO.000 C 0:004"< ^ 0.060 '0.000 41 O.06 1 ( 0.006 < 0.044 < 0.045 (~ 0.033 C 0.000 T '0.003 C 0.030 0.000 h i
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__ ] 7_
' 0.07 ~ l 'O.025 < o.100 < 0.045 ( 0.033 ' ~ 0.000 < " 0.005T 0.035 0.025 20.14 1 < 0.006 ( 0.056 <' O.027'<' O.028 '0.000 ( '0.005 ( 0.070 0.000' " ANSTEC'
~ T.14~~l < 0~D06 F0.056T0:045T0:033TT000T0!005TO 070' 0:000-APERTURE
.< 0.006 < 0.033 < 0.027 < 0.028 < 0.000 <- 0.003 ( 0.070 0.000 0.14 1 1 ( 0.005 < 0.044 < 0.036 ( 0.028 < 0.000 < 0.003 < 0.085 0.000 CARD?,d
. _ 0.17 _q._ . . .. ... .. g 7 g 0.17 1 < 0.006 ( 0.100 < 0.036 < 0.028 1.005 ( 0.005 ( 0.085 0.005 leo Available on 0.18 _ 1
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0.08 1 ( 0.006 < 0.022 < 0,018 ( 0.022 < 0.000 < 0.004 < 0.040 0.000 l3 0.18 1 0.012 < 0.078 < 0.045 < 0.033 0.076 < 0.005 < 0.090 0.089 '!
"0.@T~'~F ~< ~~0.006T 0.~033 T 0:027 T0:028 T 0:000T0.0057 1.035 0.'000~
0.16 l' < ~~0.006< 0.056 ( 0 018 < 0.033 < "0.000 < 0.005 < 0.080 0.000 .' -_ .11 O 1 < 0.006 < . 0.056'.< 0.027 < 0.033 C 0.004 ( 0.005<~0.055 0.000 '!
- g. 7.. W ~ ~ ~
T 5 O.18 - 1 ( 0.006 < 0.044 < 0.036 ( 0.028 < 0.000 < 0.003 < 0.090 0.000 4 0.12 1 < 0.006 < 0.033 ( 0.018 ( 0.033 ( 0.000 < 0.004 < 0.060 0.000 .I
.( -
0.12 1 < 0.006 ( 0.078 < 0.027 ( 0.028 ( 0.000 < -0.005 ( 0.060 0.000 0.12 1 < 0.007 ( 0.033 < 0.018 < 0.033 < 0.000 < 0.006 < 0.060 0.000 0.16 1 < 0.005 < 0.033 < 0.027 ( 0.028 0.000 < 0.004 ( 0.080 0.000 0.18 1 < 0.005 ( 0.033 ( 0.036 < 0.022 < 0.000 < 0.005 ( 0.090 0.000 0.09 1 < 0.007 ( 0.033 < 0.045 ( 0.028 0.000 < 0.006 ( 0.0<5 0.000 0.06 1 < 0.'005 ( 0.078 < 0.036 i 0.028'< 0.000 < 0.006 < 0.030 0.000 0.10 1 < 0.005 < 0.044 ( 0.036 < 0.033 < 0.000 < 0.004 ( 0.050 0.000 0.13 1 < 0.007 < 0.044 ( 0.091 < 0.028 0.005 < 0.003 < 0.065
~
0.005 0.11~ l Y 0.006 '< ,0.078 ( 0.027~< 0.033 Y 0.000 < 0.004 T 0.055 ~ 0.000 0,27 - l' ( 0.005 < 0.044 < 0.018 < 0.028 ( 0.000 < 0.004 < 0.135- 0.000 0.07.-. 1 _-.. < 0.007 < 0.056 < 0.018 < 0.039 0.000 < 0.005 ( 0.035 0.000
.U 00 8 r LOOO T 0.005 < 0.030 0.000~
1 0.09 1 <- 0.006 ( 0.044 ( 0.045 ( 0.028 ( 0.000 < 0.004 < 0.045 0.000 9707240129 = -
- = 2 BLE 401.7-2
(~ 401.7 23 9 195 ( 0.11 ( 0.04 < 0.04 < 0.05 0.11 < 0.3 401.7' 24 8 800 < 0.09 < 0.03 < 0.04 < 0.05 0.17 < 0.4 401.7 24 9 795 < 0.11 < 0.03 < 0.05 0.08 1.!! < 0.3 401.7 24 9 800 < 0.09 < 0.05 < 0.06 < 0.06 < 0.07 < 0.1 401.7 25 8 800 < 0.10 < 0.04 < 0.05 < 0.07 0.13 < 0.3 401.7 25 9 800 < 0.09 < 0.03 < 0.02 < 0.05 < 0.04 < 0.2 401.7 25 9 795 < 0.11 < 0.02 < 0.03 < 0.06 0.37 < 0.2 401.7 26 8 800 < 0.09 < 0.04 < 0.02 < 0.05 0.12 < 0.3 401.7 26 9 800 < 0.09 ( 0.03 s 0.02 < 0.06 < 0.04 < 0.3 401.7 26 9 795 < 0 !! < 0.04 < 0.04 < 0.06 < 0.08 < 0.3
~ . ., ~401.7 27 8 800 < 0.10 < 0.03 ( 0.03 < 0.05 < 0.05 < 0.1 - 401.7 27 9 800 < 0.09 < 0.07 < 0.03 < 0.06 < 0.10 < 0.3 I 401.7 27 9 795 ( 0.11 < 0.04 ( 0.03 < 0.06 < 0.09 < 0.1 ~ '401.7 28 8 800 < 0.10 < 0.08 < 0.04 < 0.06 < 0.06 < 0.2 , .1 401.7 28 9 800 < 0.10 < 0.04 < 0.06 < 0.05 0.20 < 0.1 401.7 28 9 195 < 0.!! < 0.04 < 0.02 < 0.05 < 0.11 < 0.2 ~40).7 ~ 29' 8 800 < 0.09 < 0.05 < 0.04 < 0.06 < 0.06 < 0.2 '401.7 29 9 800 0.19 < 0.04 < 0.02 < 0.06 1.09 < 0.2 ,, 401.7 29 9 800 < 0.09 < 0.04 < 0.02 < 0.06 1.09 < 0.2 L ~ ~ 401.7 29' 9 795 <~ 0.!! ( 0.04 < 0.04 < 0.05 < 0.05 T '0.2 'y 401.7 30 8 800 < 0.10 < 0.05 < 0.04 < 0.05 < 0.05 ( 0.2 i'
401.7 30 9 800 < 0.09 < 0.03 < 0.05 < 0.06 0.35 < 0.1 401.7 30 9 795 < 0.11 < 0.05 < 0.04 < 0.06 0.13 < 0.3 401.7 31 8 800 < 0.10 < 0.03 < 0.02 < 0.06 0.07 ( 0.4 I, 401.7 31 9 800 ( 0.09 < 0.07 < 0.02 < 0.05 < 0.03 ( 0.2 Q^~~~401.7~31' 9 795 < 0.11 < ' 0.03 < ~ .02' < 0 0.05 0.40 < 0.1
, , 401.7 32 8 800 < 0.09 < 0.03 < 0.02 < 0.05 < 0.08 < 0.1 2 401.7 32 9 800 ( 0.10 < 0.06 < 0.04 < 0.05 < 0.05 < 0.2 401.7 32 ' ~9~ 795 < 0.11 < ~0:03 < ~~ 0'05 ~< . 0.06 '< ~ 0.07~<' ~0.2 401.7 33 8 800 < 0.09 < 0.06 < 0.02 < 0.05 < 0.05'< '0.3 3 , .,f 401'.7 33 9 800 < 0.09 < 0.08 < 0.06 ( 0.05 < 0.06 < 0.2 l j- 401;7 ~~ 33 ' ~ 9 795~ < 0.10 < ~0.03~~< ~' O 03' C 0.06-~ 0.58 T" " 0.3 i , 401.7 34 8 800 < 0.09 < 0.05 < 0.03 < 0.05 < 0.07 < 0.4 401.7 34 9 800 < 0.09 < 0.03 < 0.02 < 0.05 < 0.07 4 0.2 u; _. . ~
O 9 7 yg M3 C 1 06 ~ l .~67 ~ ( p' '401.7 35 8 800 < 0.09 < 0.06 < 0.06 < 0.06 < 0.05 < 0.3 d ~4 01.7 35 9 800 < 0.09 < 0.05 < 0.02 < 0.06 < 0.05 < 0.2 3, ' ~~401~7 ' '35 9 795 < 0.09 < ' O.07 < -' 0. 03 ~ ~ < 0.06 0.09' C ~ 0.3
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< 0.005 < 0.056 < 0.055 < 0.033 ( 0.000 < 0.003 ( 0.060 0.000 0.24 1 < 0.006 < 0.044 < 0.045 < 0.039 0.000 < 0.006 < 0.120 0.000 0.13 1 < 0.005 < 0.033 < 0.018 < 0.028 ( 0.000 < 0.004 < 0.065 0.000 0.14 1 < 0.007 < 0.022 < 0.027 < 0.033 0.000 < 0.004 < 0.070 0.000 0.07 1 < 0.006 ( 0.044 < 0.018 < 0.028 0.000 < 0.005 ( 0.035 0.000 0.06 1 < 0.005 < 0.033 < 0.018 < 0.033 < 0.000 < 0.006 < 0.030 0.000 0,20 1 < 0.007 < 0.044 < 0.036 ( 0.033 ( 0.000 < 0.006 < 0.100 0.000 0.15 1 < 0.006 < 0.033 ( 0.027'< 0.028 < 0.000 < 0.003 < 0.075 0.000 0.12 1 < 0.005 ( 0.078 < 0.027 < 0.033 < 0.000 < 0.005 < 0.060 0.000 0.15 1 < 0.007 < 0.044 < 0.027 < 0.033 < 0.000 < 0.003 < 0.075 0.000 0.15 1 < 0.006 < 0.089 < 0.036 < 0.033 <' O.000 < 0.003 < 0.075 0.000 0.0/ 1 < 0.006 ( 0.044 < 0.055 < 0.028 0.000 < 0.002 < 0.030 0.000 0.20 1 < 0.007 < 0.044 < 0.018 < 0.028 < 0.000 < 0.003 < 0.100 0.000 0.14 1 (' O.006 < 0.056 < 0.036 < "0.033 <" 0.000 < 0.003 < 0.070 0.000 0.13 1 0.011 < 0.044~< 0.018 < 0.033 ' O.000 < 0.003 < 0.065 ' O.011 0.13~ 1 < 0.005 < 0.044 ( 0.018~< 0.033 0.000 T 0.003 < 0.065~ 0.000 0.06 !~ < ~0:007'<~ 0.044 i 0.036 C 0.028'< 0.000'< 0.005 C 0.030 ~ '0.000 ~
0.12 1 < 0.006 < 0.056 < 0.036 ( 0.028 < 0.000 < 0.004 < 0.060 0.000 0.12 1 < 0.005< 0.033< 0.045 < 0.033 0.000 < 0.002 < 0.060 0.000
~
0.10 1 < 0.007 < 0.056 < 0.036 '< 0.033 0.000 < 0.005 < 0.050 0.000 0.10 1 < 0.00( < 0.033 < 0.018 < 0.033 0.000 < 0.006 < 0.050 0.000 l' O.09 1 < 0.005( 0.078 < 0.018 Y ~0.028 ( 0.000 < 0.004 < 0.045 0.000' ' ~ ~ 0.08 ' I < ' O.007 < 0.033 F 0.018 < ' 0:028 ~ 0.000 < 0.002 < 'O.040" 0.000 - ~ ~ ' O.14 1 < 0.006 ( 0.033 ( 0.018 < 0.028 < 0.000 < 0.003 < 0.070 0.000 0.14 1 < 0.006 ( 0.067 < 0.036 < 0.028 < 0.000 < 0.004 ( 0.070 0.000
~ ~~0.07 1 C 0.007 < ~0.033 C0.045T0.033 C0.000 < 0~ 004~C0.035 . 0.000 ~~~
0.12 1 < 0.006 (' O.067 ( 0.018 < 0.028 < 0.000 < 0.005 ( 0.060 0.000 l 0.13 1 < 0.006 ( 0.089 ( 0.055 <~ 0.028 < 0.000 < 0.004 C 0.065 0 ~000 ~ ,
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1 1" (0.006 ( ~0.056 ( 0.018 < 0.033 ( 0.000 < 0.004 < 0.045
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- ._ _ - . . - - . - . - . - _ _-__ Aperture Card 1.
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I CINTICHEN FINAL STATUS SURVEY PLAN AND REPORT
- b. .
)
The .402.2. survey unit- was suryeyed on an--affected area basis and ; has' a surf ace - area of -37 . m . 195 direct' beta / alpha surface
, contamination measurement locations were placed in this area using - ~5 readings per.'im by.Im grid.- OneLreading was taken at the center 3 of the . grid and: four. each at .the midpoint between the center and the ~ corners' of tha -grid. 44. gamma exposure rate measurement .
locations. were placed -in this area using a im by;im grid. ' In !
. add i t ion a .100'".' scan was - pe r formed in each im by im grid location.
The location ' of. these measurements-is shown in the accompanying map.
-Measurement and' sar.' ling resu1ts for the 402.2 survey unit are-provided in~3 attaci.'s tables as follows:
Table 402.2-1 Outbuilding Concrete Slabs ; gamma exposure rate data ;.
. Table 402.2-2 ~ Outbuilding Concrete Slabs !
direct beta / gamma surface contamination data
-Table 402.2-3 Outbuilding Concrete Slabs j direct alpha surface contamination data l O l i
b i L i i i 1 ( 5 O SECTION 14 i
-(j FINAL: SUR('yf .
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12/17/96 I DVGS/3127
'E CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT.
AREA 402.2 Me s. Type: Gamma Exposure Direct . Direct
~ Rate (a)- Beta (b) Alpha (b)
Units uRem/hr dps/ . dps/ 100 cm2 100 cm2 MDA 2 404 54 Number of Meas: 44 195 195 nee ===ss__ -- ___.__ ---==================_______=n______=_____ Survey Unit Mean: 1.4 422 17 ; True Mean:U alpha 95% C.L.: 1.8 440 19 > Criteria 5 1273 5000 . Acceptable Y/N Y Y Y c=======___.m_m_s====--- - ==____________---------- -- - - - - - - - -
=
Max Orid Block Wt. Mean 5 1093 75 Criteria 10 1273 5000 'gcceptableY/N a -.,__________________________,___ Y Y Y Max. Hot Spot Scans NONE NONE NONE
-(cffected areas only)
Criteria NA NA NA
-Acceptab1e Y/N NA NA NA ===_ _____====-- = ==____ ______=____ -=- - _ _ _ _ _ - - - - =----------
(c)'With a mean site background of 6 uRem/hr subtracted (b) Without subtraction of radioactivity due to natural radioactive material content
. ,a
l ~/N {/ {f * '/ *) V ! KEIABLE 402.2-1 CINTICHEM DICOMMIS$10NING PLAN 12/D/96 FINAL SURVEY DATA SHEET DATA FOR AFFECTED ARIA DESCRIPi!0N: 00T8UILDINGCONCRETESLABS ARCA402.2FORuR/HR RADIATIONTYPE: GAMMASURVEYINUREM/HR COMPLETION DATE:12/17/96 TECHNICIANS:JB/Di/PG/FM MATERIAL CODE AREA: 402.0 1: CONCRETE 5: PLASTIC UNii: 402.2 2:ROCI 6:50ll MEDIA TYPE: CONCRETE 3:N000 7: ASPHALT I of POINIS: 44 4: METAL 8:0THER(SPECIFY): NO MATERIAL BACKGR0dND USED MICR0 REM PER HOUR: LIMIT MAX: 5.00 PASS 10 AVG: 1.43 PASS 5 STD X: 1.32 MU SUB ALPHA: 1.77 PASS 5 MATER-INST. AREA AREA IAL NET ID I GRID POINT ID 1 81G READING CODE UREM/HR
, ^1 UREM/HRUREM/HR J
40?.2 Al A 6 7 8 1 402.2 A2 A 6 8 8 2 402.2 A3 A 6 6 8 0 402.2 A4 A 6 5 8 -1 402.2 A5 A 6 9 8 3 402.2 A6 A 6 10 8 4 402.2 81 ,A 6 8 8 2 402.2 82 A 6 7 8 1 402.2 83 A 6 6 8 0 402.2 84 A 6 6 8 0 402.2 85 A 6 8 8 2 402.2 86 A 6 9 8 3 402.2 Cl A 6 7 8 1 402.2 C2 A 6 8 8 2 402.2 C3 A 6 6 8 0 402.2 C4 A 6 7 8 1 402.2 C5 A 6 8 8 2 402.'l C6 A 6 8 8 2 402.2 01 A 6 6 8 0 402.2 D2 A 6 7 8 1 402.2 03 A 6 5 8 -1 402.2 D4 A 6 9 8 3 402.2 05 A 6 8 8 2 2.2 D6 A 6 9 8 3
.2 El A 6 8 8 2 2.2 E2 A 6 6 8 0 2.2 E3 A 6 7 8 1 402.2 E4 A 6 6 8 0 402.2 F1 A 6 8 8 2 402.2 F2 A 6 7 8 1
- , - . . . . . - . . . - . . . . ~ . . . . . . - . ~ . . . - . ~ .-_..7..-...-..-=
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'.402.2- N1 A ~ 6' 11 8- 5 402.2 - N2 !A^ 6 9 -8 3 402.2- - 11 3 : A' ~ 6; .6' 8 0 . 402.2 N4 -A 6 .6 - 8- 0- ? 402.2 '4 : 11 - 'A, 6 10 .- .8 4 3 - 402.2.. 12 'A- 6 -7 8- 1 1
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CINT!CNEM DECOMISSIONING PLAN 12/17/96 A: FINALSURVEYDATASHEET. (f DATA FOR AFFECTED AREA DESCRIPi10N: OUTIVILDING CONCRETE SLABS AREA 402.2TORBETA-
- MDIAi!0N TYPE: 1 8ETASCALINGFACTOR: 0.975 COMPLET10N DATE: 12/17/96 TECHNICIANS: JB/DT/PG/FM MTERIAL CODE AREA: '402.0 1: CONCRETE 5: PLASTIC ;UN!!:- 402.2' 2: ROCK '6:S0!L MEDIATYPE: CONCREit .3:W000 7: ASPHALT 8 of POINTS: 195 4: METAL 8:0THER(SPECIFY):
CT IN MINUTES: 1 N0 MTERIAL BACKGROUND USED DPM/100CM^2 REM.+TIXED: LIMIT. MAX FOR IND GRID 1093 PASS 1273' AVG - SURVEY UN!i- 422 PASS 1273 STD X' 152 MU SUB ALPHA 440 PASS 1273 MAX HOT SPOT NONEPASS- 3818 WEIGHTED BETA BETA SCAN TOTAL AVG. , GRID INST. TIXED .MX CONT. MATER- BETA MX C00RIDINATES INST. hREACOUNTS/. BETA AREA lAL MDA FIXED PER INSTEFF.
"100 GRID ID LOCATION- ID i BKG 1 COUNTS CM^2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM N
CPM MINUTES 100 CM'2 100 CM'2 TEST CM'2 TEST
.b 402.2 Al 1 5 449 552 0 0 8 397 404t/-243 NA 0.2617 402.2 Al 2 5 449 540 0 0 8 397 357+/-242 NA 0.2617
. 402.2. Al 3 5 449 517 0 0 8 397 267+/-239 NA ~0.2617 _.402.2 A2 1 5 449 607 0- 0 8 397 619+/-250 NA 0.2617 402.2 A2 2 1 466 599 0 0 8 404 522+/-251 NA 0.2615 i
' 402.2 A2 3 5 449 599 0 0 8 397 588+/-249 NA 0.2617 )
402.2 A2 4 .1 466 553 0 0 8 404 341+/-245 M 0.2615
. 402.2 A2 5 5 449 728 0 0 8 397 1093+/-264 M 0.2617 !
402.2 A3 1 5 449 619 0 0 8 397 666+/-251 NA 0.2617 402.2 A3 2 1 466 563 0 0- 8 404 380+/-247 M 0.2615 402.2 A3 3 5 449 567 0 0 8 397 462+/-245 NA 0.2617
)
402.2 A3 4 1 466 541 0 0 8 404 294+/-244 M 0.2615 :
. 402.2 A3 5 5 449 552 0 0 8 397 404+/-243 NA 0.2617 l . 402.2 ~ A4 1 5 449 576 0 0 8 397 498+/-246 2 0.2617 ) . 402.2 - A4 - 2 5 449 604 0' 0 8 397 607+/-249 -M 0.2617 I C2.2 ' A4 - 3 5 449 527 0 0 8 397 306+/-240 NA 0.2617 ) ~ 402.2' A4 4: 5 449 ' 552 0 0 8 397 404+/-243 NA 0.2617 i 402.2 A4 5 5- 449 519 0- 0 8 397 -274+/-239 M 0.2617 l - 402.2: A5- 1- 1 466 552 0 ~0 8 404 337 +/ 245 M 0.2615 ) - 402.2. A5 2 ~l 466 567 0 0 8 404 396+/-247 M 0.2615 )
402.2' A5- 3 1 466 512 0 :0 8 404 180+/-240 M 0.2615 402.2- LA5 . .; 4 l' 466 546 0- 0 8 404 314+/-245 M 0.2615 , _,402.2 A5 5 .1 -466' 558 0 0 8 404 361+/-246 NA .C.2615 j t
.2 L A6 . 1 '1 466 549 0 -0 8 404 326+/-245 M 0.2615 i .2 : A6 2 1 -466 603' 0 0 8 404 537+/-251 M 0.2615 ! .2 - A6 ~3. 1 466' 554 0 0 8 404 345+/-246 M 0.2615 )
402.2- A6 4 1 466 516 0 0 8- 404 196+/-241 M 0.2615 402.2 ~ A6 5. 1 '466- -520' 0 0 8 404 212+/-241 M 0.2615
- 402.2-- 01'- >1 -5 449- 598 0 0 8 397- 584+/-249 M 0.2617 4G2.2- 81 : .1 466 551 0 0 8 404 333+/-245 M 0.2615
BBLE402.2-2 , 1 402.2 81 3 5: .449- 563 0 0 8 397 447+/-244 NA 0.2617 1 402.2 1 82 1 1 466 586 0 0 8 404 471+/-249 NA - 0.2615 2 82 2 5 449 668 0 0 8 397 858+/-257 NA 0.2617
- 2. 82 3 1 466 495 0 0 8 404 114+/-238 NA 0.2615 4 2.2 82 4 5 449 606 0 0 8 397 615+/-250 M 0.2617 402.2 82 5 1 466' 477 0 0 8 404 43+/-236 NA 0.2615
'402.2 .83 1 1 466 591 0 0 8 404 490+/-250 NA 0.2615 402.2 83 2 5 449 542 0 0 8 397 364+/-242 NA 0.2617' 402.2 83 3 1 466 562 0 0 8 404 377+/-246 NA 0.2615 402.2 83 4 '5 449 564 0 0 8 397 451+/-244 NA 0.2617 402.2~ 83 5 1 466 539 0 0 8 404 286+/-244 NA 0.2615 402.2 84 1 5 449 595 0 0 8 397 572+/-248 NA 0.2617 402.2 84 2 5 449 578 0 0 8 397 506+/-246 M 0.2617 , 402.2 84 3 5 449 552 0 0 8 397 404+/-243 M 0.2617 : '402.2 84 4 5 449 585- 0 0 8 397 533+/-247 M 0.2617 l ,402.2 84 5 5 449 492 0 0 8 397 169+/-236 NA 0.2617 402.2 85 1 1 466 583 0 0 8 404 459+/-249 M 0.2615 402.2 ' 85 2 1 466 556 0 0 8 404 353+/-246 M 0.2615 402.2- 85 3 1 466 569 0 0 8 404 404+/-247 NA 0.2615 402.2 85 4 1 466 544 0 0 8 404 306+/-244 NA 0.2615 402.2. 85 .5 1 466 551 0 0 8 404 333+/-245 NA 0.2615 402.2 86 1 'l 466 538 0 0 8 404 282+/-244 NA 0.2615 402.2 - 86 2 1 466 584 0 0 8 404 463+/-249 NA 0.2615 402.2 86 3 1 466 507 0 0 8 404 161+/-240 NA 0.2615 402.2 . 86 4 1 466 570 0 0 8 404 408+/-247 NA 0.2615 402.2 86 5 1 466 586 0 0 8 404 471+/-249 M 0.2615 402.2 Cl 1 1 466 600 0 0 8 404 526+/-251 NA 0.2615 , .402.2 C1 2 5 449 610 0 0 8 397 631+/-250 NA 0.2617 : P.2 C1 3 1 466 585 0 -0 8 404 467+/-249 NA 0.2615 U.2 C2 1 5 449 565 0 0 8 397 455+/-245 NA 0.2617 l 402.2- C2 2 1 466 636 0 0 8 404 667+/-255 M 0.2615 402.2 C2 3 5 449 606 0 0 8 397 615 +/ 250 NA 0.2617 402.2 C2 4 1 466 576 0 0 8 404 431+/-248 NA 0.2615 402.2 C2 5 5 449 611 0 0 8 397 635+/-250 NA 0.2617 l 402.2 C3 1 5 449 616 0 0 8 397 654+/-251 M 0.2617 402.2 C3 2 1 466 604 0 0 8 404 541+/-251 M 0.2615 a I 402.2 C3 3 5 449 577 0 0 8 397 502+/-246 NA 0.2617 402.2 C3 4 1 466 581 0 0 8 404 451+/-249 NA 0.2615 402.2 C3 5 5 449 575 0 0 8 397 494+/-246 M 0.2617 ; 402.2 C4 1 5 449 550 0 0 8 397 396+/-243 NA 0.2617 l 402.2 C4 2 5 449 585 0 0 8 397 533+/-247 NA 0.2617 i 402.2 C4 3 5 449 603 0 0 8 397 604+/-249 M 0.2617 402.2 C4 4 5 449 588 0 0 8 397 545+/-247 M 0.2617 402.2 C4 5 5 449 522 0 0 8 397 286+/-239 M 0.2617 , =402.2 C5 1 1 466 579 0 0 8 404 443+/-249 NA 0.2615 l 402.2 C5 2 1 466 586 0 0 8 404 471+/-249 M 0.2615 ) 402.2 C5 3 1 466 552 0 0 8 404 337+/-245 NA 0.2615 i 402.2 05. 4 1 466 576 0 0 8 404 431+/-248 M 0.2615 ! 402.2 .C5 5 1- 466 564 0 0 8 404 384+/-247 NA 0.2615 l 402.2 C6 1 1 466 525 0 0 8 404 231+/-242 NA 0.2615 ) 402.2 C6 2~ ! 466 595 ' 0 0 8 404 506+/-250 NA 0.2615 j 402.2- ' C6 3- 1 466 574 0 0 8 504 424+/-248 NA 0.2615 l 402.2' ' C6 4 1 466 496 0 0 8 404 118+/-238 M 0.2615 j 2- C6 5- 1 466 580 0 .0 8 404 447+/-249 NA 0.2615 l
- 2. . 01 1 5 449 592 0 0 8 397 560+/-243 H 0.7617
.2 - D1 2 1 466 569 0 0 8 404 404+/-247 NA 0.2615 l
~402.2 D2 1 1 466 561 0- 0 8 404 373+/-246 M 0.2615 402.2-02 2 5 449 597. O~ 0 8 397 580+/-248 NA 0.2617 i 402.2~ 02 3 1 466- 605 0 0 8 404 545+/-252 M 0.2615 .402.2 03 1 1 466 578 0 0 8 404 439+/-248 M 0.2615
IttLE C2.2-2 ' 402.2- 03 2 5 449 574 0 0 8 397 490+/-246 NA 0.2617 ,
~ 402.2 ' . D3 '3. 1 466 571 0 0 8 404 412+/-24B NA 0.2615 2.2 D4 ! $ 449 546 0 0 8 397 380+/-242 NA 0.2617 .2 04 2 5 449 559 0 0 8 397 431+/-244 NA 0.2617 02.2 04 3 5 449 520 0 0 8 397 278+/-239 NA 0.2617 402.2 05' 1 5 449 545 0 0 8 397 376+/-242 NA 0.2617 -402.2 05 2 5 449 533 0 0 8 397 329+/-241 NA 0.2617 402.2 D5 .3 5 449 525 0 0 8 397 290+/-240 NA 0.2617 l402.2 05 ,4 5 449 641 0 0 8 397 752+/-254 NA 0.2617 402.2 DS 5 5 449 627 0 0 8 397 698+/-252 NA 0.2617 402.2 06 1 1 466 546 6. 0 8 404 314+/-245 NA 0.2615 402.2 D6 2 1 466 608 0 0 8 404 557+/-252 NA 0.2615 402.2. 06 3 1 466 550- 0 0 8 104 329+/-245 NA 0.2615 402.2 D6 4 1 466 544 0 0 8 404 306+/-244 NA 0.2615 1 402.2 06 . 5 1 466 621 0 0 8 404 608+/-253 NA 0.2615 i 402.2 El 1 1 296 407 0 0 8 324 435+/-204 NA 0.2615 i l
402.2 E2 - 1 1 296 407 0 0 8 324 435+/-204 NA 0.2615
'402.2 E2 2 1 296 501 0 0 8 324 804+/-217 NA 0.2615 402.2 E2 3 -1 296 457 0 0 8 324 631+/-211 NA 0.2615 l 402.2 E2 4 1 296 459 0 0 8 324 639+/-211 NA 0.2615 402.2J E2 5 1 296 517 0 0 8 324 867+/-219 NA 0.2615 l l
402.2 . E3 1 11 343 419 0 0 8 365 313+/-223 NA 0.2494 402.2 E3 2 11 343. 442 0 0 8 365 407+/-226 NA 0.2494 402.2 E3 3 11 343 387 0 0 '8 365 181+/-218 NA 0.2494 402.2 E3 4 11 343 436 0 0 8 365 382+/-225 NA 0.2494 402.2 E3 5 11 343 436 0 0 8 365 382+/-225 NA 0.2494 402.2 E4 1 11 343 442 0 0 8 365 407+/-226 NA 0.2494 343 465 0 8 365 502+/-229 NA 0.2494 3 2.2 40 E4 2 11 0
. (*"";2.2 E4 3 11 343 430 0 0 8 365 358+/-224 NA 0.2494 V2.2 fl 1 1 296 441 0 0 8 324 569+/-209 NA 0.2615 402.2 F1 2 1 296 435 0 0 8 324 545+/-208 NA 0.2615 l 402.2 F1 3 1 296 410 0 0 8 324 447+/-204 NA 0.2615 402.2 F1 4 1 296 407 0 0 8 324 435+/-204 NA 0.2615 402.2 F2 1 1 296 379. 0 0 8 324 326+/-200 NA 0.2615
, .402.2 F2 2 1 296 436 0 0 8 324 549+/-208 NA 0.2615 402.2 F2 3 1 296 458 0 0 8 324 635+/-211 NA 0.2615 402.2 f2 4 1 296 421 0 0 8 324 490+/-206 NA 0.2615 402.2 F2 5 1 296 440 0 0 8 324 565+/-209 NA 0.2615 402.2 F3 1 11 343 396 0 0 8 365 218+/-219 NA 0.2494 402.2 13 3 11 343 384 0 0 8 365 169+/-217 NA 0.2494 402.2 F3 3 11 343 434 0 0 8 365 374+/-225 H 0.2494 402.2 f3 4 !! 343 379 0 0 8 365 148+/-217 NA 0.2494 402.2 f3 5 11 343 437 0 0 8 365 387+/-225 NA 0.2494 402.2 f4 1 11 343 429 0 0 8 365 354+/-224 NA 0.2494 402.2 F4 2 11 343 398 0 0 8 365 226+/-219 NA 0.2494 402.2 F4 3 11 343 417 0 0 8 365 304+/-222 NA 0.2494 402.2 F4 4 11 343 472 0 0 8 365 531+/-230 NA 0.2494 402.2 F4 5' 11 343 471 0 0 8 365 526+/-230 NA 0.2494 402.2' G1 1 1 296 ~ 443 0 0 8 324 577+/-209 EA 0.2615 402.2 G1 2- 1 296 419 0 0 8 324 482+/-206 NA 0.2615 l 402.2 'G1 3 1: 296 355 0 0 8 324 231+/-196 NA 0.2615 402.2- G1 4 1 296 412 0 0 8 324 455+/-205 NA 0.2615 402.2. G2 1 1 296 397 0 0 8 324 396+/-202 NA 0.2615 ; i 2.2 62 2 1 296 .423 0 0 8 324 498+/-206 NA 0.2615 )
.2 G2 3 1 l296 417 0 0 8 324 475+/-205 'NA 0.2615 ,
2.2 - 62 41 1 296 420 0 0 8 324 486+/-206 NA 0.2615 1 402.2- 62 5. '1 296 467 '0 0 '8 324 671+/-212 NA 0.2615 402.2 G3 I 11 343 392 0 0 8 365 202+/-219 NA 0.2494 4 402.2 G3 2' 11 343 395 0 0 8 365 214+/-219 NA 0.2494 402.2 43 3 11 343 407 0. 0 8 365 263+/-221 NA 0.2494 x ,
. .-. .. . . - _ . - - - .-~ . . - - . . - --
28LE402.2-2
' 402.2 . - G3 4 11 343 410 0 0 8 365 276+/-221 M. 0.2494 '402.2 G3 5 11 343 387 0 0 8 365 181+/-218 NA 0.2494 /32 - ..G4 1 11 343 472 0 0 8 365 531+/-230 NA 0.2494 U2 - ' G4 2 11 343 431 0 0 8 365 362+/-224 H 0.2494 402.2 G4 3 11 343 '434 0. 0 8 365- 374+/-225 M 0.2494 402.2 G4 4 11 343 415 0 0 8 365 296+/-222 NA 0.2494 402.2 64 5 11 343 410 0 0 8 365 276+/-221 M 0.2494.
402.2 H1 1 1 296 438 0 0 8 324 557+/-208 NA 0.2615 , 402.2 W1 2 1 296 432 0 0 8 324 533+/-207 NA 0.2615 402.2 HI 3- 1 296 386 0 0 8 324 353+/-201 -M 0.2615 402.2 HI 4 1 296 416 0 0 8 324 471+/-205 M 0.2515 , 402.2 H2 1 1 296 460 0 0 8 324 643+/-211 M 0.2615
,402.2 H2 2 1- 296 420 0 0 8 324 486+/-206 2 0.2615 l 402.2 H2 3 1 296 415 0- 0 8 324 467+/-205 - NA 0.2615 ,
402.2 H2 4 1 296 441 0 0 8 324 569+/-209 M 0.2615 402.2- H2 5 1 296 398 0 0 8. 324 400+/-203 m 0.2615 402.2 H3 1 11 343 441 0 0 8 365 403+/-226 M 0.2494 402.2 H3 '2 11 343 443 0 0 8 365 411+/-226 NA ' O.2494 402.2 H3 .3 11 343 417 0 0 8 365 304+/-222 M 0.2494 402.2 H3 4 11 343 393 0 0 8 365 206+/-219 M 0.2494 402.2 H3 5 11 343 398 0 0 8 365: 226+/-219 NA 0.2,14 402.2 L H4 'l - 11 '343 485 0 0 8 365 584+/-232 M 0.2494 402.2 M4 2 11 343 443 0. 0 8 365 411+/-226 M 0.2494 402.2 H4 3 11 343 429 0 0 8 365 354+/-224 M 0.2494 , 402.2 M4 4 11 343 429 0 0 8 365 354+/-224 M 0.2494 402.2 H4 5 11 343 474 0 0 8 365 539+/-230 NA 0.2494 402.2 11 1 1 296 360 0 0 8 324 251+/-197 M 0.2615 402.2 !! ' 2 1 296 428 0 0 8 324 518+/-207 M 0.2615 G2 11 3 1 296 403 0 0 8 324 420+/-203 M 0.2615 kl.2 11 4 1 296 396 0 0 8 324 392+/-202 NA 0.2615 402.2 12 1 1 296 411 0 0 8 324 451+/-204 NA . 0.2615 ; J 402.2 12 2 1 296 400 0 0 8 324' 408+/-203 NA 0.2615 402.2 12 3 1 296 387 0 0 8 324 357+/-201 NA 0.2615 402.2 12 4 1 296 411 0 0 8 324 451+/-204 M 0.2615 1 402.2 12 5 1 296 434 0 0 8 324 541+/-208 NA 0.2615 402.2 13 1 11 343 421 0 0 8 365 321+/-223 M 0.2494 ) 402.2 13 2 11 343 419 0 0 8 365 313+/-223 M 0.2494 ; 402.2 13 3 11 343 419 0 0 8 365 313+/-223 M 0.2494 l 402.2 13 4 11 343 383 0 0 8 365 164+/-217 M 0.2494 ! 402.2 13 5 11 343 377 0 0 8 365 140+/-216 H 0.2494 402.2 14 1 11 343 455 0 0 8 365 461+/-228 NA 0.2494 402.2 14 2 11 343 435 0 0 8 365 378+/-225 NA 0.2494 402.2 14 3 11 343 390 0 0 8 365 193+/-218 NA 0.2494 402.2 14 4 !! 343 412 0 0 ?, 365 284+/-221 M 0.2494 402.2- 14 5 11 343 422 0 0 8 365 325+/-223 M 0.2494 I l I
.U g -
fN(/ {p4{Qf-C TABLE 402.2-3 CINTICHEM DECOMMIS$10NING PLAN 06/04/97 s FINAL SURVEY DATA SHEtt j DATA FOR AFFECTED AREA DESCRIPi!0N: OUT8UILDING CONCRETE SLABS AREA 402.2 FOR ALPHA RADIATION TYPE: 2 COMPLEi!0N DATE: 12/17/96 TECNNICIANS: JB/DT/PG/FM MATERIAL CODE AREA: 402.0 1: CONCRETE 5: PLASTIC UNIT: 402.2 2: ROCK 6:S0!L 4EDIATYPE: CONCRETE 3: WOOD 7: ASPHALT 8 of 00!NTS: 195 4: METAL 8:0iHER(SPECIFY): CT IN MINUi!S: 1 NO MATERIAL BACKGROUND USED DPM/100CM'2 REM.+ FIXED: LIMIT MAX TOR IND GRID 75 PASS 5000 AVG - SURVEY UN!i 17 MSS 5000 STD X 19 MU SUB ALPHA 19 PASS 5000 MAX NOT SPOT NONE PASS 15000 NEIGHTED ALPHA ALPHA SCAs TOTAL AVG. GRID INST. FIXED MAX CONT. MATER- ALPHA MAX C00RIDINATES INST. AREA COUNTS / ALPHA ARA IAL MDA FIXED PER INSTEFF. ID 8 BLG 1 COUNTS CM'2 CODE DPM/ OPM/ AVG 100 MAX CPM /DPM }~D 8 GRID ID LOCAi!0N CPM MfNUTES 100 CM'2 100 CM'2 TEST CM'2 TEST f
),
402.2 Al 1 5 2 0 0 0 8 54 -12+/- 16 NA 0.1713 402.2 A1 2 5 2 1 0 0 8 54 -6 +/- 20 NA 0.1713 402.2 At 3 5 2 2 0 0 8 54 0+/- 23 NA 0.1713 402.2 A2 1 5 2 4 0 0 8 54 12t/- 28 NA 0.1713 402.2 A2 2 1 1 5 0 0 8 41 22 +/- 27 NA 0.1784 402.2 A2 3 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 A2 4 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.2 A2 5 5 2 1 0 0 8 54 -6 +/- 20 NA 0.1713 402.2 A3 1 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 A3 2 1 1 3 0 0 8 41 11 +/- 22 NA 0.1784 402.2 A3 3 5 2 3 0 0 8 54 6 +/- 26 NA 0.1713 402.2 A3 4 1 1 3 0 0 8 41 !! +/- 22 NA 0.1784 402.2 A3 5 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 A4 1 5 2 1 0 0 8 54 -6+/- 20 NA 0.1713 402.2 A4 2 5 2 3 0 0 8 54 6 +/- 26 NA 0.1713 402.2 A4 3 5 2 3 0 0 8 54 6+/- 26 NA 0.1713 402.2 A4 4 5 2 4 0 0 8 54 12+/- 28 NA 0.1713 402.2 A4 5 5 2 2 0 0 8 54 0+/- 23 NA 0.1713 402.2 A5 1 1 1 9 0 0 0 41 45 +/- 35 NA 0.1784 402.2 A5 2 1 1 7 0 0 8 41 34+/- 31 NA 0.1784 402.2 A5 3 1 1 4 0 0 8 41 17 +/- 25 NA 0.1784 402.2 A5 - 4 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.2 A5 5 1 1 4 0 0 8 41 17+/- 25 NA 0.1784 t 2.2 A6 1 1 1 1 0 0 8 41 0+/- 16 NA 0.1784
.2 A6 2 1 1 6 0 0 8 41 28 +/- 29 NA 0.1784 2.2 A6 3 1 1 4 0 0 8 41 17 +/- 25 NA 0.1784 C2.2 A6 4 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.2 A6 5 1 1 1 0 0 8 41 0+/- 16 NA 0.1784 402.2 B1 1 5 2 4 0 0 8 54 12 +/- 28 NA 0.1713 - C2.2 B1 2 1 1 0 0 0 8 41 -6+/- 11 NA 0.1784
- M8LE 402.2-3 B1 3 5 2 3 0 0 8 54 6 +/- 26 MA 0.1713
'402.2 402.2 - - ' B2' 1 1 1 0- 0 0 8 41 -6+/- 11 M 0.1784 r"7 2 82 2 5 2 3 0 0 8 54 6+/- 26 M 0.1713
().2 ; ' 82 3- 1 1 1 0 0 8 41 0 +/- 16 M 0.1784 402.2 B2 4 5 2 1 0 0 8 54 -6 +/- 20 NA 0.1713 4 02.2 '82 5 1 1 0 0 0 8 41 -6+/- 11 M 0.1784 402.2 83 1 1 1 5 0 0 8 41 22 +/- 27 H 0.1784 402.2 83 2 5 2 3 0 0 8 54 6 +/- 26 M 0.1713 402.2 83 3- 1 1 3 0 0 8 41 11 +/- 22 M 0.1784 402.2 B3 4 5 2 3 0 0 8 54 6 +/- 26 MA 0.1713 402.2 83 5 1 1 3 0 0 8 41 11 +/- 22 .M 0.1784 402.2 B4 i 5 2 2- 0 0 f. 54 0 +/- 23 NA 0.1713 402.2- 84 2 5 2 3 0 0 8 54 6 +/- 26 NA 0.1713 402.2 B4 3 5 2 3 0 0 8 54 6 +/- 26 NA 0.1713 402.2 - 84 4 '5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 84 5 5 2. 5 0 0 8 54 18 +/- 30 NA 0.1713 402.2 B5 '1 1 1 1 0 0 8 41 0 +/- 16 % 0.1784 402.2 - 85 2 1 1 1 0 0 8' 41 0 +/- 16 NA 0.1764 402.2 85 3 1 1 4 0 0 8 41 17 +/- 25 MA 0.1734
-402.2 65 4 1 1 1 0 0 8 41 0 +/- 16 .M 0.1784 402.2- 185 5 1 1 3 0 0 8 41 11 +/- 22 M 0.1784 402.2- B6 1 1 1 2 0 0 8 41- 6 +/- 19 NA 0.1784 -402.2 86 2 1 1 0 0 0 8 41 -6 +/- 11 NA 0.1784 402.2 86 3 1. I 1 0 0 8 41 0 +/- 16 M 0.1784 402.2 86 i 1 1 1 0 0 8 41 0+/- 16 NA 0.1784 402.2 B6 5 1 1 2 0 0 8 41 6 +/- 19 NA 0.1784 402.2 Cl 1 1 1 1 0 0 8 41 0+/- 16 M 0.1784 ,402.2 C1 2 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 !
(~7 2 ' C1 - 3 1 1 4 0 0 8 41 17 +/- 25 NA 0.1784 ) CJ.2 C2 1 5 2 2 0 0 8 54 0 +/- 23 H 0.1713 402.2 C2 2 1 1 1 0 0 8 41 0 +/- 16 NA 0.1784 402.2 C2 3 5 2 3 0 0 8 54 6+/- 26 NA 0.1713 402.2 C2 4 1 1 0 0 0 8 41 -6+/- 11 NA 0.1784 402.2 C2 5 5 2 3 0 0 8 54 6 +/- 26 NA 0.1713 402.2 C3 1 5 2 1 0 0 8 54 -6 +/- 20 M 0.171T 402.2 C3 2 1 1 1 0 0 8 41 0 +/- 16 NA 0.1784 ; 402.2 C3 3 5 2 3 0 0 8 54 6 +/- 26 NA 0.1713 402.2 03 4 1 1 1 0 0 8 41 0 +/- 16 NA 0.1784 402.2 C3 5 5 2 1 0 0 8 54 -6 +/- 20 NA 0.1713 402.2 C4 1 5 2 4 0 0 8 54 12 +/- 28 NA 0.1713 402.2 C4 2 5 2 2 0 0 8 54 0 +/- 23 M 0.1713 402.2 C4 3 5 2 1 0 0 8 54 -6+/- 20 NA 0.1713 402.2 04 4 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 C4 5 5 2 1 0 0 8 54 -6 +/- 20 NA 0.1713 402.2 C5 1 1 1 0 0 0 8 41 -6+/- 11 NA 0.1784 402.2 C5 2 1 1 1 0 0 8 41 0 +/- 16 M 0.1784 402.2 C5 3 1 1 2 0 0 8 41 6+/- 19 'M 0.1784 402.2 G 4 1 1 4 0 0 8 41 17 +/- 25 NA 0.1784 ! 402.2- C5 5 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 j 402.2 C6 1 1 1 1 0 0 8 41 0+/- 16 NA 0.1784 : 402.2 'C6 2. I 1 3 0 0. 8 41 !! +/- 22 NA 0.1784 ) 402.2 C6 3 1 1 -6 0- 0 8 41 28 +/- 29 .H 0.1784 1 402.2- C6 4 -1 1 2 0 0 8 4! 6+/- 19 NA 0.1784 l 2.2 C6 5 1 1 3 0 0 8 41 11+/- 22 NA 0.1784
.2 01 1 -5 2 1 0 0 8 54 -6 +/- 20 M 0.1713 2.2 01 2 1 'l 3 0 0 8 41 11 +/- 22 H 0.1)W ,
4 02.2 . 02 - 1 1- 1 4- 0 0 8 41 17 +/- 25 NA 0.1784 ~
)
402.2 02 .2 5 _2 0 0 0 8 54 -12 +/- 16 M 0.1713 402.2 02' 3 1 1 1 0 0 8 41 0+/- 16 NA- 0.1784 I i
-402.2 03 1 != 1 4. 0 0 8 41 17+/--25_ M 0.1784
C8tt402.2-3 402.2- 03 2 5 2 0 0 0 8 54 -12 +/- 16 NA 0.1713 . 402.2 03' 3 1 1 1 0 0 8 41 0 +/- 16 NA 0.1784 2.2- 04 'l 5 2 ~0 0 0 8 54 -12+/- 16 NA' O.1713
.2 04 2 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713.
402.2 04- 3 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 05 1 5 2 1 0 0 8 54 -6+/- 20 NA 0.1713 402.2 05- 2- 5- 2 1 0 0 8 54 -6+/- 20 NA 0.1713 402.2 05 3 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 D5 4 5 2 2 0 0 8 54 0 +/- 23 NA 0.1713 402.2 05 5 5 2 2 0 0 8 54- 0 +/- 23 NA 0.1713 402.2 D6 1 1 1 1 0 0 8 41 (+/- 16 NA 0.1784 402.2 06 2 1 1 5 0- 0 8 41 2. +/- 27 NA 0.1784 402.2 06 3 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.2 D6 4 1 1 6 0 0 8 41 28 +/- 29 NA 0.1784
-402.2 06 5 1 1 8 0 0 8 41 39+/- 33 NA 0.1784 402.2 El 1 1 0 4 0 0 8 15 22 +/- 22 NA 0.1784 402.2- E2 1 1 0 7 0 0 8 15 39 +/- 29 NA 0.1784 402.2 E2 2 1 0 7 0 0 8 15 39 +/- 29 NA 0.1784
+ 402.2 E2 3 1 0 6 0 0 8 15 34+/- 27 NA 0.1784 402.2 E2 .4 1 0 10 0 0 8 15 56 +/- 35 NA 0.1784 402.2 E2 5 1 0 6 0 0 8 15 34+/- 27 NA 0.1784 402.2 E3 1 11 ~0 6 0 0 8 17 3B +/- 30 NA 0.1595 ; 402.2 E3 2 11 0 7 0 0 8 17 44+/- 33 NA 0.1595 402.2 E3 3 !! 0 1 0 0 8 17 6+/- 12 NA 0.1595 402.2 E3 4 11 0 3 0 0 8 17 19 +/- 21 NA 0.1595 402.2 E3 5 11 0 3 0 0 8 17 19 +/- 21 NA 0.1595 402.2 E4 1 11 0 6 0 0 8 17 38 +/- 30 NA 0.1595 402.2 E4 2 11 0 8 0 0 8 17 50 +/- 35 NA 0.1595 F2.2 E4 3 11 0 12 0 0 8 17 75 +/- 43 NA 0.1595 U .2 F1 1 1 0 4 0 0 8 15 22 +/- 22 NA 0.1784 402.2 Fl 2 1 0 6 0 0 8 15 34+/- 27 NA 0.1784 402.2 fl 3 1 0 4 0 0 8 15 22 +/- 22 NA 0.1784 402.2 F1 4 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.2 F2 .1 1 0 10 0 0 8 15 56+/- 35 MA 0.1784
)
j 402.2 F2 2 1 0 5 0 0 8 15 28 +/- 25 NA 0.1784 l 402.2 F2 3 1 0 6 0 0 S 15 34+/- 27 NA 0.1784 402.2 F2 4 1 0 7 0 0 8 15 39 +/- 29 NA 0.1784 402.2 F2 5 1 0 6 0 0 8 15 34+/- 27 NA 0.1784 402.2 F3 1 11 0 3 0 0 8 17 19 +/- 21 NA 0.1595 402.2 F3 2 11 0 3 0 0 8 17 19 +/- 21 NA 0.1595 402.2 F3 3 11 0 6 0 0 8 17 38 +/- 30 NA 0.1595 402.2 F3 4 11 0 2 0 0 8 17 13 +/- 17 NA 0.1595 402.2 F3 $ !! 0 9 0 0 8 17 56+/- 37 NA 0.1595 402.2 F4 1 11 0 11 0 0 8 17 69 +/- 41 NA 0.1595 i 402.2 F4 2 11 0 8 0 0 8 17 50+/- 35 NA 0.1595 402.2 F4 3 11 0 5 0 0 8 17 31+/- 27 NA 0.1595 ) 402.2 F4 4' 11 0 7 0 0 8 17 44+/- 33 NA 0.1595 I 402.2 F4 5 11 0 8 0 0 8 17 50+/- 35 NA 0.1595 402.2 G1 1 1 0 4- 0 0 8 15 ' 22 +/- 22 NA 0.1784-402.2 G1 2 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.2 G1 3 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 1 402.2 ' Gl ' 4 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 l 402.2 G2 -1 1 0 9 0 0 8 15 50 +/- 33 NA 0.1784 i
.2 G2 2 1 0 8 0 ~0 8 15 45t/- 31 NA 0.1784 .2 G2 3_ 1 0 7 0 0 8 15 39 +/- 29 NA 0.1784 2.2 _ G2 4 1 0 5 0 0 8 15 28 +/- 25 NA 0.1784 '402.2 G2 5 1 0 7 0 0 8 15 39 +/- 29 NA 0.1784 402.2 G3 1 !! 0 2 0- 0 8 17 13+/- 17 NA 0.1595 'AA2.2 G3 2- 11 0 3 '0 0 8 17 19 +/- 21 NA 0.1595 402.2 13 3 !! 0 7 .0 0 8 17 44+/- 33 NA 0.1595 l
C8LE402.2-31 ' q-
'c 402;2 - G3 . 4 11 0 3 0 0 8 17 19 +/- 21 NA 0.1595- -402.2 .63 5 !! ' 0 3 0 0 8 17 19 +/- 21 NA' O.1595. !
- 7'i2.2 - 64 1 .11 0- 11 0 0 8 17 69 +/- 41 NA . 0.1595
( ,'2.2; G4 - 12 !! 0- 6 'O 0 8 17 38+/ M 0.1595 ( 402.2 - 64 '3 11 0 6 0 0 8 17 38 +/- 30 M 0.1595' 402.2' : G4 4 11 '0- 5 0 0 8 17 31+/--27 NA 0.1595 402.2 G4 5 69+/- 41 402.2' HI 11 0 11
'3-0 0 0-8 17 NA M
0.1595 ( 1 1 0 0 8 15 17 +/- 19 0.1784 r 402.2- Jdi , 2 'l- 0 '6 0 0 8 '15. 34 +/- 27 H 0.1784 , 402.2 HI 3 '1 .0 3 0 0 8 15 17 +/- 19 M 0.1784 402.2 Hi 4 1 0 3 0 0 8 ' 15 17 +/- 19 M 0.1784- j 402.2 H2 1 .1 0 '4 0 0 8 15 22 +/- 22 M 0.1784 402.2 - H2 2- 1 0 3 0 0 8 15 17 +/- 19 NA 0.1784 402.2- . H2 3 1 0 0 0 0 8 15 0+/- 0 NA -0.1784 402.2 H2 -4. 1 0 3 0 0 8 15 17 +/- 19 M 0.1784 , 402.2 H2 5- 1 0 1' O 0 8 15 6 +/- 11 M 0.1784- , 402.2- .H3 1 11 0 5 0 0 8 17 31 +/- 27 NA 0.1595 402.2 H3 2 11 0- 3 0 0 8_ 17 19 +/- 21 M 0.1595 402.2 H3 3 11' 0 3 0 0 8 17 19+/- 21 M 0.1595 402.2- H3 '4 ~ 11 0 4 0 0 8 17 25 +/ 25 M 0.1595 402.2 : H3 5 !! 0 4 0 0 8 17 25 +/- 25 M 0.1595 402.2' H4 1 'll 0 5 0 0 8 17 31 +/- 27 M 0.1595 402.2 H4 2 11 0 9 0 0 .8 17 56+/- 37 H 0.1595 402.2 H4. 3 11 0 6 0 0 8 17 38 +/- 10 M 0.1595 i 402.2 H4 ~4 11 0 5 0 0 8 17 31 +/- 27 M 0.1595 402.2 H4 5 11 0 8 0 0 8 17 50 +/- 35 M 0.1595
.402.2 !!' 1 1 0 3 0 0 8 15 17+/- 19 M 0.1784 402.2 !!' 2 1 0 5 0 0 8 15 28+/- 25 M 0.1784 .(~^*).2 Il 3 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 L 2.2 11 4 1 0 2 0 0 8 15 11 +/- 16 NA 0.1784 402.2 12 1 1 0 3 0 0 8 15 17+/- 19 M 0.1784 402.2 -12 2 1 0 2- 0 0 8 15 11 +/- 16 H 0.1784 402.2 12 3 1 0 3 0 0 8 15 17+/- 19 NA 0.17' 4 t 402.2 '
12 4 1 0 5 0 0 8 15 28 +/- 25 M 4~*, 402.2 12 5 1 0 7 0 0 8 15 39 +/- 29 M 4784 402.2 13 1 11 0 4 0 0 8 17 25 +/- 25 M 595 : 402.2 !3 2 11 0 0 0 0 8 17 0+/- 0 NA 1595 402.2 13 3 !! 0 4 0 0 8 17 25 +/- 25 M o.1595 402.2 13 4 11 0 1 0 0 8 17 6 +/- 12 M 0.1595 . 402.2 13 5 11 0 5 0 0 8 17 31 +/- 27 M 0.1595
+
402.2 14 1 !! 0 9- 0 0 8 17 56 +/- 37 M 0.1595 > 402.2 14 2 11 0 7 0 0 8 17 44+/- 33 H 0.1595 402.2 14 3 11 0 3 0 0 8 17 19 +/- 21 M 0.1595 -
'402.2 14- 4 11 0 3 0 0 .8 17 19 +/- 21 M 0.1595-402.2 14 -5 - 11 0 8 0- 0 8 17 50 +/- 35 M 0.1595 t
4 a '
;O !
- i l
I l CINTICHEN FINAL STATUS SURVEY PLAN AND REPORT .l
? .The-402.3 survey. unit. was suryeyed248 ondirect an af fected area basis and.
beta / alpha surface 'i has . a surface area of 3 6. m . .
. contamination measurement .locat ions were 'placed 'in this area using
- . 5-readings per 1m by.-1m grid.- ~0ne reading was taken at
- the center; ;
i o f Lt he ? grid --.and four each at the midpoint.between ther. center and j the corners 'of- the : grid. 5 2 . gamma exposure rate . measurement- 1 locations were placed. in this area using a i m --' by ' 1 m grid. . In l addition 'a .100% scan was performed. in each Im by im gridtlocation.
.l Thez locat ion of these measurements is 'shown in the accompanying -j map. . ;
I :e Measurement an'd sampling results; for the 402.3 survey unit are
-provided"in-3? attached tables:as follows:
- Table-402.3-l' Ramp to Building.3 - Topside gamma-exposure rate data-Table 402.3-2 Ramp to I Building 3 - Topside l direct beta / gamma' surface contamination data
] . Table' 402. 3-3 Ramp.to Building 3 - Topside i direct alpha-surface contamination data !
j- [
.V H
i 4 i
'A -.
u ' ' SECTION 14; I C A ,
+
- 6
.+. +.- --
~ .: N A _ SU3VEY vi A 3 ~~~
C E x C 3 E ~~ E RAV3 _ 3_ J ' G :4 3 UIf: 3 402.3 & 602.5 ASPHALT RDADVAY ASPHALT ROADVAY D. C B A A B C D I i 1 1 1 1 1 I I l e e l l l l l i I I I I 3 3 i l 4 l 4 y NORTH i i s s i I
'~
- : +
l 1 6 6 l l 1 ! ! 1 1 1 7 7 I I I I I I 8 8 l l l l 9 l l 9 i l ' [
~
l' l 10 10 l I I 11 11 1 I i r: CONCRETE i r: CONCRETE i CURB 12 l l CURB I 12 i I i REV- /8/97A TOPSIDE UNDERSIDE 1. GS/3130
v
'A CINTICHEN FINAL STATUS SURVEY PLAN AND REPORT /%
NA AREA 402.3-Meas. Type: Gamma Exposure Direct Direct Rate (a). Beta (b) Alpha (b) Uniis uRem/hr. dpm/ dpe/ 100 cm2 100 cm2 MDA 2 432 57 Number of Meas: 52 248 248 cc===============================____=_=======_____-- . - _ - - - _ _ _ _ - - ===--u-Survey Unit Mean: 2.1 269 20
'True Mean;U alpha 95% C.L.: 2.4 289 22-Criteria 5 1273 5000 Acceptable Y/N Y Y Y ce==========================-- -- ==___--- ________=-- --- - ===-- =--=
Max Orid Block Wt. Mean. 5 994 91
) /3 Criteria 10 1273 5000 Q Acceptable Y/N Y Y Y 3c==============================------- ==-------- r==- -- -
________t Max. Hot' Spot ~ Scans NONE NONE NONE I (offected areas only) l Criteria ' NA NA NA Acceptable Y/N. NA NA NA
=a=========================================-- r===================----- .(n) With a mean site background of 6 uRem/hr subtracted
. (b) Without subtraction of radioactivity due to natural radioactive material . . content ! 1 4 4 1
%)
1 k n'
y L ' IFETABLE 402.3-h - fh'/'k CINTICMEM'DECOMMIS$10NING' PLAN 06/04/97 I') - FINAL SURVEY DATA SHEET-U- DATAFORAFFECTEDAREAO!SCRIPi!0N:
. RAMP TO BLDG 3 - TOPSIDE a -AREA 402.3FORuR/HR' '
I
' RA0!Ai!0NTYPE:'GAMMASURVEYINUREM/HR COMPLE110M-DATE:12/04/96 f!CHNICIANS:. RN/PG MATIR!ALCODE ' AREA: . - 402.0 l: CONCRETE 5: PLASTIC UNii: -402.3' :2: ROCK. 6:S0!L vi; . MEDIA TYPE: CONCRETE 3:N000 7:ASPHAll W IofPOINTS: ' 52 - 4: METAL.. 'a:0THER(SPECIFY):
7d NO MATERIAL BACRGROUND USED- , f\; N . KlCR0 P.EN U PERHOUR: LIMIT
' MAX: 5.00 PASS 10 ^
AVG: 2.08 PASS -5 STD X: 1,38 MU SU8 ALPHA: 2.40 FASS- 5 MATER - INST. AREA AREA IAL NET
+
1 LRIO POINT' 10 l' BRG READING CODE UREM/HR i UREM/HR UREM/HR ~ 402.3 A0 A 6 6 8 0 402.3 Al A 6 8 8- 2 402.3. A2 A 6 8 8 2 402.3 A3 A- 6 7 8 1 , 402.3 A4 A 6 6 8 0 402.3 A5 A- 6 7 8 1
'402.3 A6 A 6- 9 8 3 '402.3 A7 A 6 10 8 4 402.3' A8 A.- 6 7 8 1 402.3 A9 A 6 7- '8 1 402.3 .A10- A 6 8 8 2 402.3 All A 6 10 8 :4 402.3 A12 A' 6 '8 8 2 402.3 80 .A 6 7 8 1 402.3 91 A- 6- 6 8 0 '
402.3- l 82 A- 6 7- 8 1
- 402.3- - 83 A 6 6 8 0
'402.3- . 84 - A- 6 9 8 3 '402.3 85 m 'A 6- 10 8. 4 -402.3: _ 86 - A. 8 8- 2- -402.3 87 : A' -61 6 8 0 402.3 88 A7 16- 7 8 1 3 402.3 89- .A'- .6 7 8 l' .r"].3 . :810; At .6 6 8 0 LJ. 3 . ' '811 4 6 6- 8 0.
402,3l $12 A~ 6 9 8 3
~4 02.3 ' ' C0 x :A: -6 8 8 2 ?402.3= ' Cl >: A' :6- 10 - 8 4- .402.3> C2 ; J A ': .6' 10 8 4-J402.3' ,03 A .:' 6: .8 8: 2
m ._ _ .
- 2. f'- . .
. ,, y '.
- nKE C2;3 y -
9' , , 02.3- '
.C4 . ' A :- 6 .10 8 ~4 . C2.3 C5t 'A- 8- 8 .2' '
f f~'2.3 : C6 L lA 6' ' 10 ' 8 t ! U.\i!.3 - C7 ^A- ~6 .- 8. :8 i . 402.3_ 08: 'AL 6 10e 8 .4 1 i
-402.3 '
- C9 - A- '6 7 8 l '.
_402.31 C10: "A 8 -8 2. f'
< 1402.3_: Cl! . AL 6 '- 7 8' !~ , '402.3: ;Cl2 , 'A .6
- 10 8- 4 l
' 402.3 ' 00 -A 6 8' 8' 2 .!
402.3 - D1 'A 6- '9- .8 '3 ! i402.3 : D2 " .A '6' 11 8 -5
'I E402.3t D3' 'A 6- '8 8 :2' > '402.3' 04 A. 6. 9 8 3 j
402,,3 ' ' D51 A- 6 8 8 '2 l 402.3 06 ? A- :6; 110 18 4 .;
- 402.3 -: : 07 : 'A 6~ ~8 8' .2 i
.402.3" - D8 - A -: 6 8- '8 2 !
1 402.3-.- - 09 : A 6 6 8 0. -i
- 40'i.3 :- '
'.DIO .A 6 9 -8 3 i 402.3 -: - .! Dil ? A 6 9. 8' 3 ;
J402.3 .012- :A 6 8 8 2 ;
; j ,= q '. r j
i t i O l 1 i i 1 t I I I e . . , t g J t ( :
,,'N~ '
. . p' f: , , j
';"(:i r i . . . . .. .. ,., , , . . . , . - . . u..... - _ . - _ . - - . ,_. !
WFTA8tt402.3-2l
.)
4 CINTICHEMDECOMMISSIONINGPLAN 06/04/97 f/ 7 FINAL SURVil DATA SHEET' ' D DATA FOR AffECTED AREA DESCRIPi!0N: I
, ; RAMP TO BLDG 3 - TOPSIDE-1 f ARIA 402.3 FOR BETA ']
7 RADIATIONTYPE: .1 BETA SCALING FACTOR : 0.975- 2 COMPLEi!ON DATE 12/04/96 TECb!CIANS: RWiPG MATERIALCODE
' AREA: 402.0: 1:00NCRETE 5: PLASTIC ' UNIT: 402.3 2: ROCK- ~6:$0!L MEDIATYPE: CONCRETE 3:N000 7:ASPHAli' IofPO!NTS: '248 4: METAL 8:0THER(SPECIFY):
CT IN MINUTES; 1: NO MATERIAL 8ACKGROUND USED . OPM/100CM'2'
' REM.+ FIXED: LIMIT ' MAX FOR IND GRID 994 PASS 1273 AVG'- SURVEY UNif 269 PA35 1273
- q. . STD X ~ 187
' MU SUB ALPHA '289 PASS' 1273' MAX HOT SPOT NONE PASS 3818 N!!GriTED BETA BETA SCAN. TOTAL AVG. . GRID INST. FIXED MAX CONT. MATER- BETA MAX C00RIDINATES. INST. AREACOUNTS/ BETA AREA IAL MDA FIXED PER INST EFF.
I GRID ID LOCATION ID I BKG 1 COUNTS 'CM'2 'C0E OPM/- DPM/ AVG 100 MAX CPM /DPM CPM MINUTES 100 CM'2 100 CM'2 TEST CM'2 TEST 402.3 A0 1 4 360 404 0 0 8 400 194+/-238 NA 0.2332
'402.3 A0 2 4 360 364 0 0 8 400 18+/-232 NA 0.2332 402.3 Al 1 4= 360 391 0 0. 8 400 136+/-236 NA 0.2332 402.3 Al 2 4 360 415 0 0 8 400 242+/-240 NA 0.2332 402.3 At 3 4 360 360 0 0 8 400 0+/-231 NA 0.2332 402.3 At 4 4 360 426 0 0 8 400 290+/-242 NA 0.2332 402.3' At 5 4 360 361 0 0 8 400 4+/-231 NA 0.2332 402.3 A2 1 4 360 387 0 0 8 400 !!9+/-236 NA 0.2332 ,
402.3 A2 2 4 360 382 0 0 8 400 97+/-235 NA 0.2332 402.3 A2 3 4 360 385 0 0 8 400 110+/-235 NA 'O.2332 402.3 A2 . 4 4 360 425 0 0 8 400 286+/-242 NA 0.2332 402.3 A2 5 4 360 415 0 0 8 400 242+/-240 NA 0.2332 402.3 A3 1 4 360- 419 0 0 8 400 259+/-241 NA 0.2332 402.3 A3 2 4 360 411 0 0 8 400 224+/-239 NA 0.2332 402.3~ A3 3 4 ~360 418 0. 0 8 400 255+/-240 NA 0.2332 402.3- A3 4 4 360 453 0 0 8 400 409+/-246 NA 0.2332
'402.3 - A3 -$ 4 360 380 0 0 8 400 88+/-234 NA 0.2332 402.3 A4 1- 4 360- 391 0' 0 8 400 136+/-236 NA 0.2332 "402.3 : A4 2 4 360 393 0. 0 8 400 145+/-237 NA 0.2332 .402.3 . A4 :3 4- 360 445- 0- 0 8 400 374+/-245 NA 0.2332 402.3~ - A4 - 4 4 -- 360 429 0 0 8 400 303+/-242 NA 0.2332 402.3 . A4.1 5 4 360- 405 0 0 8 400 198+/-238 NA 0.2332 '
402.3- - A5 1 4; 360 446 0 0 8 400 378+/-245 ' NA 0.2332 7~7.3 : A5 ' 2 4 360 434 :0 0 8 400 325+/-243 NA- 0.2332
' U,3 - ' A5 3 4 360 404 0~ 0 8 400 194+/-238 NA 0.2332 - 402.3 : A5 - 4 .4 360 374 0 0 8 400 62+/-234 NA . 0.2332 . C 2.3 : A5 5 4- 360: 389 0 0 8 400 128+/-236 NA 0.2332 ~402.3' A6 1- '4 360 409- 0 0 8- 400 216t/-239 NA 0.2332 1,'.2.3 t ~A f 2 i4 '360. 406 0 0' '8 400 202+/-239 . NA 0.2332 402.3 1 A6 '3 4- :360 372 0 0 8 :400- 53 +/- 233 . MA 0.2332~
;C8tt 402.3 2 -402.3 : A6 4- 4 360 ~428 0 0 8 400 299+/-242 NA 0.2332 .
402.3 'A6 5 ~4 360 404 0 0 8 400 194+/-238 NA 0.2332 O 2.3 A7 1 4 -360 443 0. 0 8 400 365 +/ 244 NA 'O.2332
.b2.3 ' A7 2 4 '360 394 0 0 8 400 150+/-237 NA 0.2332 I 402.3 A7 -3 4 360 384 0 0 8 400 106+/-235 NA 0.2332 402.3 A7 4 4 ' 360 404 .0 0 8 400 194+/-238 NA 0.2332 402.3- . A7 - 5- 4 360 400 0- 0 8 400 176+/-238 NA 0.2332
,- 402.3 A8 1 4 360 480- 0 0 8 400 528+/-250 MA 0.2332 402.3' A8 2. 4 360 442 0 0 8 400 361+/-244- NA 0.2332
~ .402.3 A8 3 4 360 428 0 0~ 8 400 .299+/-242 NA 0.2332 402.3 A8 4 14- 360 465 0 0 8 400 462+/-248 NA 0.2332 402.3 AB 5 4 360 416 0 0 8 400 246+/-240 NA 0.2332-402.3 A9 .1 4 360 458 0 0 8 400- 431+/-247 NA 0.2332 402.3 A9 2- 4 360 426 0 0 8 400 290+/-242 NA 0.2332 402.3 A9 3 4 360- 394 0 0 8 400 150 +/- 237 NA' O.2332 -402.3 A9 4 4 360 389 0 0 8 400 128+/-236 NA 0.2332 402.3' A9 5 4 360 422 0 0 8 400 273+/-241 NA 0.2332 402.3 .A10 361+/-244 1 4 360 442 0 0 8 400 NA 0.2332 402.3 A10 2 4 360 434 0 0 8 400 325+/-243 NA 0.2332 402.3 A10 3 4 360 442 0 0 8 400 361+/-244 NA 0.2332 402.3 f A10 -- 4 4 360 483 0 0 8 400 541+/-250 NA 0.2332 402.1 A10 5- 4 360 396- 0 0 8 400 158+/-237 NA 0.2332
, 402.3' All- 1 4 360 447 0 0 8 400 383+/-245 NA 0.2332 402.3 All ~2 4 360 424- 0 0 8 400 281+/-241 NA 0.2332
.402.3. All 3 4 360 395 0 0 8 400 154+/-237 NA 0.2332 l 402.3 All- 4 4 360 455 0 0 8 400' 418+/-246 NA 0.2332 402.3 All 5 4 360 440 0 0 8 400 352+/-244 NA 0.2332 j A12 1 4 360 406 0 0 8 400 202+/-239 NA 0.2332 I (402.3)2.3 (02.3 A12 A12 2
3 4 4 360 360 421 450 0 0 0 0 8 8 400 400 268+/-241 396+/-245 NA NA 0.2332 0.2332
-402.3 A12 4 4 360 410 0 0 8 400 220+/-239 NA 0.2332 402.3 A12 - 5 4 360 425 0 0 8 400 286+/-242 NA 0.2332 402.3 B0 1 2 366 401 0 0 8 361 138+/-213 NA 0.2608 402.3 80 '2 2 366 386 0 0 8 361 79+/-211 NA 0.2608 ,
402.3 . B1 1 2 366 344 0 0 8 361 -87+/-205 NA 0.2608 I
.402.3 81 2 2 366 382 0 0 8 361 63+/-211 NA 0.2(08 402.3- 81 3- 2 366 407 0 0 8 361 161+/-214 KA 0.2608 402.3 81 4 2 366 409 0 0 8 361 169+/-215 NA 0.2606 402.3 61 5 2 366 433 0 0 8 361 263+/-218 NA 0.2608 i 402.3 B2 1 2 366 438 0 0 8 361 283+/-219 NA 0.2608 1 402.3 B2 2 2 366- 366 0 0 8 361 79+/-211 NA 0.2608 -402.3 B2. 3 2 366 434 0 0 8 361 267 +/ 218 NA 0.2608 ; .402.3 B2 4 2 366 383 0 0 8 361 67+/-211 NA 0.2608 I -402.3 82 5 2 366 397 0 0 8 361- 122+/-213 NA 0.2608 402,3- '366.
B3 1 2 393 0 0 8 361 106+/-212 NA 0.2608
-402.3 B3 2 2 366- 43! 0 0 8. 361 256+/-218 NA 0.2608 "402.3 B3 ' 3 2 366 430 -0 0 8 361 252t/-217 . NA 0.2608 ;
402.3 .83 - 4 2 366 -413 0 0 8 361 185+/-215- NA 0.2608
'402.3 83 .5- 2 366 386 0 .0 8 361 79 i/- 211 NA 0.2608 402.3 B4 1 2 366 460 0 0 8 361 .370 +/- 222 NA 0.2608 '402.3 B4 - 2 2 366 459 0 0 8 361 366+/-221 NA 0.2608 402.3 84, 3 366 444- 0-2 0 8 361 307+/-219 NA 0.2608 402.3 84 4 2 366 -415' 0 0 8 361 193+/-215 NA 0.2608 ~ r*L 3 84 5' 2 366 396 0 0 8 361 118+/-213 NA 0.2608 b2.3 B5. 1 2 366 430- 0 0 '8 361 252+/-217 NA- 0.2608 402.3: 85 2 2 366 .427- 0' 0 8 361 240+/'217 NA 0.2608 -402.3 : 85 3 '2 366 464 0 0 .8 361 385+/-222 NA 0.2608 402.3 85 g 4 -- 2 366 451 0 0 8 361 334+/-220 NA - 0.2608 402.3 05 . 5: 2- 366~ 368 0 0 8 361 8+/-209 NA 0.2608 ,
- 402.3 86. . 1 2 366 467, 0 0 8; 361 397+/-222' NA 0.2608 i
' f CILE 402.3-2 , 402.3 : : 86 .? 2 366' 405 0 0 8 '361- _153+/-214 NA 0.2608
- ~- 402.3- 86 - 3 2. 366 402 0 0' 8 361 142+/-214 NA 0.2608 4- Q2.3 - ~ 86 4 2 366 453 0 0 8 361 342+/-221 NA 0.2608 i i M02.3 - 86 c 5 2 366 412 0 0 '8 ~361 181+/-215 NA 0.2608 l 402.3 87 ' 1- 2 366 438 0 0 8 361 283+/-219 NA 0.2608 402.3 ' 87 l 2 2' 366 422 0 0 8 361 220+/-216 NA 0.2608 402.3 .87 3. 2 366 435 0 ~0 8 361 271+/-218 NA 0.2608 402.3l 87 4 2 366 445 0 0 8 361: 311+/-220 NA 0.2608
- 402.3.. .87 '$ 2- 366- 406- 0 0_ '8 361 157+/-214 NA 0.2608-
.402.3 : 88 .1 -2 366 444' 0 0' 8 361 .307+/-219 NA ' O.2608 !
402.3 88 2 2 366 444 0 0- 8 361 ~307+/-219 NA 0.2608
, 402.3c 88 3 2 366 402- 0 0' 8 361 142+/-214' NA 0.2608- 1 ~402.3 165+/-214 402.3 88 4 5'
2 366 408 0 0 8 361 NA y .0.2608 {' ~ 88 : 2 366 431 0 0 8 361 256+/-218 NA 0.2608 - ) c 402.3- ' 89 - 1 2' 366 418 0 0 8 361 204+/-216 NA 'O.2608 l 402.3 89' 2 2~ 366 414 0 0 8 361' .189+/-215 NA 0.2608 3 402.3 89 3 2 366 452 0 0 8 361- 338+/-220 NA. 0.2608 402.3 '89 4 2 366 d36 0 0 8 ' 361 275+/-218 NA 0.2608 402.3: .89- 5 2 366 417 0 0 8 361 20l+/-216 NA 0.2608 -! l~ = 402.3 : 810 1 2 366 483 .0 0 8 361 460+/-225 NA ' O.2608 . . 402.3. 810 2 2 366 424 0 0 :8 361 228+/-217 NA 0.2608 ! 402.31 810 3 2 366 418 0 0 8 361 _204+/-216 NA 0.2608 l -402.3- = 810 4 2 366 407 0 0 8 361 161+/-214 NA 0.2608 402.3 _810 5- 366 449 0 0 8 361 326+/-220 NA 0.2608 I 402.3 811 1 2 366 402 0 0 8- 361 142+/-2'4 NA 0.2608 i
'402.3- Bil 2 2 366 .403 0 0 8 361 146+/-214 NA 0.2608 L -402.3 811 3 2' 366 426 0 0 8 361 236+/-217 NA 0.2608 i 2.3 811 4 2 366 447 0 0 8 361 319+/-220 NA 0.2608 2.3 - 811 5 2 366 415 0 0 8 361 193+/-215 NA 0.2608 ,
02.3 812 1 2 366 414 0 0 8 361 189+/-215 NA 0.2608 402.3 812 2 2 366 391 0 0 8' 361 98+/-212 NA 0.2608 l 402.3 812 3 2 366 403 0 0 8 361 146+/-214 NA 0.2608 402.3 812 4 2 366 422 0 0 8 361 220+/-216 NA 0.2608
-402.3 812 5 2 366 406 0 0 8- 361 157+/-214 NA 0.2608 ,
402.3 C0 1 10 440 505 0 0 8 432 280+/-260 NA 0.2379 402.3 C0 2 10 440 407 0 0 8 432 -142+/-246 NA 0.2379 402.3 Cl 1 10 440 410 0 0 8 432 -129+/-246 NA ~ 0.2379 j 402.3 C1 2 - 10 440 423 0 0 8 432 -73+/-248 NA 0.2379 , , 402.3. Cl 3 10 440 425 0 0 8 432 -65+/-249 NA 0.2379 402.3 C1 4 10 440 457 0 0 8 432 73+/-253 NA 0.2379 4 402.3' C1 5 10 440 486 0 0 8 432 198+/-257 NA 0.2379 402.3 C2 1 10 - 440 468 0 0 8 432 121+/-255 NA 0.2379
- .402.3 C2 2_ 10 440 509 0 0 8 432 297+/-260 NA .0.2379 L 402.3- 02 3 10 440 472 0 0 8 432 138+/-255 NA 0.2379 402.31 02 '
4 10 440 450 0 0 8 432 _43+/-252 NA 0.2379
-402.3 C2 5 10 440 509 0 0 8 432 297+/-260 MA 0.2379
. 402.3= C3 1 10 440 ~ 491' 0 0 8 432 220 +/ 258 NA 0.2379 402.3' C3 2 10 440. 462 -0 0' 8 432 95+/-254 NA 0.2379 : 402.3-- .C3 3 - 10 440 495 0 0. 8 -432 237+/-258 NA 0.2379 l 402.5- C3' 4 to 440 513 0~ 0 8. 432 315+/-261 NA 0.2379 402.3 C3 5 10 440 502 0 0 8 432 267+/-259 NA 0.2379
'402.3- 04 -1 10 = 440 465 0- 0 8 432 108+/-254 NA 0.2379 402.3. . C4 2 10 1440 491 0 0 8 432 220+/-258- NA 'O.2379~
2.3 - [A3
, \_.
402.3 C4-
' C4 .
C4 - ~5 3 4
-10 10 10.
440 440' 500 440. 483 0-0 0 0- 8 8 432 432 185+/-257 259+/-259 NA NA 0.2379 0.2379 528 0 0 8 432 379+/-263 NA 0.2319 402.3- . C5 -1 10 440= 458 0 0 8 432 78+/-253 NA 0.2379
'402.3- C5 ~2 10 440 474 0- 0 .8 '432 147+/-255 - NA 0.2379 < ;402.3< ' C5 4 3' l 10 - 440 :462' 0. 0- 8 432- 95 +/ 254 - NA .0.2379 -
- .402.3' C5:' 4< ' 10 ' 440; 526 0 0' 8 432 '371+/-263 NA 0.2379
< I
CBLE 402.3-2
]
402.3- C5 5- 10 - 440 471 0 0 8 432 134+/-255 NA 0.2379 402.3 C6 1 10 440 442 =0- 0 8 432 9+/-251 NA 0.2379 C6 - 2 10 440 483 0 0 8 432 185+/-257 NA 0.2379 ( W 2.372.3 C6 3 10 440 461 0 0 8 432 91+/-254 NA 0.2379 402.3 C6 4 10 440 499 0 0 8 432 254+/-259 AA 0.2379 402.3- C6 5 10 440 451 0 0 8 432 47+/-252 NA 0.2379 402.3 C7 1 10 ' 440 479 0 0 8- 432 168t/-256 NA 0.2379 402.3 C7 2 10 440 456 0 0 8 432 69+/-253 NA 0.2379 402.3 C7 3 .10 440 421 0 0 8 432' -82+/-248 NA 0.2379 s 402.3 C7 4 10 440 446 0 '0 8 432 26+/-252 NA 0.2379 402.3' C7 5 10 440 470 0 0 8 432 129+/-255 NA 0.2379 ; 402.3 C8 1 10 440 428 0 0 8 432 -52+/-249 NA 0.2379 402.3- C8 2 10- 440 434 0 0 8 432 -26+/-250 NA 0.2379 402.3 C8 3 10 440 501 0 0 8 432 263+/-259 NA 0.2379 402.3 C8 - 4 10 440 473 0 0 8 432- 142+/-255 NA 0.2379 402.3 .C8 5 10 440 488 0 0 8 432 207+/-257 NA 0.2379 . 402.3 C9 1 10 440 434 'O- 0 8 432 -26+/-250 NA 0.2379 402.3 C9' 2 10 - 440 492 0 0 8 432. 224+/-258 NA 0.2379 402.3 C9 3 10 440 447 0 0 8 432 30*/-252 NA 0.2379 402.3 C9 4 10 440 461 0 0 8 432 91+/-254 NA 0.2379 402.3 09 5 10 '440 500 0 0 8 432 259+/-259 NA 0.2379 402.3 C10 1 10 440 441 0 0 8 432 4+/-251 NA 0.2379. 402.3 010 2 10 440 449 0 0 8 432 39+/-252 NA 0.2379 402.3 CIO 3 '10 440 446 0 0 8 432 26+/-252 NA 0.2379 402.3 010 4 10 440 481 0 0 8 432 177+/-256 NA 0.2379 402.3- C10 5 10 440 464 0 0 8 432 103+/-254 NA 0.2379 402.3 C11 1 10 440 491 0 0 8 432 220+/-258 NA 0.2379 02.3 C11 2 10 440 460 0 0 8 432- 86+/-254 NA 0.2379 1 2.3 011 3 10 440 496 0 0 8 432 241+/-259 NA 0.2379 2.3 Cil 4 10 440 490 0 0 8 432 216+/-258 NA 0.2379 , 402.3 C11 5 10 440 496 0 0 8 432 241+/-259 NA 0.2379 402.3 012 1 10 440 449 0 0 8 432 39+/-252 NA 0.2379 ) 402.3 C12 2 10 440 433 0 0 8 432 -30+/-250 NA 0.2379 i 402.3 Cl2 3 10 440 493 0 0 8 432 228+/-258 NA 0.2379 ; 402.3 C12 4 10 440 456 0 0 8 432 6f +/- 253 NA 0.2379 ; 402.3 Cl2 5 10 440 419 0 0 8 432 -91+/-248 NA 0.2379
-402.3 00 1 9 308 381 0 0 8 372 322+/-227 NA 0.2322 402.3 00 2 9 308 399 0 0 8 372 402+/-230 NA 0.2322 U2.3 Di ! 9 308 449 0 0 8 372 623+/-238 NA 0.2322 .j '402.3 D1 2 9 308 389 0 0 8 372 358+/-229 NA 0.2322 i b
402.3 01 3 9 308 410 0 0 8 372 451+/-232 NA 0.2322'
-402.3 D1 4 9 308 470 0 0 8 372 716+/-241 NA 0.2322 402.3 01 5_ 9 308 -380 0 0 8 312 318+/-227 NA 0.2322 402.3 02 ' I 9 308 461 0 0 8 372 676+/-240 NA 0.2322 402.3 ]
02 2 9 308 382 0 0 8 372 327+/-227 NA 0.2322 '
.402.3 _ D2 3 9 308 402 0 0 8 372 415.+/-231 NA 0.2322 )
402.3 02 - 4 9 308 475 0 0 8 372 738+/-242 NA 0.2322 402.3 D2 5 9 308 406 433+/-231 0 0 8 372 NA 0.2322 ) 402.3 03 1 9- 308 471 0 0 8' 372 720+/-242 NA 0.2322 402.3 03 2' 9 308 428 0 0 8 372- 530+/-235 NA -0.2322 ., 402.3 .03L 3 91 308 398 0 0 8 372 398+/-230 NA 0.2322 1 402.3 03 ~ 4 9 308 533 0. 0- 8 372 994+/-251 NA 0.2322 l 402.3 03 5 9 .308 - 383 0 0 8 372 331+/-228 NA 0.2322 f^^2.3- 04 1 9 308 457 0 0 $ '372 658+/-239 NA 0.2322 U .3 04 2 9 !308 413 0 0 8 372_ 464+/-232 NA 0.2322 402.3 04 3 9 308 401 -0 0 8 '372 411+/-231 NA 0.2322 402.3 04 4 .9 308 407~ 0 0 8 372 437+/-231 NA 0.2322 ; 402.3 04 5 .9 308 407 0 0 8 372 437+/-231 NA 0.2322 402.3- 05 1- 9 308 -396 0 0 8 372 389+/-230 NA 0.2322 402.3 05' 2 9 308 411 0 0- 8 372 455+/-232 NA 0.2322' l
. ~ CllE 402.3-2 ' l
- 402.3 - .05 .3 . 9.- 308 '407 0 0 8 '372 437+/-231 NA 0.2322 402.3 05' 4 9 308 461 0 '0 8 372' 676+/-240 NA 0.2322 i
/^i2.3 - 05 ~ 5: 9 '308 419 0 0- 8 372- 490+/-233 NA 0.2322 ,
L 02.3' 06 1 9 308 388 .0 0 8 '372 353+/-228 NA .0.2322
, 402.3 - D6 2 9 308 392 0 0 8 372 371+/-229- NA 0.2322 402.3 06 3 9 308 441 0 0 8 372 587+/-237 NA 0.2322 .l . 402.3 06 .4 - 9 308 391 0 0 8 372 367.+/-229 NA 0.2322 !
402.3-- 06' 5 -9 308 405 0 0 8 372: 428+/-231 NA 0.2322 402.3 .07 1 9 308 411 0 0 8 372 - 455+/-232 NA 0.2322
-402.3 -D7 2' -9 308- 423 0 .0 8- 372 508+/-234 NA 0.2322 , 402.3 07 3 9 308 431 0 0 8 372 543+/-235 NA 0.2322 402.3 07 4- 9 308 428 0 'O 8 372 530+/-235 NA 0.2322 402.3 07 5 9 308 400 0 0' 8 372 - 406+/-230 NA 0.2322 402.3 08 1 9 308 471 0 0 8 372' 720+/-242 NA 0.2322- )
402.3. 08' 2 9 308 358 0 0 8 372 221+/-223 NA 0.2322 . 402.3 ' 08 - 3 9 308 374 0 0- 8 372 292+/-226 NA 0.2322. 402.3 ~ 08 4 9 308 455 0 0 8 372 649+/-239 NA' O 2322 402.3 08 5 9 308 398 0 0 8 372 398+/-230 NA 0.2322 402.3 - 09 1 9 308 429 0 0 8 372 534+/-235 NA 0.2322 < 402.3 . 09 2 9 308 385 0 0 8 372 340+/-228 NA 0.2322 4 402.3- 09 3 9 308 415 0 0 8 372 473+/-233 NA 0.2322 402.3 09 4 9 308 379 0 0 8 372 314+/-227 NA 0.2322 402.3 09 5 9 308 404 0 0 8 372 424+/-231 NA 0.2322 4 402.3 010 1 9 308 494 0 0 8 372 822+/-245 NA 0.2322 ., 402.3 010 2 9 308 436 0 0 8 372 565+/-236 NA 0.2322 1 -402.3 010 3 9 308 446- 0 0 8 372 610+/-238 NA 0.2322 402.3 010 4 9 308 437 0 0 8 372 570+/-236 NA 0.2322 402.3 010 5 9 308 404 0 0 8 372 424+/-231 NA 0.2322 f h .3' 2 ' O!! l 9 308 405 0 0 8 372 428+/-231 NA 0.2322 t$2.3 O!! 2 9 308 410 0 0 8 372 451+/-232 NA 0.2322 402.3 011 3 9 308 407 0 0 8 '372 437+/-231 NA 0.2322 402.3 011 4 9 308 398 0 0 8 372 398+/-230 NA 0.2322
'402.3 O!! 5 9 308 415 0 0 8 372 473+/-233 NA 0.2322 i i 402.3 012 -9 1 308 458 0 0 8 372 663+/-240 NA 0.2322 1 -_ 402.3; 012 2 9 308 430 0 0 8 372 539+/-235 NA ' O.2322 402.3 012 3 9 308 444 0 0 8 372 601+/-237 NA 0.2322 -402.3 012 4 9 308 495 0 0 -8 372 826 +/ 245 NA 0.2322 402.3 012 5 9 308 422 0- 0- 8 372 504+/-234 NA 0.2322
- t. >
t 0 } J 1 2 4
.- - - - ,e .we. - .-, n , - g .,
~ . 4Nll [p M'tY 'KRTABLE402.'3d -
[CINTICNEMDEC0HMIS$10NINGPLAN 06/04/97-
. . FINAL SURVEY DATA SHEET k .-
LDATAFORAFFECTEDAREADESCRIPi!0N:
. . RAMP 10 8 LOG 3 - TOPSIDE AREA 402.3 FOR ALPHA ~?RA0!AT10MTYPE:_ <2 COMPLEi10N:
DATE:- ~ 12/04/96.'
- TECHNICIANS: 'RN/PG ' MATERIAL CODE' AREA:- .402.0 1 1: CONCRETE 5: PLASTIC .UNii:- i402.3 2: ROCK- 6:S0!L
, . MEDIA. TYPE:) CONCRETE '3:N000 7: ASPHALT' IofPo!NTS: '248 4: METAL 8:0THER(SPECIFY): LCi IN. MINUTES: 1 NO MATERIAL BACKGROUND USED
.0PN/100CM'2-4 REM.6 FIXED:' LIMIT .MAXFORINOGRIO~ 91 PASS 5000 IAVG-SURVEYUNii' 20 PASS 5000 STD X. 17' - MU SV8 ALPHA ~ '22 PASS 5000
. ' MAX HOT SPOT NONE PASS 15000 NEIGHTED ALPNA-ALPHA SCAN TOTAL AVG. GRIO: INST.. FIXE 0 MAX CONT. MATER- ALPNA MAX C00RIDINATES _ INST, - AREA COUNIS/ ALPHA AREA. IAL MDA FIXE 0 PER INSTEFF. 4 I GRIO 10 LOCATION- 10 i BKG '! COUNTS ~ CM'2 CODE OPM/ DPM/ AVG 100 MAX CPM /0PM , CPM MINUTES 100 CM'2 100 CM'2 TEST CM'2iEST U
'402.3 A0 1 4- 1. 3 0 0 8 57 15 +/ 30 NA 0.1296 402.3 A0 2' 4 1 1 0' 0 8- -57 0 +/- 21 NA 0.1296 '402.3 Al ! 4 1 3 0 0 8 57 15 +/- 30 NA 0.1296 402.3 LAl - 2- 4 1 5 0 0 8 - 57 31 +/- 37 NA 0.1296 '402.3 Al 3 4 1 1 0 -0 8 57 0 +/- 21 NA 0.1296'
- 402 3 . Al' 4 4 -! 4 0 0 8 57 23 +/- 34 NA 0.1296
-.402.3 At 5 4 1 3 0 0 8 - 57 15 +/- 30 NA 0.1296 402.3 A2 1 4 1 3 0 0 8 57 15 +/- 30 NA 0.1296 -402.3 A2 2. 4 1 4 0 0 8 57 23 +/- 34 NA 0.1296 402.3 ? A2 3 4 1 5 0 0 8 57 31+/- 37 NA 0.1296 E402.3' ' A2 - 4 4 1 5 0 0. 8 57 31 +/- 31 MA 0.1296 -402.3' A2 5 4' 1 1- 0 0 8 57 0 +/- 21 NA 0.1296 402.3: A3 l' 4 1 -- 1 ~0 0 8 57 0 +/ 21 NA . 0.1296' 402.3~ A3 2. 4' 1 3- 0 _0 8 . 57 ' 15 +/ 30 NA 10.1296 .1' '0 402.3 A
_3L 3 L4 5- 0 -8 57 '31 +/- 37 MA '0.1296
. 402.3 - A3 '4 l4 l' 2 0- 0 8 57 8+/-26 l NA -0.1296 '402.3. .A3 .' 5 ' '4- 1 6- 0 0 8 57 39 +/- 40 NA 0,1296 7402.3- A4 1: -44 ~ 1- '4 0i 10 8 : 57 - 23+/-34 NA :0.1296 1402.3 0+/- 21 -. A41 2 4.' l' 1 0 0 8 57 NA 0.1296
(- 402,3- A4- '3 14 1 2 : 0- 'O 8 571 8 +/ 26 NA 0.1296' " 1402.3 A4- 4 41 1 7~ 0 01 :8 57 46+/- 43' NA 10.1296 1402.3L ! A4 - -5' -4 'l '4 . 0 -' 0 8- 57 23 +/ 34 NA ~0.1296
< L402.3- *A5 L1f 4 11 4 10j 0 8 : 57 23 +/- 34 NA 0.1296' -/ 7 02.3 L A5l 23 4. -11 4 0 0 8 57 23+/--'34 NA - 0.1296 U02.3 J ;A50 3? :4 1 8 0- 0t 8 51 54+/- 45 NA . 0.1296 4 g 402.3 D A5: :4 : 4' 'l '3: ,0~ 0 .8 57e 15.+/- 30 NA 0.1296- '1442.3. A5'-- :5 4- 1 14- ;0 0' 8- - 57 23 +/ -34'- NA - 0.1296 m.402.3? A61 :1}' 14- ' l' .3 -0 0 g8~ 57 !$ +/ 30.. NA 0.1296 -402.3 A69 -
l2:; 4 -1. ' 11 0< 0' 8 .. 57 77t/- 52.. .NA .0.1296 402.3 A6 p 3- 4 l( Si 0
+ 'O. ;84 >
57 31 +/- 37 MA - 'O.1296..
.g y n-h-
CBLT402.3-3 402.3 A6 4 4 1 5 0 0 8 57 31 +/- 37 NA 0.1296 402.3 A6 5 4 1 2 0 0 8 57 8 +/- 26 NA 0.1296 (V,,1402.3 A7 1 4 1 2 0 0 8 57 8+/- 26 NA 0.1296 402.3 A7 2 4 1 5 0 0 8 57 31 +/ 37 NA 0.1296 402.3 A7 3 4 1 2 0 0 8 57 8 +/- 26 NA 0.1296 402.3 A7 4 4 1 6 0 0 8 57 39+/- 40 NA 0.1296 402.3 A7 5 4 1 4 0 0 8 57 23 +/- 34 NA 0.1296 402.3 A8 1 4 1 3 0 0 8 57 15 +/- 30 NA 0.1296 402.3 A8 2 4 1 5 0 0 8 57 31 +/- 37 NA 0.1296 402.3 A8 3 4 1 5 0 0 8 57 31 +/- 37 NA 0.1296 402.3 A8 4 4 1 12 0 0 8 57 85 +/- 55 NA 0.1296 402.3 A8 5 4 1 4 0 0 8 57 23 +/- 34 NA 0.1296 402.3 A9 1 4 1 7 0 0 8 57 46+/- 43 NA 0.1296 402.3 A9 2 4 1 2 0 0 8 57 8 +/- 26 NA 0.1296 402.3 A9 3 4 1 0 0 0 8 57 -8+/- 15 NA 0.1296 402.3 A9 4 4- 1 4 0 0 8 57 23t/- 34 NA 0.1296 402.3 A9 5 4 1 3 0 0 8 57 15 +/- 30 NA 0.1296 402.3 A10 1 4 1 6 0 0 8 57 39+/- 40 NA 0.1296
- '2.3 A10 2 4 1 3 0 0 8 57 15 +/- 30 NA 0.1296 2.3 A10 3 4 1 6 0 0 8 57 39+/- 40 NA 0.1296
.v2.3. A10 4 4 1 2 0 0 8 57 8 +/- 26 NA 0.1296 2.3 A10 5 4 1 5 0 0 8 57 31 +/- 37 NA 0.1296 2.3 All ! 4 1 8 0 0 8 57 54+/- 45 NA 0.1296 3 All 2 4 1 3 0 0 8 57 15 +/- 30 NA 0.1296 3 All 3 4 1 7 0 0 8 57 46 +/- 43 NA 0.1296 s.3 All 4 4 1 3 0 0 8 57 15 +/- 30 NA 0.1296 402.3 All 5 4 1 4 0 0 8 57 23 +/- 34 NA 0.1296 g 402.3 A12 1 4 1 4 0 0 8 57 23+/- 34 NA 0.1296 V 402.3 A12 2 4 1 2 0 0 8 57 8+/- 26 NA 0.1296 402.3 A12 3 4 1 7 0 0 8 57 46+/- 43 NA 0.1296 402.3 A12 4 4 1 4 0 0 8 57 23 +/- 34 NA 0.1296 402.3 A12 5 4 1 5 0 0 8 57 31+/- 37 NA 0.1296 402.3 80 1 2 1 2 0 0 8 44 6+/- 20 NA 0.1685 402.3 80 2 2 1 1 0 0 8 44 0+/- 16 NA 0.1685 402.3 81 1 2 1 '2 0 0 8 44 6+/- 20 NA 0.1685 402.3 81 2 2 1 5 0 0 8 44 24+/- 28 NA 0.1685 402.3 81 3 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3 81 4 2 1 2 0 0 8 44 6 +/- 20 NA 0.1695 402.3 81 5 2 1 9 0 0 8 44 47+/- 37 NA 0.1685 402.3 82 1 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3 82 2 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 1 402.3 82 3 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3 82 4 2 1 6 0 0 8 44 30 +/- 31 NA 0.1685 j
402.3 82 5 2 1 1 0 0 8 44 0 +/- 16 NA 0.1685 1 402,3 83 1 2 1 6 0 0 8 44 30+/- 31 NA 0.1685 402.3 83 2 2 1 2 0 0 8 44 6+/- 20 NA 0.1685 402.3 81 3 2 1 1 0 0 8 44 0+/- 16 NA 0.1685 402.3 83 4 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3 83 5 2 1 5 0 0 8 44 24+/- 28 NA 0.1685 402.3 84 1 2 1 7 0 0 8 44 36+/- 33 NA 0.1685 402.3 84 2 2 1 2 0 0 8 44 6+/- 20 NA 0.1685 402.3 84 3 2 1 10 0 0 8 44 53+/- 39 NA 0.1685 402.3 84 4 2- 7 0 0 8 44 36+/- 33 0.1685 1 NA l
' 402.3 84 5 2 1 1 0 0 8 44 0+/- 16 NA 0.1685 l (dQ2.3 . 85 1 2 1 1 0 0 8 44 0+/- 16 NA 0.1685 1
402.3 85 2 2 1 4 0 0 8 44 18 +/- 26 NA 0.1685 I 402m3 85 3 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3' 85 4 2 1 7 0 0 8 44 36+/- 33 NA 0.1685
'402.3 85 5 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3- 86 ' 1 2 1 2 0 0 8 44 6+/- 20 NA 0.1685 a
' C 8tt 402.3 3 402.3 86 2 2 1 5 0 0- .8 44 24+/- 28 .NA 0.1685 402.3 _ 66 3' 2 l' 2- 0 0 8 44 6+/- 20 NA 0.1685 402.3 86' 4 2 1 3 0 0- 8 44 12+/-'23 NA 0.1685 o
402.3 86 5 2 1 3 0 0 8' 44 12+/- 23 NA 0.1685 402.3 87 l1 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685
-402.3- 87 2 2 1 3' 0 0 8- 44 12+/-23 LNA 0.1685 402.3 87 3- 2 1 4 0 0 8 44 18 +/- 26 NA - 0.1685 402.3 87 4- 2 1 7 0 0 8 44 36'+/- 33 NA =0.1685 l402.3 87' 5 2 1 4 0 0 8- 44 18 +/- 26. NA 0.1685- '402.3 - 88 ~ l 2 1 3 0- 0 8 44 12+/- 23 NA 0.1685
, i : 402.3 88 '2 2 1 -2 0 0- 8 44 6+/- 20 NA 0.1685 g 402.3- 88 3: 2 'l 0 0 0 8 44 -6+/- 12 NA 0.1685 402.3 88 4 2 1 7 0 0 8 44 - 36+/- 33 NA 0.1685 402.3 : 88 - 5. . 2 1 4 0 0 8 44 18+/- 26 NA 0.1685 - 402.3- 89 'l 2 1 6 0 0 8 44 30+/- 31 NA 0.1685
'402.3 89- 2 2 l- 4 0 0 8 44 - 18 +/- 26 - NA 0.1685 402.'3 89 3 2 1 9 0 0 8 44 47 +/- 37 NA 0.1685 402.3 89 4 2 1 3 0 0 8 44 0.1685
_12 +/- 23 NA 402.3 89 5- 2 1 6 0 0 8 44 30+/- 31 NA 0.1685 402.3 810- 1 2 1- 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3 810.- 2 2- 1 6 0 0 8 44 30 +/- 31 ' NA 0.1685 402.3 810- 3 2 1 5 0 0 8 44 24t/- 28 NA 0.1685 402.3 810 4 2 1 4' 0 0 8 44 18+/-'26' NA 0.1685 402.3 810 5 2 1 4 0 0 8 44 18 +/ 26 NA 0.1685 402.3 811 1 2 1 1 0 0 8 44 0+/- 16 WA 0.1685 402.3.. 811- 2 2 1 2 0 0 8 44 6 +/ 20 NA 0.1685 402.3 - 811 3 2 1 4 0 0 8 44 18+/- 26 NA 0.1685 g 402.3 811 4 2 1 5 0 0 8 44 24+/- 28 NA 0.1685 Q402.3 811 5 2 1 2 0 0 8 44 6 +/- 20 NA 0.1685 402.3 812 1 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3 812 2 2 1 3 0 0 8 44 12 +/- 23 NA 0.1685 402.3 812 3 2 1 1 0 0 8 44 0 +/- 16 NA 0.1685 402.3 812 4 2 1 2 0 0 8 44 6+/- 20 NA 0.1685 402.3 812 5 2 1 2 0 0 8 44 20 0.1685 6+/.- NA 402.3 CO. 1 10' 1 1. 0 0 8 45 0+/- 17 NA 0.1634 402.3 C0 2 10 1 3 0 0 8 45 12 +/- 24 NA 0.1634 402.3 Cl 1 - 10 l' 4 0 0 8 45 18+/- 27 NA 0.1634 402.3- -Cl 10 1 2 0 0 8 45 6 +/- 21 NA 0.1634 402.3 C1 3 10 1 3 0 0 8 45 12 +/- 24 NA 0.1634 402.3 C1 4 10 1 5 0 0 8 45 24+/- 29 NA 0.1634 402.3 Cl 5 10 1 4 0 0 8 45 18 +/- 27 NA 0.1634 L402.3 C2 1 10 1 2 0 0 8 ' 45 6+/-~21 ~ NA 0.1634 402.3 C2 2 10 1 4 0 0 8 45 18+/- 27 NA 0.1634.
.402.3= C2 3 10 ~1 6 0 0 8 -45 31 +/- 32 NA 0.1634 402.3 C2 4- 10 1 3 '0 0 8 45 - 12 +/- 24 NA 0.1634 ;402.3-' C2= 5 10 1 3 0. 0 8 45 '12 +/- 24 NA 0.1634 -402.3- C3 1 10 1 2 0 0 8 45 6 +/ ?! NA 0.1634 402.3 03 :2- 10 : 1 6 0- 0 8 45 31+/- 32 NA 0.1634 402.3: 03 3 10 - 1- 4 0 0 8 45 18+/- 27 MA 0.1634 402.3- J C3 4L - 10 0-1 7 0 8 45! 37+/- 34 NA 0.1634 402.3'. _C3 .. 5 10 1 4 '0- 0 8 45 18 +/- '27 NA 0.1634 1402.3 ~ 04 1 -.10 1 1 0 0 8 45 0+/- 17 -NA 0.1634
- 402.31 C4 2 10- 0' 1 6 0 8 45 31+/- 32 NA 0.1634 .
C4 3 10. . .1 1 0 0 8 45 0+/- 17 NA 0.163i [A02.3-102.3 L
/% C4 = 14 10 - 1- 4 0 0 8 45 18+/- 27 NA 0.1634 402.3: ' C4 5 10 .0 8-1 3 0 45 12 +/- 24 NA 0.1634 402.3 C5 : ~l 10 1 l' 0 0 8 45 0+/- 17 NA 0.1634 402.3L C5 0-2 10 1~ 10 0 8 45 55+/-'40 NA 0.1634 402.3 3 10 - -1 4 0 '0 8.
_C5 45 18 +/- 27 ' NA 0.!634
, L 402.3 : .5:
LC5 4 10 1 0 0 8~ 45 24 +/ 29 NA 0.1634
~ CILt 402.3 3 402.3'. C5 . 5 10 1 6 0 0- 8. 45 31 +/- 32 NA 0.1634 0+/- 17 402.3- ' C6 = 1 10 1 1 0 0 8 45- NA 0.1634 402.3 C6 2 10 1 4 0 0 8 45 18 +/- 27 NA 0.1634 18+/- 27 402.3' C6 3 10 1 4 0 0 8 45 NA 0.1634 j 402.3- C6 -( 4 10 .1 1 0 0 8 45 0+/- 17 NA 0.1634 j 402.3' C6 - 5' 10 1 5 0 0 8- 45 24+/- 29 NA 0.1634 4 '402.3 C7 1 10 '1 4 0 0 8 45 18 +/- 27 NA 0.1634 402.3 C7 2 10 1 4 '0 0 8 45 18 +/- 27 MA 0.1634 402.3 C1 3 10 1 6 -0 0 8 45 31 +/- 32 NA 0.1634
. 402.3 C7. 4 10 1 2 0 0 8 45 6 +/- 21 NA 0.1634
'402.3 C1 5 10 1 3 0 0 8 45 12 +/- 24 NA 0.1634 402.3 C8 'l 10 1 5 0 0 8 45 24+/- 29 NA 0.1634 402.3; C8 2 10 1 1 0 0 8- 45 0+/- 17 NA 0.1634 402.3 C8 3' 10 1 4 0 0 8 45 18+/- 27. NA 'O.1634 I L402.3 C8 4 '10 1 6 0 0 8 45 31 +/- 32 NA 0.1634 402.3 C8 - 5 to 1 3 0 0 8 45 12 +/- 24 NA 0.1634 ' =i 402.3 C9 1 10 1 3 0 0 8 45 12 +/ 24 NA 0.1634 402.3 C9 '2 10 1 3 0 0 8 45 12 +/- 24 NA 0.1634 402.3 C9 .3 10 1 1 0 0 8 45 0+/- 17 NA 0.1634 4
402.3' C9 4 10 1 8 0 0 8 45 43 +/- 36 NA 0.1634 402.3 C9 ~ 5 10 1 2 0 0 8 45 6 +/- 21 NA 0.1634 I 402.3' CIO 1 10 1 5 0 0 8 45 24+/- 29 NA 0.1634
-402.3. C10 2 10 1 3 0 0 8 45 12 +/- 24 NA 0.1634 3 402.! C10 3 10 1 1 0 0 8 45 0+/- 17 NA 0.1634 402.3 C10 4 10 1 4 0 0 8 45 18 +/- 27 NA 0.1634 402.3 C10 5 10 1 6 0 0 8 45 31 +/- 32 NA 0.1634 402.3 C11 1 10 1- 2 0 0 8 45 6 +/- 21 NA 0.1634 l 402.3 C11 2 10 1 1 0 0 8 45 0+/- 17 NA 0.1634 i
0 402.3 cii 3 10 i 2 0 0 8 45 6+/- 21 Na 0.i634 402.3 C11 4 10 1 5 0 0 8 45 24+/- 29 NA 0.1634 i 402.3 cil- 5 10 1 4 0 0 8 45 18 +/- 27 MA 0.1634 402.3 Cl2 1 10 1 3 0 0 8 45 12 +/- 24 NA 0.1634 402.3 C12 2 10 1 5 0 0 8 45 24+/- 29 NA 0.1634 402.3 C12 3 10 1 6 0 0 8 45 31+/- 32 NA 0.1634 t 402.3 C12 4- 10 1 6 0 0 8 45 31 +/- 32 NA 0.1634 402.3 Cl2 5 10 1 2 0 0 8 45 6 +/- 21 NA 0.1634 402.3 00 1 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.3 -- 00 2 9 1 4 0 0 8 48 19+/- 28 NA 0.1539 402.3 01 1 9 1 4 0 0 8 48 19 +/- 28 NA 0.1539 + 402.3 01 2 9 1 6 0 0 8 48 32 +/- 34 NA 0.1539 . 402.3 01 3 9 1 6 0 0 8 48 32+/- 34 NA 0.1539 402.3' 01 4 9 1 4 0 0 8 48 19+/- 28 NA 0.1539 402.3 O! $ 9 1 2 0 0 8 48 6+/- 22 NA 0.1539 402.3 02 1 9 1 9 0 0 8 48 52+/- 40 NA 0.1539 4 02.3- 02 2 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.3: - 02 -3 9 'l 2 0 0 8 48 6+/- 22 NA 0.1539
'402.3 02 4 9 1 6 0 0 8 48 32+/- 34 NA 0.1539
- - 402.3' 02 - 5
- 9 1 4 0 0- 8 48 19+/- 28 NA 0.1539 4- 402.3 03 1. 9 1 9 0 0 8 48 52 +/- 40 NA 0.1539 402.3 03 2 9 1 6 0 -0 8 48 32+/- 34 NA 0.1539 402.3. 03 3. 9 1 3' -0 0 8 48 13 +/- 25 NA 0.1539 l 402.3 ' 03 - 4 9 1 -0 '0 0 8 ' 48 -6+/- 13 NA 0.1539 !
, ;402.3 03 5- 9 1 1 0 0 8 48 0+/- 18 NA 0.1539 402.3- 04 .1 9 1. 11 .0 0 8 48 65+/- 44 NA 0.1539 402.3.- 04 .2 9 1 4. 0 0 8 48 19 +/- 28 NA 0.1539 402.3l 04 3 9, 1 2 0 'O 8 48 6+/- 22 - NA 0.1539 402,3 04 4 - 9 .' 1 3 0 0 8 _48 13 +/- 25 NA 0.1539 402.3{ 04 - 5' 9 1 4' 0 0 8 48 19 +/- 28 NA 0.1539 .
402.3 105. 1 9 1- 6 0 0 8 48 32 +/- 34 NA 0.1539 402.3- .05 2 9 .1 1- 0: 0' 8 48 - -0+/- 18. . NA 0.1539
CBLt 402.3-3 4'02.3' ' 05 - -3. 9- 2- O 0 8' 48 6+/- 22 NA 0.1539
. 402.31 - 0$ ! .4' 9~ l 13 0 0 8 48 78 +/- - 48 .NA 0.1539
~ P02.3 L 05 :. 5 ~9 1 5- 0- 0 8 48 - 26+/ NA- 0.1539 W402.3 D6 ' -1: 9' 1 2 0 0 8 : 48 .6+/--22 NA'- 0.1539
-402.3- : 06 2- 9 1 8 0' 0 8 48 45+/-!38 NA : 0.1539 402.!- ' 06 ' '. 3 9 1 3 0 0 8 48 13 +/ 25 NA . 0.1539 ~ 402.32 - D6 4- 9 1- 1 0 0 8 ' 48 0+/- 18 NA 0.1539 402.3 06 - '5 9: 1 2 0 0 8 48 6+/- 22 NA 0.1539 402.3 07 1 -9 1 1 0 0 8 48 0+/- 18 NA 0 1319 402.3 07' 2' -9 -1 5 0- '0 8 '48 26+/- 31 NA -0.1539 402.3 . D7 - '3- 9 1- 10 0 0 8 48 58 +/- 42 ' NA . 0.1539 402.3- D7 -4 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539.
402.3- D7 5- 9 1 5~ 0 0 8 48 26 +/- 31 NA- 0.1539 402.3. 08 .' 1- 9 1 6 0 '0 8 48 32+/- 34 NA 0.1539 402.3 ~ 08 ' 2- 9 l' 1 0 0 8 48 0+/- 18 NA - 0.1539 402.3 08 3 9 1 0 0- 0 8 48 .-6+/- 13 NA 0.1539 402.3 08 4- 9- 1 11 0 0 8 48 65 +/- 44 NA . 0.1539 402.3 DB - 5 9 1 3 0 0 8 ' 48 . 13 +/- 25 NA 0.1539 402.3 09 1 9. 1 8l '0 0 8 48 45 +/- 38 NA 0.1539-402.3 09 - 2 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.3e- D9- 3- 9 1 2 0 0 8 48 '6+/-.22 NA .0.1539 402.3. D9 -4 9 1 'l 0 0 8 48 0+/- 18 NA 0.1539 402.3 D9 5 9 1 '1 0 0 '8 48 0+/- 18 NA 0.1539 402.3 DIO l' 9 1 5 0 0 8 48 26+/- 31 NA 0.1539 402.3- 010 2 9 -1 1 0 0 8 48 0+/- 18 NA 0.1539 402.3 D10 3 9 1 5 .0 0 6- 48 26+/- 31 NA 0.1539 402.3 D10 .4 9 1 10 0 0 8 48 58 +/- 42 NA 0.1539 02.3- D10. S' 9 1 7 0 0 8 48 39+/- 36' NA 0.1539' ~
'02.3 - .D11 1 9 1 1 0 0 8 48 0 +/- 18 NA 0.1539 02.3 D11 2 .9 1 5 0 0 6 48 26'+/- 31 NA 0.1539 4 02.3. 011- 3 9 1 0' 0 0 8 48 -6+/- 13 NA 0.1539 402.3 Dil 4 9 1 8 0 0 8' 48 45 +/- 38 NA 0.1539 ?92.3~ 011 5 9 1 5 0 0 8 48 26 +/- 31 NA . 0.1539 402.3' D12 - ! 9 1 4 0 0 8 48 19 +/- 28 NA 0.1539 402.3 012 2 9 1 2 0 0 8 48 6 +/- 22 NA 0.1539 402.3 012 3 9 1 9 0 0 8 48 52 +/- 40 . NA 0.1539 402.3 D12 4- 9 1 15 0 0 8 48 91 +/- 51 NA 0.1539 402.3 D12 ;5 9- 1 1 0 0- 8 48 0+/- 18 NA 0.1539 ,' l I'
1:
rx CINTICllEM FINAL STATUS SURVEY PLAN AND REPORT U The 402.4 survey unit was sur eyed on an affected area basis and has a surface area of 36 m 181 direct beta / alpha surface contamination measurement locations were placed in this area using 5 readings per im oy im grid. One reading was taken at the center of the grid and four each at the midpoint between the center and the corners of the grid. 42 gamma exposure rate measurement locations were placed in this area using a 1m by im grid. In addition a 100T. scan was performed in each im by im grid location. The location of these measurements'is shown in the accompanying map. Measurement and sampling results for the 402.4 survey unit are provided in 3 attached tables as follows: Table 402.4-1 Pad @ Base of RCA Stairs outside Bldg 3 gamma exposure rate data Table 402.4-2 Pad @ Base of RCA Stairs outside Bldg 3 direct beta / gamma surface contamination data Table 402.4-3 Pad @ Base of RCA Stairs outside Bldg 3 direct alpha surface contamination data V'O i h
%)
SECTION 14
m FINAL SURVEY GRID MAP J EAST AND WEST RCA STAIR PADS UNIT 402 4 CONCRETE PAD BOTTOM OF STAIRS . NORTH 16 I s c, 15 z - 14 13 12
/ 11 ,,_ 10 .]
VEST 9 EAST 8 BLDG. #3 CONCRETE PAD TOP OF STAIRS 7 6 i E2 De RCA 5 El DI STAIRS - 4 I VEST PAD 3 I 2 1 l C B A SDUTH EAST PAD r ;- 1
~/
UNIT 402.4 ; DVGS\3374 i 4/15/97 l l
e - . . , -. . .- ..
'El ,
4 , CINTICHEM FINAL' STATUS SURVEY PLAN'AND REPORT ., [j; v , , i 9' AREA 402.4'. Meas.-Type: Gamma Exposure Direct Direct Rate (a) Beta (b) Alpha (b) l Units uRem/hr dps/ dpa/ ' 100 cm2- 100 cm2 MDA 2 480 18 Number of Meas: 42 181 181 e========--ee--------:________=======m=- -- _-- =-
---________s Survey Unit Mean: 1.1 107 17 True Mean;U alpha 95% C.L.: 1.6 132 19 Criteria 5 1273 5000 . Acceptable Y/N. Y Y Y l =__a --_ - __ ~ _-.==sm- - :-___------ m_______- _ _ - __
Max Grid Block Wt. Mean 5 671 72
~
Criteria 10 1273 5000 hcceptableY/N Y Y Y '
=2===_sse___-==_____=____===------== =_____===- __
Max. Hot Spot Scans NONE NONE NONE ! (affected areas only) Criteria NA NA NA Acceptable Y/N NA M\' NA
========_=====___ =========_______ = =-------_.= - =========
(c) With a mean site background of 6 uRem/hr subtracted ; (b) Without' subtraction of radioactivity due to natural radioactive material ; content j 1 l l l l p y d I
, i I
. c. , q y'
- , A KTABLE 402.41 = ' '6 -LCINTICHEMDECOMMIS$10NINGPLAN 04/09/97! ,l
- ' FINAL SURVEY DATA SHEET :
?td ,
LDATAFORAffECTED'AREADESCRIPTION:
. CONCRETE PADS AI 80Tf0M/iOP OF BLDG, 3 RCA STAlRS' l
AREA 402.4FORUR/HR-. w RADIAi!ONTYPE: :GAMMASURVEYINUREN/HR.
--COMPLETION.
DATE:04/08/97 TECHNICIANS: RN - j MATERIAL CODE i 2 AREA: -402.0' I
'1: CONCRETE 5: PLASTIC.
t UNii:- 402.4 2: ROCK: 6:$0!L l
-MEDIA TYPE: CONCRETE 3:N000 .7: ASPHALT 1 2 l 8 of POINTS: 42 '4: METAL .8:0iHER(SPECifY): , ,
N0 MATERIAL'8ACKGROUND USED MICR0 REM PERHOUR:' LIMIT i MAX: 5.00 PASS'. l10 l AVG: 1.10 PASS- 5 l t $10 X: 1.83
' MU SUB ALPHA:- 11.57 PASS 5 i
MATER- ; , . INST.- ARIA AREA -- I AL NET-
. 10 t GRID.POINI 10 f 8KG READING CODE. UREM/HR' f C UREM/HRUREM/HR
~ K.)
'402.4 Al- A 6 5 8 :
402.4 A2 A 6 8 8 2' , ,402.4'- A3- -A 6 6 '8 0' 402.4 A4 A 6 5 8 -I 402.4 A5 A '6 10 8 4
] -402.4' A6 'A- 6 8 8 2 ~402.4 A7 A. 6 7 8 1-402.4 A8 A 6 11 . 8 5 - 402.4 - A9 'A. 6 '7-- 8 1 402.4 A10 A 6 7- 8 1 '402.4- All A- '6 6 8 0 402.4' A12 A 6 6 8 0 I I402.4'- A!3 A 6 5 8 -l ;
402.4: A14 A 6 9 8' 3 ! 402.4 A15 A. 6. 6 .. .8 0
-402.4' : A16 '. A 6 5 8 f
- 402.4 ' 81 ' A' '6 6 8 0- I 402.4: 82 , -A .6 ~8' '8 2
l
'402.4' 83 A :6 7-; 8 .1 -
i
- .402.41 84' A '6 7 8 -- 1.
402.4. 85.: A 6' 6- 8 0 E402.4 : 86 A 6 7' 8 1
- 402.4 - < 87 : 3A :6 10- 8 4- '
.n 402.4- - 88. 'A~ '
- 6' 8L 8- 2 402.4'- 89' A' ~6 10 4-(402.4ir., 810. A~ '6' 6-
. 8 .. -8 '0 i -402.4: :811. -A l6. 10 '- 8 4 E 402.4' -. 812 !- .A' :6- 8 8- .2- ! - 402.41 + ' ll3 4 /A- 6- 7 '8: ' l -- , 61 1 .6' 402.4'- 814 A .- 18~ 0 3 , --tt
BIBLE 402.4-1 1
- 402.4 . B15 :- A' 5 8 -l -
402.4 B16 A. 6 5 8 -1
.A' 6, '4024l . C1 .10 8 4 .s 402,4.- 'C2 A 6 11 8 5 -
402.4 ' C3 A- .6 5- 8 -1
' 402.4- C4 A 6. 9 .8 3 402.4.. C5 A 6 6 8 '0 402.4- C6 - A- 6 7- 8 .' 1 402.4 01. A '6 7 '8 1 402,4; 02 A 6 6 8 0 . 402.4 . El ' A 6 4 8 -2 402.4 _ E2 A- 6- 6 8 0 N 4 V ,
I l l
- l l
i 1
f ~. j V- !
l 1 I l
m _ ._ . . . . . - .
;/{}h h & A}-)- ~ ._ ~
1TsETABLf 402.4 2 ( CINTICNEM DECOMMISSIONING PLANL 06/04/91 ]
./
T i
"flMA! SVRVEY DATA SHEET ' l DATA TOR AFFECTED AREA DESCRIPTION:
CONCP. fit PADS AT BOTTOM / TOP 0F BLDG.'3 ACA STAIRS
'^ > : AREA 402.4 FDP BETA l ln RADIATIONTYPI: 1 BETA SCAL!NG FACTOR : 0.975 COMPLETION: ,
DATE: -04/08/97 1 TECHNICIANS: RN MATERIAL CODE' ] AREAi 402.0 1:00NCRETE 5: PLASTIC . UNIT: 402.4 2: ROCK 6:S0!L MEDIA:iTPE: COERETE 3:W000. 7: ASPHALT ;
- I of POINIS: 181 4:M!iAL' 8:0THER(SPECIFY):
Ci IN HINUTES: -l NO MATERIAL BACKGROUND USED:
'DPM/100CM"2 REM.4 flXED: LIMIT- .hAXFORIND. GRID- 671 PASS 1273
- AVG'-SURVEYUN!i 107 PASS 1273 STD X. 208 MU SUB ALPHA 132 PASS 1273 .;
, MAX NOT SPOT NONE PASS 3818 WEIGHTED BETA BETA SCAN TOTAL AVG. . GRID - INST FIXED MAX CONT. MATER- BETA MAX C00RIDINATES. INST.- AREA COUNTS / BETA AREA IAL MDA FIXED PER INST Eff.
8 GRID 10 LOCATION 10 8 81G 1 COUNTS CM^2 CODE DPM/ DPM/ AVG '100 MAX CPM /DPM CPM' MINUTES 100 CM'2 100 CM*2 TEST CM'2 TEST-
.402,4 Al 1 10 504 461 0 0 8 480 -193+/-273 MA - 0.2288 ,
402.4 AlL 2 10 504 452 0 0 8 480 -233+/-272 NA 0.2288 402.4 ' A2 ~l 10 504 451 0' 0 8 480 -238+/-272 NA 0.2288 402.4- A2 2 10 504 468 0 0 8 480 -161+/-274 NA 0.2288 , 402.4 A2 - 3 10 504 475 0 0 8 400- -130+/-275 NA 0.2288 402.4 A2 4 10 504 442 0 0 8 480 -278+/-270 NA 0.2288 L402.4 A2 5 10 504 479 0 0 8 480 -112+/-275- NA 0.2288 j
!402.4 A3 1 10 504 452 0 0 8 480 -233+/-272 NA. 0.2288 l -402.4 A3 - 2 10 504 518 .0 0 8 400 63+/-281 NA 0.2288 I t- :402.4 A3 3 -10 504 418- 0 0 8 480 -386+/-267 NA 0.2288 '402.4 A3 4 504 -428 0 0 8 480 -341+/-268 NA 0.2288 ;402.4 A3 $ 10 504 465 0 0 8 480 -175+/-273 NA 0.2288 1 402.4' A4 1 10 504 452 0 0 8 . 480 -233+/-272 NA 0.2288 l 402.4 A4- 2 10 504 -436 0 0 8 480 -305 +/ 269 NA 0.2288 l 402.4 ' A4 ' 3 10 504 455 0 0 8 480 -2204/-272 NA 0.2288 l 402.4 A4 4 10 504 518- 0 0 8- 480 63+/-281 NA- 0.2288- ! '402.4, A4 .5 '10 ' 504 522 0 0 8 480 81+/-281 NA 0.2288 '402.4 ' A5 - l _
10 504- 523 0 0 8 480 85+/-282 NA 0.2288 402.41 AS - '2- 10- 504' 541~ '0- 0 8 480 166+/-284 NA 0.2288 .1
-402.4L i A5 -- 3 10 504 483 0 0 8- 480 -94+/-276- NA 0.2288 j 402.4 A5' 4 ' 10 ' -.504 536 0' 0 8 ~ 480' 143+/-283 NA 0.2288 )
(402.41 : .A5- 5 310.- 504- 526 0 0 8- 480 99+/-282-
- NA 0.2288- .l' 402.4- A6) 1 ' 10 504' 526- 0 0- 8 480 99+/-282 NA 0.2288
{( 02.4
- 02.4 1 1 A61 -2' 10' /504 : 526 0 0' 8 ' 480 - 99+/-282 NA 0.2283
)
- A6 L 3~ 10. 504- l536 :0- 0 8 480- 143+/-283 NA 0.2288 402.4 . A6 l !!0 ~ .63+/-281 4 504 518 = 0- 0 8 ' 480 NA 0.2288 )
402.4 : A6 ' :5: -10 504- ;535- 0.' 0 8 . 480 -139+/-283' NA 0.2288
.402.4, A7i ! '10 504- 514~ '0' OL '8 -480~ 45+/-280 NA 0.2288 1 9
402.4~ A7- '2 L10 504 478s !0 0. :8 - 480 -117 +/- 275 . HA . 0.2288 I 4021 L A7 ' ?3 10 ' 504- ;459 L0-- 0 8 . 480 ---202+/t 273 NA 0.2288 -
1 E 8L! 402.4 2 I 402.4 A7 4 10 504 496 0 0 8 480 -36 +/- 278 hA 0.2289 l 402.4 A7 5 10 504 499 0 0 8 480 -22+/-278 NA 0.2288 j l /02.4 AB 1 10 504 533 0 0 8 480 130+/-253 NA 0.2288 l 402.4 AB 2 10 504 486 0 0 8 480 -81+/-276 NA 0.2283 l 402.4 A8 3 10 504 508 0 0 8 480 18 ' '- 280 NA 0.2288 j 402.4 A8 4 10 504 536 0 0 8 480 1r 783 NA 0.2288 : 402.4 A8 5 10 504 507 0 0 8 480 i NA 0.2288 402.4 A9 1 10 504 482 0 0 8 480 6 NA 0.2288 402.4 A9 2 10 504 540 0 0 8 480 ^4
, NA 0.2288 402.4 A9 3 10 504 511 0 0 8 480 .0 NA 0.2288 402.4 A9 4 10 504 473 0 0 8 480 a,t/- 275 NA 0.2288 402.4 A9 5 10 504 479 0 0 8 480 -112+/-275 NA 0.2288 402.4 A10 1 10 504 489 0 0 8 480 -67+/-277 NA 0.2288 402.4 A10 2 10 504 522 0 0 8 480 81+/-281 NA 0.2288 402.4 A10 3 10 504 463 0 0 8 480 -184+/-273 NA 0.2288 402.4 A10 4 10 504 497 0 0 8 480 -31+/-278 NA 0.2288 402.4 A10 5 10 504 496 0 0 8 480 -36+/-278 NA 0.2288 402.4 All 1 10 504 506 0 0 8 480 9+/-279 NA 0.2288 ~402.4 All 2 10 504 437 0 0 8 480 -300+/-270 NA 0.2288 402.4 All 3 10 504 466 0 0 8 480 -170+/-274 NA 0.2288 402.4 All 4 10 504 519 0 0 8 480 67+/-281 NA 0.2288 402.4 All 5 10 504 487 0 0 8 480 -76+/-277 NA 0.2288 402.4 A12 1 10 504 488 0 0 8 480 -72+/-277 NA 0.2288 402.4 A12 2 10 504 485 0 0 8 480 -85+/-276 NA 0.2288 402.4 A12 3 10 504 469 0 0 8 480 -157+/-274 NA 0.2288 402.4 A12 4 10 504 516 0 0 8 480 54+/-281 NA 0.2288 402.4 A12 5 10 504 477 0 0 8 480 -121+/-275 NA 0.2288 4 A13 1 10 504 526 0 0 8 480 99+/-282 NA 0.2288 i hm02.4 :02.4 A13 2 10 504 492 0 0 8 48; -54+/-277 NA 0.2288 l 402.4 A13 3 10 504 479 0 0 8 480 -112+/-2b F4 0.2288 ;
402.4 A13 4 10 504 490 0 0 8 480 -63+/-277 NA 0.2288 402.4 A13 5 10 504 435 0 0 8 480 -309t/-269 NA 0.2288 ' 402.4 A14 1 10 504 500 0 0 8 480 -18 +/- ?7! nA 0.2288 402.4 A14 2 10 504 423 0 0 8 480 -363+/-268 NA 0.2288 402.4 A14 3 10 504 473 0 0 8 480 -139+/-275 NA 0.228e j 402.4 A14 4 10 504 478 0 0 8 480 -117+/-275 NA 0.2288 I 402.4 A14 5 10 504 496 0 0 8 480 -36+/-278 NA 0.2288 j 402.4 A15 1 10 504 511 0 0 8 480 31+/-280 NA 0.2288 ; 402.4 A15 2 10 504 468 0 0 8 480 -161+/-274 NA 0.2288 l 402.4 A15 3 10 504 500 0 0 8 480 -18+/-278 NA 0.2288 , 402.4 A15 4 10 504 482 0 0 8 480 -99+/-276 NA 0.2288 402.4 A15 5 10 504 486 0 0 8 480 -81+/-276 NA 0.2288 402.4 A16 1 10 504 490 0 0 8 480 -63+/-277 NA 0.2288 ) 402.4 A16 2 10 504 484 0 0 8 480 -90+/-276 NA 0.2288 i 402.4 81 1 3 413 426 0 0 8 393 53 +/ 230 NA 0.2537 1 402.4 81 2 3 413 448 0 0 8 393 141+/-233 NA 0.2537 l 402.4 82 1 3 413 432 0 0 8 393 77 +/- 230 NA 0.2537 1 402.4 82 2 3 413 475 0 0 8 393 251 +/- 236 0.2537 NA I 402.4 82 3 3 413 456 0 0 8 393 174+/-234 NA 0.2537 l 402.4 . 82 4 3 413 421 0 0 8 393 32+/-229 NA 0.2537 I 402.4 82 5 3 413 435 0 0 8 393 89+/-231 NA 0.2537 l 402.4 83 1 3 413 419 0 0 E 393 24+/-229 NA 0.2537 402.4 83 2 3 413 488 0 0 8 393 3034/-238 NA 0.2537 ; (';02.4 83 3 3 413 444 0 0 8 393 125 +/- 232 NA 0.2537
' v 402.4 83 4 3 413 462 0 0 8 393 198 +/- 234 NA 0.2537 402.4 83 5 3 413 464 0 0 8 393 206+/-235 NA 0.2537 402.4 84 1 3 413 434 0 0 8 393 85+/-231 NA 0.2537 402.4 64 2 3 413 482 0 0 8 393 279+/-237 NA 0.2537 402.4 84 3 3 413 413 0 0 8 393 0+/-228 NA 0.2537 402.4 84 4 3 413 454 0 0 8 393 166+/-233 NA 0.2537
CBLL 402.4-2 ' 402.4 64 -5 3 413 445 0 0 8 393 129+/-232 NA 0.2537 402.4 85 1 3 413 463 0 0 8 393 202 +/- 235 NA 0.2537 ic(402.4 85 . 2 .3. 413 403 0 0 8 393 -40 +/- 226 NA 0.2537 402.4 85 3 3 413 459 0 0 8 393 186+/-234 NA 0.2537 402.4 B5 4 3 413 493 0 0 8 393 323+/-239 NA 0.2537 402.4 85 5 3 413 482 0 0 8 393 279+/-237 NA 0.2537 , 402.4 B6 1 3 413 424' 0 0 8 393 44+/-229 NA 0.2537 402.4 B6 2 3 413 500 0 0 8 393 352 +/- 239 NA 0.2537 402.4 B6 3 3 413 485 0 0 8 393 291+/-237 NA 0.2537 402.4- 86 4 3 413 506 0 0 8 393 376+/-240 NA 0.2537 402.4 86 5 3 413 444 0 0 8 393 125+/-232 NA 0.2537 402.4 87 1 3 413 473 0 0 8 393 243+/-236 NA 0.2537 402.4 87 2 3 413 499 0 0 8 393 348+/-239 NA 0.2537 402.4 87 3 3 413 486 0 0 8 393 295 +/- 238 NA 0.2537 402.4 B7 4 3 413 P4 0 0 0 393 -36+/-226 NA 0.2537 402.4 87 5 3 413 450 0 0 8 393 150+/-233 NA 0.2537 402.4 B8 1 3 413 446 0 0 8 393 133t/-232 NA 0.2537 402.4 B8 2 3 413 441 0 0 8 393 113+/-232 NA 0.2537 402.4' B8 3 3 413 466 0 0 8 393 214+/-235 NA 0.2537 402.4- 88 4 3 413 476 0 0 8 393 255+/-236 NA 0.2537 402.4' 63 5 3 413 489 0 0 8 393 307+/-238 NA 0.2537 402.4 89 1 3 413 479 0 0 8 393 267+/-237 NA 0.2537 402.4 89 2 3 413 480 0 0 8 393 271+/-237 NA 0.2517 402.4 69 3 3 413 482 0 0 8 393 279+/-237 NA 0.2537 402.A 89 4 3 413 446 0 0 8 393 133+/-232 NA 0.2537 402.4 89 5 3 413 454 0 0 8 393 166+/-233 NA 0.2537 402.4 810 1 3 413 448 0 0 8 393 141+/-233 NA 0.2537 610 2 3 413 467 0 0 8 393 218+/-235 NA 0.2537 l
'(q402.4 ,402.4 B10 3 3 413 451 0 0 8 393 154+/-233 NA 0.2537 I 402.4 B10 4 3 413 467 0 0 8 393 218+/-235 NA 0.2537 402.4 B10 5 3 413 433 0 0 8 393 81+/-230 NA 0.2537 402.4 Bil 1 3 413 413 0 0 8 393 0+/-228 NA 0.2537 402.4 Blt 2 3 413 433 0 0 8 393 81 +/- 230 NA 0.2537 ,
402.4 Blf 3 3 413 441 0 0 8 393 113+/-232 NA 0.2537 402.4 811 4 3 413 467 0 0 8 393 218+/-235 NA 0.2537 402.4 Bil 5 3 413 488 0 0 8 393 303+/-238 NA 0.2537 402.4 B12 1 3 413 468 0 0 8 393 222+/-235 NA 0.2537 402.4 B12 2 3 413 417 0 0 8 393 16+/-228 NA 0.2537 402.4 812 3 3 413 439 0 0 8 393 105+/-231 NA 0.2537 402.4 B13 1 3 413 380 0 0 8 393 -133+/-223 NA 0.2537 402.4 B13 2 3 413 461 0 0 8 393 194+/-234 NA 0.2537 402.4 B13 3 3 413 439 0 0 8 393 105+/-231 NA 0.2537 402.4 814 1 3 413 454 0 0 8 393 166+/-233 NA 0.2537 + 402.4 B14 2 3 413 481 0 0 8 393 275+/-237 GA 0.2537 402.4 B14 3 3 413 414 0 0 S 393 4+/-228 NA 0.2537 402.4 815 1 3 413 411 0 0 8 393 -8+/-227 NA 0.2537 402.4 B15 2 3 413 449 0 0 8 393 146+/-233 NA 0.2537 402.4 815 3 3- 413 461 0 0 8 393 194+/-234 NA 0.2537 402.4 B16 1 3 413 447 0 0 8 393 137 +/- 232 NA 0.2537 402.4 B16 2 3 413 446 0 0 8 393 133 +/- 232 NA 0.2537 402.4 Cl 1 3 413 450 0 0 8 393 150+/-233 NA 0.2537 40?.4 Cl ? 3 413 448 0 0 8 393 141+/-233 NA 0.2537 402.4 02 1 3 413 435 0 0 8 393 89+/-231 NA 0.2537
/ ^ :02.4 C2 ? 3 413 496 0 0 8 393 336 +/- 239 NA 0.2537 V 402.4 C2 3 3 413 467 0 0 8 393 218+/-235 NA 0.2~.::
402.4 C2 4 3 413 448 0 0 8 393 141+/-233 NA 0.2537 402.4- C2 5 3 413 456 0 0 8 393 174+/-234 NA 0.2537 402.4 CI 1 3 413 463 0 0 8 393 202+/-235 NA 0.2537 402.4 C3 2 3 413 466 0 0 8 393 214+/-235 NA 0.2537 402.4 C3 3 3 413 467 0 0 8 393 218+/-235 NA 0.2537
- -- - - . . ...~.~. - ~ , _ - - - , . - . - - - -. - - C8tE[402.4-2 l - =402.4 LC3 4 3 ' 413 '486 0 -0 8 393- 295+/-238 NA- 0.2537 402.4' C3' 5 3 413 493' 0 0 8 '393- 323+/-239 h4 0.2537 / J 2.4 C4 1 ~3- 413 ~ 446 0' 0 ~8 393- 133 +/- 232 NA 0.2537 4
102.4 C4 2 3 ' 413 535 0 0 '8 393 493+/-244 NA 'O.2537 > 402.4 :C4 '3 3 413 '542 0' 0 8 393 522+/-245 NA 0.2537 402.4; C4 4 3 413 466 0 .0 8 393 214+/-235- NA 0.2537 4 402.4 C4 5 3 413 507- 0 0 8 393- 380+/-240 NA 0.2537 402.4 C5 1 3 413 446- .0 0 8. 393 133+/-232 NA 0.2537 402.4 C5 2 3 413 528- 0 0 8 393 465+/-243 NA- 0.2537-402.4 c5 3 413- 441 0 0 8' 393 113+/-232 NA ' O.2537 . 402.4 C5 4 3 413 452- 0 0 8 393 158+/-233 NA 0.2537
- 402.4 C5 5 3 413
- 507 0 0 8 393 380+/-240 NA 0.2537 402.4 C6 - 1- 3 413 454 0 0 8 393 166+/-233 NA 'O.2537..
.402.4 C6 2 3 413 526 0 0 8 393 457 +/ 243 NA 0.2537 402.4 C6 -3 3 413- 445 0 0 8 393 129 t/ 232 NA 0.2537 402.4- 'C6 4 3 413 472 0 0- 8 393 239+/-236 NA 0.2537' 402.4- C6 5 3 413 492 0 0 8 393 319+/-238 NA 0.2537 :
402.4 .01 1 3 413 550 0 0 8 393 '554+/-246 NA 0.2537 402.4 D1 2 3 413 579 0 0 8 393 '671+/-250 NA 0.2537 402.4- 02 1 3 413 532 0 0 8 393 481+/-244 NA 0.2537 402.4- '02 2 3 413 491 0 0 8 393 315+/-238 NA 0.2537
'402.4 El' 1 3 413 517 0 0 -8 393 420+/-242 NA 0.2537 402.4 El- 2 3 413 538 0 0 8 393 505+/-244 NA 0.2537 402.4 El 3 3 413 526 0 0. 8 393 '457+/-243 NA v.2537 402.4 El 4 3 413 '533 0 0 8 393 485+/-244 NA 0.2537 402.4 El 5 3 413 558 0 0 8 393 586+/-247 NA 0.2537 402.4 E2 1 3 413 .525 0 0 8 393- 453+/-243 NA 0.2537
, ~ go2.4 E2 2 3 413 500 0- 0 8 393 352 +/ 239 NA 0.2537 t.j2.4 E2 3 3 413 544 0 0 8 393 530+/-245 NA . 0.2537 .
. 402.4 E2 4 3 413 546 0 0 8 393 538+/-245 NA 0.2537 '402.4 E2 5 3 413 544 0 0 8 393 530+/-245 NA 0.2537
.I f . 1
+O /
n , e m w
ilEATA8t[ 402.4 31 CINTICHEN DECOMMISSIONING PLAN 06/04/97' I['V 'f!NAL SURVET DATA SHEET DATA TOR AffECTED AREA DESCRIPi!0N:
- CONCRETE PAOS Ai 80iiOM/ TOP Of BLDG 3 RCA STAIRS
' AREA 402.4TORALPHA _
RADIAi!0NTYPE: 2-
~COMPLEi!0NL e DATE:.- 04/08/97 TECHNICIANS: ~ RW MATERIALCODE < AREA: 402.0 5: PLASTIC-1:00NCRETE !
UNII: 402.4 2: ROCK. 6:S0ll MEDIA TYPE: CONCRETE. 3:N000' 7: ASPHALT i of POINTS: 181 4: METAL- 8:0THER(SPECIFY): CT,1NMINUTES: e 1 NO MATERIAL BACKGROUND USED
;DPM/100CM^2 REN.+ FIXED: LIMIT MAXFORINDGRID' 72 PASS 5000 . AVG - SURVEY UNil 17 PASS 5000 STD X 13 MV SUB ALPHA 19 PASS 5000 ' . MAX HOT SPOT NOME PASS. 15000 NEIGHTED ALPHA ALPHA SCAN' TOTAL AVG.
GRIO INST.' FIXE 0 MAX CONT, MATER- ALPHA MAX , COORIDINATES INST. AREA COUNTS / ALPHA- AREA IAL MDA FIXE 0 PER INST EFF. 8 GRID 10 LOCATION ID 1. 8KG 1 COUNTS CM"2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM CPM MINUTES 100 CM'2 100 CM'2 TEST CM'2 TEST , 402.4- Al' 1 10 0 4 0 0 8 18 26 +/- 26 NA 0.1535 402.4 A1 2~ 10- 0 2 0 0 8 18 13+/- 18 NA 0.1535
'402.4 A2 1 10 0 5 0 0 8 18 33 +/- 29 NA 0.1535 'l 402.4. A2 2 10 0 3 0 0 8 18 20+/- 22 NA 0.1535 402.4 A2 3 10 .0 6 0 0 8 18 39+/- 31 NA 0.1535 402.4 A2 ' 4 10 0 3 0 0 8 18 20+/- 22 NA 0.1535 .402.4- 'A2 5 10 - 0 1 0 0 8 18 -7+/- 13 NA 0.1535 .'402.4 A3 1 10 0 2 0 0 8 18 13+/- 18 NA 0.1535 402.4 A3 2 10 0 5 0 0 8 18 33 +/- 29 NA 0.1535 402.4 A3 3 10 0 2 0 0 8 18 13 +/- 18 NA 0.1535 '402.4 A3- .4 10 0 1 0 0 8 18 7'+/- 13 NA 0.1535 .3 .402.4 A3 .5 10 0 0 0 8 18 20 +/- 22 NA 0.1535 402.4' 'A4 1 - 10 0. 5 0 0 8 18 33 +/- 29 NA 0.1535 402.4 A4 2 10 ~ 0 4 0 0 8 18 26+/- 26 NA 0.1535 402.4 A4 .3 - 10 0 8~ 0 0 8 18 52+/- 36 NA 0.1535 402.4 A4 4 10 .0 1 0 0 8 18 7 +/- 13 NA 0.1535 ;
402.4 A4 5 10 0- 3 0 0 8 18 20 +/- 22 NA 0.1535 i
'402.4 - A5 L 1 10 0- -4 0 0 8 18 26 +/ 26 NA 0.1535 j 402.4 A5 ' 2- 10 0' '4 'O .0 8 18 26 +/- 26 NA .0.1535 -402.4 i A5 : -3' 10 0: 6 0. 0- 8 18 39+/- 31 NA 0.1535 i 402.4 A5 - 4 : 10 : Of 1- 'O 0 8 18 7+/- 13 NA 0.1535 I -402.4: . A5 5 10 2- 0 0 8- 18 13+/- 18 ' NA 0.1535 1 402.4 " A6 1 10 0' 6- 0' 0- 8- 18 39 +/- 31 NA - -0.1535- !
2 : 02.4' fA6 2 -10 0' 1; 0 0 8 18 7+/- 13 NA 0.1535 : 02.4 f - A6 - '3 10 '- 0' 7- 0 0 8 18 .46+/- 34 NA 0.1535
' 40L4 ; , A6 ' 4 110' 0 l3~ 0 0 8 18 20+/ NA 0.1535 402.4 L A6 . :5 : 10 . 0 :- 0 .0 0 8 18 0+/- 0 NA 0.1535- '402,4. A7 ' 1 10 'O- 2 0 0- 8 :18 .13 +/- 18 0.1535 - NA .
- C2,4 ' A7 2: 10 0- '0 8-6 0 18 39 +/- 31 NA 0.1535 :
402.4 . A7 3- 10 10 4 0- 0. 8. :18 26 +/ .26- NA 0.1535
C8LL 402.4-3 402.4 A7- 4 10 0 1 0 0 8 18 7+/- 13 NA 0.1535 402.4 - A7 5 10 0 3 0 0 8 18 20+/- 22 NA 0.1535 O '02.4 A8 1 10 0 6 0 0 8 18 59+/- 31 NA 0.1535 V402.4 A8 2 10 0 1 0 0 8 18 7 +/- 13 h4 0.1535 402.4 AB 3 10. 0 1 0 0 8 18 7+/- 13 NA 0.1535 402.4 A8 4 10 0 1 0 0 8 18 7 +/- 13 NA 0.1535 402.4 A8 5 10 0 2 0 0 8 18 13 +/ .18 NA 0.1535 402.4 A9 1 10 0 1 0 0 8 18 7+/ NA 0.1535 402.4 A9 2 10 0 6 0 0 8 18 39 +/- 31 NA 0.1535 402.4 A9 3 10 0 7 0 0 8 18 46+/- 34 NA 0.1535 402.4 A9 4 10 0 7 0 0 8 18 46 +/- 34 NA 0.1535
'402.4 A9 5 10 0 1 0 0 8 18 7+/- 13 NA 0.1535 402.4 A10 1 10 0 1 0 0 8 18 7 +/- 13 NA 0.1535 402.4 A10 2 10 0 3 0 0 8 18 20+/- 22 NA 0.1535 402.4 A10 3 10 0 1 0 0 8 18 7+/- 13 NA 0.1535 402.4 A10 4 10 0 3 0 0 8 18 20 +/- 22 NA 0.1535 402.4 A10 $ 10 0 0 0 0 8 18 0+/- 0 NA 0.1535 !
402.4 All 1 10 0 7 0 0 8 18 46+/- 34 NA 0.1535 402.4 All 2 10 0 2 0 0 8 18 13 +/- 18 NA 0.1535 402.4 All 3 10 0 5 0 0 8- 18 33 +/- 29 NA 0.1535 402.4 All 4 10 0 6 0 0 8 18 39+/- 31 NA 0.1535 402.4 All 5 10 0 5 0 0 8 18 33 +/- 29 NA 0.1535 402.4 A12 1 10 0 2 0 0 8 18 13 +/- 18 NA 0.h35 402.4 A12 2 10 0 3 0 0 8 18 20 +/- 22 NA 0.1535 402.4 A12 3 10 0 4 0 0 8 18 26+/- 26 NA 0.1535 402.4 A12 4 10 0 5 0 0 8 18 33 +/- 29 NA 0.1535 402.4 A12 5 10 0 0 0 0 8 18 0+/- 0 NA 0.1535 g 402.4 A13 1 10 0 11 0 0 8 18 72 +/- 42 NA 0.1535 t 102.4 A13 2 10 0 8 0 0 8 18 52 +/- 36 NA 0.1535 402.4 A13 3 10 0 a 0 0 8 18 33 +/- 29 NA 0.1535 402.4 A13 4 10 0 0 0 0 8 18 0+/- 0 NA 0.1535 402.4 A13 5 10 0 3 0 0 8 18 20+/- 22 NA 0.1535 402.4 A14 1 10 0 0 0 0 8 18 0+/- 0 NA 0.1535 402.4 A14 2 10 0 1 0 0 8 18 7+/- 13 NA 0.1535 402.4 A14 3 10 0 5 0 0 8 18 33 +/- 29 NA 0.1535 402.4 A14 4 10 0 2 0 0 8 18 13 t/- 18 NA 0.1535 402.4 A14 5 10 0 5 0 0 8 18 33 +/- 29 NA 0.1535 402.4 A15 1 10 0 3 0 0 8 18 20 +/- 22 NA 0.1535 402.4 A15 2 10 0 1 0 0 8 18 7+/- 13 NA 0.1535 402.4 A15 3 10 0 2 0 0 8 18 13+/- 18 NA 0.1535 402.4 A15 4 10 0 3 0 0 8 18 20 +/- 22 NA 0.1535 402.4 A15 5 10 0 1 0 0 8 18 7+/- 13 MA 0.1535 402.4 A16 1 10 0 8 0 0 8 18 52 +/- 36 NA 0.1535 402.4 A16 2 10 0 4 0 0 8 18 26 +/- 26 'NA 0.1535 402.4 81 1 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4~ 81 2 3 0 2 0 0 8 18 15+/- 19 NA 0.1492 402.4 82 1 3. 0 3 0 0 8 18 20+/- 23 NA 0.1492 402.4 82 2 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 402.4 82 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 82 4 3 0 4 0 0 8 18 27+/- 26 NA 0.1492 402.4 82 5 3 0 4 0 0 8 18 27+/- 26 NA 0.1492 402.4 83 1 3 0 6 0 0 8 18 40+/- 32 NA 0.1492 402.4 83 2 3 0 2 0 0 8 16 13+/- 19 NA 0.1492 ('102.4 B3 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 (.~02.4 83 4 3 0 5 0 0 8 18 34 +/- 29 NA 0.1492 402.4 83 5 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 84: 1 3 0 3~ 0 0 8 18 20 +/- 23 NA 0.1492 402.4- 84 2 3 0 5 0 0 8 18 34 +/- 29 WA 0.1492 402.4 84 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 84 4 3 0 0 0 0 8 18 0+/- 0 NA 0.1492
C8LE 402.4-3
'402.4 ' 84 5 3 0 0 0 0 8 18 0 +/- 0 NA 0.1492 9 - 402.4 - 85 1 3 0 0 0 0 8 18 0 +/ 0 NA 0.1492 .('\402.4 l
85 2 3 0 0 0 'O 8 18 0+/- 0 NA 0.1492 b 402.4 85 3 3 0 3 0 0 8 18 20 +/- 23 NA 0.1492 402.4 85 4 3- 0 3 0 0 8 IS 20+/- 23 NA 0.1492 402.4 85 5 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 86 l' 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 86 2 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4' B6 3 3 0 3 0 0 8 18 20+/- 23 NA 0.1492 402.4 86 4 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 402.4 86 5 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 87 1- 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 87 2 3 0 6 0 0 8 18 40 +/- 32 NA 0.1492 402.4 87 3 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 402.4 87 4 3 0 7 0 0 8 18 47 +/- 35 NA 0.1492 402.4 87 5 3 0 3 0 0 8 18 20 +/- 23 NA 0.1492 402.4 88 1 3 0 4 0 0 8 18 27 +/- 26 NA 0.1492 402.4 88 2 3 0 3 0 0 8 18 20+/- 23 NA 0.1492 402.4 88 3 3 0 3 0 0 8 18 20 +/- 23 NA 0.1492 402.4 88 4 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4- B8 5 3 0 5 0 0 8 18 34+/- 29 NA 0.1492 402.4 89 1 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 89 2 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 89 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 99 4 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 402.4 89 5 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 810 1 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 4 402.4 810 2 3 0 1 0 0 8 18 7+/- 13 KA 0.1492 402.4 810 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 810 4 3 0 3 0 0 8 18 20+/- 23 NA 0.1492 402.4 810 5 3 0 3 0 0 8 18 20 +/- 23 NA 0.1492 402.4 811 1 3 0 3 0 0 8 18 20+/- 23 NA 0.1492 402.4 811 2 3 0 4 0 0 8 18 27+/- 26 NA 0.1492 402.4 811 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 Bil 4 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 I 402.4 811 5 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 ! 402.4 812 1 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 1 402.4 812 2 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 812 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 ) 402.4 813 1 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 1 402.4 813 2 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 ) 402.4- 813 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 814 1 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 814 2 3 0 4 0 0 8 18 27+/- 26 NA 0.1492 402.4 B14 3 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 l 402.4 815 1 3 0 3 0 0 8 18 20+/- 23 NA 0.1492 402.4 -815 2 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 815 3 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4 816 1 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 816 2 3 0 5 0 0 8 18 34+/- 29 NA 0.1492 402.4 Cl 1 3 0 5- 0 0 8 18 34 +/- 29 NA 0.1492
'402.4 Cl 2 3 0 2 0 0 8 18 13 +/- 19 NA 0.1492 402.4 C2 1 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 / ' *02.4 C2 2 3 0 3 0 0 8 18 20+/- 23 NA 0.1492 l U O2.4 ' C2 3 3 0 3 0 0 8 18 20+/- 23 FA 0.1492 l 402.4 C2 4 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 402.4 02 5 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 C3 1 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 I 402.4 C3 2 3 0 4 0 0 8 18 27+/- 26 NA 0.1492 402.4 C3 3 3 0 4 0 0 8 18 27+/- 26 hA 0.1492
~C8E402.4-3 t ' 402.4' . C3 4 :3 0 2 0 0 8 18- 13+/- 19 NA e.1492 4 C3' 5 3 0 .5. 0 0- 0' 18 34+/-:29 NA- 0.1492: i
[ ,02.4: 02.4: C4 1 3- 0 2- ;O. 0 8 18 13 +/- 19 NA 0.1492 I
-V 402.4 . C4- -2 3 0 2 0 0 8 18- 13+/- 19 !!A 0.1492 ,
402.4. C4 - 3 3: 0 4 0 0 8 18 - 27 +/- 26 NA- 0.1412 ' F401.4- C4' 4- 3. 0 1 0 0 8. 18 ' 7 +/ .13 NA 0.1492
?402.4 C4 5 3 0 l' =0 0 8 18 7+/- 13 NA 0.1492 >
402.4 C5 - 1 3. 0 2 -- 0 0 8 ' 18 13+/- 19 NA 0.1492 , 402.4 C5 2 3 0- 3 0 .0 8 . 18 20 +/- 23 MA 0.1492 l 402.4.: C5 - 3' .3' 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 C5 .4 3 0. 2 0 0 8 18 13+/- 19 NA 0.1492
- c. 402.4 C5- 5~ 3 0 5 0 0 8 18 34+/- 29 . NA 0.1492 ;
402.4 C6 l' :3 0 2 0- 0 8' 18 13+/- 19 NA 0.1492 402.4 .C6 - 2 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 l 402.4 C6 3 3J 0 0 0 0 8 18 '0'+/- 0 NA 0.1492 402.4 C6 4 3 0 0 0' 0 8 18 0+/- 0 NA 0.1492 402 4. C6 5 3 0 2. 0 0 8 '18 13 +/- 19 NA 0.1492 402.4 01 -1 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4 01- 2. 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 402.4. 02 1 3 0 2 0 0 8 18 13+/- 19 NA 0.1492 402.4- 13+/- 19 0.1492 D2- 2 3 0 2 0 0 8 18 NA 402.4 El 1 3 0 4 0 0 8 .18 27+/- 26 NA 0.1492 402.4 El 2 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 ' 402.4 El 3 3 0 4 0 0 8 18 27+/- 26 NA 0.1492 - 402.4 E1- 4 3 0 4 0 0 8 18 27 +/- 26 NA 0.1492 ! 402.4 - El- 5 3 0 1 0 0 8 18 7+/- 13 NA 0.1492 402.4' E2' 1 3 0 0 0 0 8 18 0+/- 0 NA 0.1492 ; E2 2 '3 0 2 0 13'+/- 19 0.1492 d 02.4 0 8 18 NA l V 02.4 E2 3 .3 0 0 0 0 8 18 0+/- 0 NA 0.1492 ; 402.4 '- E2 4 3 0 3 0 0 8 18 20 +/- 23 NA 0.1492 l 402.4 E2 5 3- 0 1 0 0 8 18 7+/- 13 NA 0.1492 l l r O: 1 e r,s- , e - -m-. w , ,e a
a
-).
4 CINTICHEM FINAL' STATUS SURVEY PLAN AND REPORT
%/
The 402.5 survey; unit was yurveyed on an-unaffected area basis and 30 measurement locations were placed has a surf ace -area of 36 m .
<approximately. evenly spaced and/or. at random. dependent ;upon c_ availability of surfaces. The location of these measurements is 'shown in.the-accompanying map. The' measurements performed were as-Tc! tows:
Direct exposure rate Direct beta /Famma surface contamination Direct alpha surface contamination
-Measurement and sampling results for the 402.5 survey unit are' provided1in 3 attached tables as follows:
Table 402.5-1 Ramp to Bldg 3 - Underside , gamma exposure rate data Table 402.5-2' Ramp to Bldg'3 - Underside
-direct-beta / gamma surface contamination data Table 402.5-3 Ramp to Bldg.3 - Underside direct alpha surface contamination data l )
1 I l 1 l 4 1 f .'
.SECTION 1.4 I
- J d Al SURV1Y NA3 CE sC3E E RAv3 ~E B _J'G =3 U C~ :1 z02.3 & A 0 2.5 ASPHALT ROADVAY ASPHALT ROADVAY D C B ,A A B,C D i
l i 1 1 1 I I I I I 2 2 l l l l l ! s a l l I 4 4
; l I I / NORTH l, l, 5- 5 l l i i 6 6 l l 1 I I I I 1 -7 7 I I I I I I i ! I I 8 8 I I 1 l l 9 9 l l ...
l . 10 10 l l l l l l l l
!! I 11 11 1 1 I! 7: CONCRETE i r: CONCRETE !12 CURB 12 l l CURB 2ll" I l REl ' /8/97A
_ ' OPS T DE UNDERSIDE S, eS/3130
. . .. v- .~. . -- - . - = - . - . . .- . - ~ -g f -u a . 4 y '
e LCIhrrICHEM FINAL STATUS SURVEY PLAN'AND REPORT-
- c 2 AREA 402.5' ,
f : Meas.; Type:- . namma -
. Exposure- Direct. Direct,.
- Alpha (b)-
~
Rate (a) -Beta (b)
..' Uni t 5 . . uRem/hr dpa/ dpa/-
100 cm2 100 cm2
- M)A :- .
2 - 397 68 !
- Number of. Meas: 30 30 30 =23==============================================================-
' Survey thiit Mean:' 1.2 116 -18'
^
- LTrue Mean
- U a1pha~955 C'."L.: 1.6 .182 . -16 l 1
b Criteria- .. . 5 1273 5000
' Acceptable Y/N~ Y Y Y na=====c=========================================================
- . Max.Ind. Result. :< 4 1 534_ 0 ,
. Criteria . .10 1273 5000 :
- Acceptable Y/N. Y -Y Y
- -=================================================================
Max. Hot Spot Scans. NONE NONE NONE -l - ' (affected areas only) -i t 4 Criteria. NA NA NA l
. Acceptable.Y/N N4 -NA NA l ==================================u============================== . . (c) With'a.mean site background of-6 uRem/hr subtracted ' (b) Without subtraction ofLradioactivity due to natural 1:
radioactive material content , 1 l e l l 1 P
'f 1 \
1 L
.I , ;-~
. ._ _ , - . . . . . . . ~ . . - . ._
11/rfry-97 [iFATABLE 402j-1 1
'CINTICHEM DECGHIS$10NING PLAN :12/10/96 -(N ; FINAL' SURYET DATA SHEti:
l L 4 DATA FOR UNAFFECTED' AREA DESCRIPTION: iRAMP108UILDING3-UNDERSIDE. >
" AREA 402.5FORuR/HR LRADIAi!0N TYPE:? GAMMA SURVEY IN UREM/NR iCOMPLEil0N-DATE:'11/25/96 . TECHNICIANS: :J8 MATERIAL CODE = AREA: 402.0 1:00NCRETE' 5:PLASilC UNii:- 402.5 2: ROCK 6:50ll ' MEDIA TYPE: CONCRETE 3:N000' 7: ASPHALT I of POINTS: 30 '4: METAL 8:0THER(SPECIFY):
NO MATERIAL BACKGROUND USED
- MICR0 REM PERHOUR5 LIMIT MAX: '4.00 PASS 10 5-AVG: 1.17 PASS . STD X: 1.53 .MV SUB ALPHA: 1,64 PASS 5 MATER - -INST. ARIA AREA IAL NET 10 0 GRID PolNT- ID l-- BIG READING CODE UREM/HR .(~I %/
UREM/HRUREM/HR 402.5 ~- 1 A 6 7 8 1 402.5 2 A 6 8 8 2 402.5- 3 A- 6- 9 8 3 402.5 4 A 6 8 8 2 , 402.5 5 A 6 9 8 3 402.5' 6 A 6- 8 8 2 d
-402.5 7 A 6 7 8 1 l 402.5 8 A 6 5' 8 -1 402.5 9 A 6 5 8 -l ~402.5 10 A 6 5 8 -1 401.5 11 A 6 4 8 -2
- -
- 402.5 12 A 6 5 8 -1 402.5. 13 A 6 4 8 2 L402.5 14 A 6- 8 8 2 402.5 15 A 6 8 .8 2
-402.5l ~16 A' 6 7 8 1 402.5- < 17 'A 6 6 8 0-402.5 18 - A 6. '7- 8 1 t
402.5- 11 ' A 6 7 ;8 -1 402.5" 20 - '-A '6 ' 7 8 1 401.5 21' :A 6- '7 8 1. 402.5 22 A 6: 8, 8' 2 402.5' . 23 - A' :6. 9- 8 2.
- 5. 24 -A 6 B' 8 2
- 5. 25 A' 6 17 8 _1
' 2.5 26 A 6 7 8- 1 402.5 27 A '6. -8 '8- 2' i L402,5 28 'A 6- -9 8: 3-
- 402.5; J ii ' A '6 10 .8 4'
'402.!' 30 =A 6- 9 ;8 <3.
l-
,3(TAlt!402.h-2 'I ClNTICHEM D'ECOMMISSIONING PLAN 12/10/96 M T ~ flNAL SURVEY DATA $NEET C/ - DATA FOR UNAFFECTED AREA DESCRIPTION: '
iRAMP 10 BUILDING 3 - UNDERSIDE-AREA 402.5 FOR BETA-RADIAi!0NITPE: 1 BETA SCAllNG FACTOR : 0.975
- COMPLEi!ON .: 'I DATE: 11/25/96 TECHNICIANS: . ~JB- MATERIALCODE ' LOCATION:- '402.0 1: CONCRETE 5: PLASTIC ^ .GRIDIDi 402.5 2: ROCK 6:$0it . -MEDIA fiPE: -CONCRETE- . 3:N000 7: ASPHALT f 8 of. POINTS: 30 4: METAL. 8:0TNER(SPECifY):
Ci IN MINUTES: 1 NO MATERIAL BACKGROUND USED DPM/100CM'2-REM.i flXED: LIMii MAX: 534 PASS '1273 , AVG: 116 PASS 1273 ST0 X: 215 MU SUB ALPHA 182 PASS 1273 , BETA . BETA INST. FIXED MATER- BETA INST -[ GRID INST. AREA COUNTS / BETA IAL MDA flXED STAT Eff ID I I 10 I" 8KG 1 FIXED CODE DPM/ DPM/ SIG ? CPM /DPM CPM MIN ' GCPM 100 CM*2 100 CM^2- .i O
%f.5 1 6' 440 397 397 8 397 -170 N 0.2591 402.5 2 6 440 543 543 8 397 408 Y 0.2591 402.5 3 6 440 548 548 8 397 428 Y 0.2591 402.5 4 6 440 382 382 8 397 -230 N 0.2591 '402.5 5- 6 440 508 508 8 397 269 N 0.2591 402.5 6 6 440 395 395 'S 397' -178 N 0.2591 -402.5 7 6 440 :406 406 8 397 -135 N 0.2591 '402.5 8 6 440 422- 422 18 397 -71 N 0.2591 402.5 9- ~6 440 391 391 8 397 -194 N- 0.2591 :
402.5 10 6 440 467 467 8 397 107 N 0.2591 402.5 11' 6 440 510 510 8 397 277N 0.2591 402.5 12 6 440 524 524 8 397 333 N 0.2591 402.5. 13 6- 440 441 441 8 397 4N 0.2591 402.5 14 6 440 503 503 8 197 249 N 0.2591
- 402.5 15 6' 440 511 -511' 8 397- 281 N 0.2591 402.5 16 6 440 402 402 8- 397 -150 N 0.2591 ;
'402.5 17 6 440 414 414 8 397 -103 N 0.2591 402.5 18 - 6 440 443 443 8 397 12 N 0.2591 402.5 19 -6 =440 477- 477 8' 397 146 N 0.2591-
- 402.5 20 6 - 440 ' 500 500. 8 397 - 238 H 0.2591 402.5 21 6 440 575- 575 8 397 534 Y 0.2591 402.5 22 6 440 540 .540 8- 397 396 N 0.2591
* : 402.5 ' ' 23 T 6, 440 494 '494 8 397 214 N .0.2591
- 402.5' L24l '6- 440 486 486 8 i'
.182 N 0.2591 .5 - 25 6 440~ 453- 453. 8 4 51 N - .0.2591 l .5 : 26 - 6 440'. 500 ~ .500' 8- 397. 238 N 0.2591 <
2.5 ' L 27 U 6: ~440 :435 .435- 8L 397. 20 N 0.2591
;402.5: 1 28 i .6 14f0f $25 525 8. 397 336 N- 0.2591 6- 440' 439 .439 (402.5 : 29 ' 8 397- -4 N- 0.2591
. '402.5 30 ;. 6' ' 440 ; 446' 446' "8 -397. .24 h 0.2591-k
, ttgg gg f.3'.
~
- -f!N(!!M(M Mt0"MihlM!NG FlM 06l?4/97 f!NAi fW hT UAis $dtil LMk FC# 'AHlilllb i;?U LiSJiPflC*i:
MMk 10 shlLDlhi 5 - M EM !0C 49iA D. 'fQ1A*J1A Vi m M lQ C itFl: ? CC#Lii!0N. . LA!(: il/25/h ' 1 littMitIA85 H NT4*:4. :t LOCAI10s: 4 0. . ti ;;Ws:RE!i 3:M S: - (s!D ID: 402.) C F. :- OIL 9 014 I 9 (: LCsPCt 3:450) ?:AifrA.? s ti f0!#ii M 4:tfiAL 6:LTHUiUE 4): j (1 is M!NJi!S 1 K Malis! A. @@0N M 1-i 04/!XM 2
*sM t flX D: Lirli ; MlJ : O PAL SM0 . AvC: -id NSS 5 W' 5;b A. L ay ,06 G A ~!s ni. 50k '
AJh k ?.% lh$i. Flx!D MA'ER* A!.E8 lh3i
! GRIO INST. AREA COU8IS/ AlfHA IAL M0A fisED STAi Eff 10-$ 8 JD i in 1 ilXE0 CODE OM/ Lh/ big C;r/EM ~
, CPP NIS U-.0M 100 Lf"? 100 '>l .: , a 4C2.5 1 6 4 1 S 03 11 4 0.!776 402.5 2 e 4 0 C 8 68 23 h 0.17 h l 402.5 3 6 4 1 1 8 69 *17 N 0.1776 ) , 402.5 4 t 4 0 0 e 68 -13 h .!7h I I a-402.5 5 t 4 ! i S 63 h 9.t'70 i 42.5 t 6 4 y 0 3 ti '2! $ 1 177' 402,5 7 6 4 s 5 5 c6 -- N n 1;??t j 402.5 0 6 4 i 2 6 es 11 N C.17/6 l 402.5 9 t 4 0 0 8 es -23 N 0.ille
- 402.! 10 t 4 i i 9 o$ -il N C.177t
! 402.5 11 6 4 2 . E, ci -11 h 0.1776 l 402.5 12 t - 0 0 e 66 -23 h c.17 h 401.5 13 6 4 . 2 s i,3 .1 N 0.1776 02.5 14 6 4 , a i 69 -23 h 0.1176 l 02.5 15 t 4 v 0 5 e3 -25 s 0 1776
- 402.0 15 c 4 1 1 8 t8 -17 N 0.177o (CJ B 17 s 4 , 0 8 63 -21 N 0.1776 i 42 4 16 6 4 2 .
1 63 -11 s 0.i116
- i e 1 3 ! a d -11 4 9.17:t 40 i < 0 ti *36 ') . . ! / ;
i 4N .i ; ,
. . o t8 8 0.Dit l 4'2 J 22 6 4 0 o d 4 .b ^ 17'e i
465 73
- 4 0 e t d .. r< e.i'io
' 80L ; 24 o 4 4 4 8 te 0n 0.1!7e r 5 h t' 4 2 2 3 $8 -;l n !)b i <..i 2e e 4 0 0 8 $8 -23 N 0.t?76 42,5 N o 4 0 0 8 v3 -22 h 0.17/o
! - 402.5' 28 6 4 .2 2 8 c8 -11 6 0.171c 402.5 29 - : 4 0- 0 5 68 -23 h 0.17?e 402 3 30 6- 4 0 0 6 68 -23 M 0.1776 l l l i
1 CINTICHEM FINAL STATUS SURVEY. PLAN AND-REPORT-b"c- -The_402.6 survey' unit was surveyed'on_an unaffected area basis. 30Lmeasurement locations were placed approximately evenly spaced and/or at random dependent 'upen . availabili ty of surfaces. .The location of -these measurements is.shown in the accompanying r..ap. The measurements performed were as follows: Direct' exposure rate
' Direct beta / gamma surface contamination ~ Direct _ alpha surface contamination Measurement and sampling results for the 402.6 survey ' unit are provided in 3 attached tables as follows:
Table 402.6-1 Ramp to Bldg'3 - Footings gamma exposure-rate data Table 402.6-2 ~ Ramp to Bldg 3 - Footings direct beta / gamma-surface contamination data Table 402.6-3 Ramp-to Bldg 3 - Footings direct alpha surface contamination data l l SECTION 14
\A_ S_RVEY RAv3 -
NGS
\ :- L C 2,6 S. FOOTING 30 6 a 29 N. FOOTING 20 21 23 11 12 22 14 k[ 4 25 5 6 13 g,
G .$ 12 /3 /96 O c DWGS/3132
- 7. -
p: 3~
-; A ; , ' CIlfl'ICHEM FINAL STATUS SURVEY PLAN AND REPORT - %;4 < >
t a J.
- AREA 402.6 Measa Type: Gamma .
Exposure Direct . Direct-Alpha (b)
--Rate:(a) Beta-(b)-
Units uRem/hr- dps/ dpe/ 100 ce2~ 100'en2'
- M)A . 2 397 68-Number of Meas:: 30 30 30
=================================================================
Survey Unit Mean:-: 2.2 .142 , True MeantU alpha-95% C.L.: 2.8. 196 -5
-Criteria ~ 5 1273 5000 Acceptable Y/N Y. Y Y ec===============================================================
Max Ind. Result > 6 621 34
- O Criteria JO. 1273 5000' Acceptable Y/N Y Y Y. .
ac===============================================================
' Max. Hot Spot Scans' NONE NONE NONE ,
(cffected areas only) .) Criterla- NA NA NA Acceptable Y/N. NA NA NA 1 Er.m========================.================n===================== l L (a) With a mean site background of 6 uRem/hr subtracted
'(b) Without subtraction of radioactivity due to natural ! . radioactive material; content i 1
i
.I 1l i
r, 4 f .\ .
' ~
Qi ? ) )'
'ic
itITTABLE 402.6-1 h//[f'[/~M /[ ClNTICH!M DECOMMISSIONING PLAN 12/10/96 flNAL SURVEY DATA SHEET
^' - DATA FOR UNAFFECTED AREA DESCPIPi!0k:
_./ RAMP 10 8UILDING 3 - f00ilhGS
' AREA 402.6 f 0R uR/HR RADIATION TYPE: GAMMASVRVEYINUREM/hR CCMPLEi10N DATE:!!/25/96 TECHNICIANS: J8 MATERIAL C00!
AREA: 402.0 1:00NCRETE. 5: PLASTIC UN!i: 102.6 2:ROCX 6:50!L MEDIA TYPl: METAL 3:WD00 7:ASPiiALT I cf POINIS: 30 4:MEikt 8:0THER(SPECIFY): NO MATERIAL EACKGROUND USED MICR0 REM PER HOUR: LIMIT MAX: 6.00 PASS 10 AVG: 2.23 PASS 5 STO X: 1.77 MU SUB ALPHA: 2.78 PASS 5 MATER-INST. AREA AREA IAL h!T 10 i GRIO POINT ID i BXG READING CODE UREM/HR UREM/HRUREN/HR ( )
-J2.6 i A 6 7 8 1 402.6 2 A 6 8 8 2 402.6 ~3 A 6 7 8 1 402.6 4 A 6 6 8 0 402.6' 5- A 6 6 8 0 402.6 6- A 6 9 8 3 402.6 7 A 6 10 8 4 402.6 8 A 6 10 8 4 402.6 9 A 6 9 8 3 402.6 10 A 6 11 8 5 402.6 11 A 6 12 8 6 ;
402.6 12 A 6 9 8 3 402.6 13 A 6 8 8 2 402.6 14 4 6 10 8 4 402.6 15 A 6 10 8 4 402.6 16 A 6 10 8 4 402.6 17 A 6 10 8 .4 402.6 18 A 6 7 8 1 402.6 19 A 6 9 5 3 402.6 20 A 6 B 8 2 402,6 21 6 8 8 2 402.6 22 A 6 7 8 1 402.6 23 A 6 9 8 3 402.6 -24 ~A 6- 8 8 2 e '2.6 25 A 6 6 8 0' it.6 26 - A 6 5 8 -1 IO2.6 ,27 - A ~6 5 8 -1 402.6 28 A 6 6 8 0 402.6 29 A 6 8 8 2 402.6 ,30 . A 6 9' 8 3
~, . . - - ~ ' }:
rft4fY402.62i i 1 ~ fU{hf O- +
'CINTICNEMDECOMMISSIONINGPLAN~ 06/04/97 W f!NAL'SUAVEY DATA SNEET-(f; LDATA FOR UNAFFECTED AREA DESCRIPi10N: ' RAMP 10 SUILDING'3 R f00i!NGS:
s AREA 402.6FOR8 ETA 1RA0!ATIONTYPEf:' l' . BETA SCALING FACTOR.: 0.975 , COMPLEi10N.
.DATEF: 11/25/96 . TECHNICIANS:- J8 MATERIALCODE:-
0 LLOCATION;. .402.0 il: CONCRETE .5: PLASTIC IGRID'ID: #
. . 402.6: 2:ROCKL 6:$0!L- .
MEDIATYPEi~-CONCRETE . 3:N00(,w 7: ASPHALT LI of F0INIS:. 30 - 4: METAL 8:0THER(SPEC!ff): CTINMINUTES: t 1l .N0 MATERIAL BACKGROUND USED ,
' DPM/100CM"2 REM.*flXED: LIMIT f
MAX:1 621 PASS 1273 AVG:, 142 PASS. 1273-
!.SID X: 176 W UM SUB ALPHA 196 PASS 1273 BETA BETA <
INST. FIXED MATER- BETA- INST GRIOIMST. AREA COUNTS /. BETA IAL 3 MDA flXED STAT EFF
- 10 8 ; ID4 BKG 1 FIXED CODE' OPM/ DPM/ $16?. CPM /DPM ,
CPM MIN GCPM- 100 CM'2 100 CM'2 ' I n > ICI.6 l-l ' l' 440 442 442 8 397 8N 0.2591. 402.6 2 1 440' 521 521 8 397 321 N ~0.2591 l 402.6 L ;3 1 440- ' 486 486 8 397 182 N 0.2591 ;
.402.6- :4 1- 440 496. 496 8- 397 222 N 0.2591-n 402.6= ,
5' 1 440 460 -460 8 397 79 N 0.2591 i
'402.6 6' 1 440 445 445. 8 2397 20 N 0.2591 402.6 7 ~l- 440' 452 452 8 397- 48 N - .0.2591 '402.6- .8 1- 440 439 439' -8 397 -4 N . 0.2591 l 402.6- 9 l'- 440' 481 '481 8 397 162 N 0.2591 1 402.6 10- 1 440 430 430 8 397 -40 N 0.2591 ] '402.6~ 11 1 440 467 467 8 397 107 N' O.2591 :
402.6 12 1 440 466 466 8 397 103 N 0.2591 l 402.6 13 1' '440 401 401 8 397 -154 N 0.2591 ; 402.6 '14 1 440- 416 416 8. 397 -95 N 0.2591
-402.6 15 :1 - 440; 425. 425- 8 397 -59 N 0.2591 s402.6 . ' 16 - 1 440- 464 464- 8 397. 95 N 0.2591 l402.6 : 17. 1 -- 440- 518 ' 518 8 397 309 N 0.2591 -402.6- ' 18 - 1 '440 523.- 523.- '8- 397 329 N 0.2591 i 402.6 ~19 :1 440 491 = 491 8 397 202 N - 0.2591 402.6 20 1. '440' .415' 415 8' '
397 -99 N 0.2591 402.6 21: 1' '440 472 472 8- -397 127 N. 0.2591
- 402.6 22 . 1- 440 l539 539 - ~ 8 '- 397 - 392 N 0.2591-402.6L 23 : 1 440 .465 465 8 397 99 N 0.2591 4
!402.6 . 24 1. 440 530 530 8 397 356 N 0.2591 i .6; : 25 1 440 524 524 '8 L397: 333 N 0.2591. , .6 26 ~ 1 ;440~ 597 '597 8- 397 ~ 621 Y . ;0.2591- -'
3 2.6 - 1 27: 1 440 469 ~469 8 397- 115 N 0.2591-407.60 '28 iL 440 516 ~ ' 516 ' 8 :397- 301 N .0.2591 C^2.6: 29- :1. '440- 431 -: 431 '8: 397' -36 N 0.2591
;402.6 ( W 301 1 440. 494.- 494- '8:
- 397' -214 N > 'O.2591 s .
~ . :)
~stdalAttE102.6' M [, 5M I-ClNT(CbEM DECCMMIS$10NING PLAN 12/10/96 -f!ML' SURVEY DATA SHIET J '( OATA FOR WAf FECTED AREA DESCRIPi!0N:
Re P 10 Bull 0 LNG 3-- F00ilhGS
,j ' AREA 02.6 10Tv ALPHA
PMIATION T!ft: 2. 00MPLETICP 04ffi 11/25/96 IICHNICIAWS: 18 MATERIAL. CODE. LOCA11M; 402.0- 1:00NCRETE 5: PLASTIC GRID 10; 402.6 2: ROCK 6:S0ll MEDIAffPl: CONCRETE 3:N00D 7:ASPHAli I of P0lMTS: 30 4: METAL 8:0THER(SPECIFY): CT IN MINUTES: ! NO MATERIAL B4CKGROUND USED DPM/100CM'2' REM.+ flKE0i LIMIT MAX: 34 PASS 5000 AVG: -9 PASS 5000 STD X: 13 MU !V8 ALPM -5 PASS 5000 ALPHA ALPHA INSi, FIXED MATER- ALPM INST GRID INST. AREA C00NTS/ ALP M 1AL MDA flXED STAT Eff ID i i 10 8 8KG 1 FIXE 0 CO0E OPM/ DPM/ SIG ? CPM /0PM CPM MIN GCPM 100 CM'2 100 CM'?
/ 2-. 6 1 6 4 1 l' 8 68 -17 N 0,1776 w 2.6 2' 6 4 0 0 8 68 -23 N 0.1776 402.6 3 6 4 8 8- 8 68 23 N 0.1776 402.6 4 6 4 1 1 8 68 -17 N 0.1776 2402.6 5 6 4 1 1 a 68 -17 N 0.1776 402.6 6 6 4 2 2 8 68 -11 N 0.1776 402.6 7 6 4 1 1 8- 68 -17 N 0.1776 402.6 8 6 4 1 1 8 68 -17 N 0.1776
,- 402.6 9 6 4 0 0 6- 68 -23 N 0.1776 402.6 10 6 4 1 1 8 68 -17 N 0.1776 402.6 11 6 4 3- 3 S .68 -6 k 0.1776 402.6 12 6 4 3 3 8 68 -6 N 0.1776 402.6 13 6 4 3 3' .8 68 6N 0.1776 402.6 14 6 4 2 2 '8 68 -11 N 0.1776 402.6 15 6 4 0 0 8 68 -23 N 0.1776 402.6 16 6 4 1 1 8 68 -17 N 0.1776 402.6 17 6 4 5 5 8 68 '6N 0.1776 402.6 la 6 4 10 10 8 68 34 N 0.1776
. 402.6 19 6 .4 5 5 8 '68 6N 0.1776 402.6 20 6 4 3 3 8 69 -6 N -0.1776 402.6 21 6 4 3 3 2 68 -6 N 0.1776 402.6 22 ' 6 4 1 1 8 68 '.7 N 0.1776 402.6- 23 6 4 2- 2 8 68 -11 N 0,1776 402.6 24 6 o 4 4 4 6 68 0N 0.1776 , 402.6- 25 6 4 1 1 8 68 -17 N 0.1776 ?"2.6 26 - 6 4 3 3 8 68 -6 N 0.1776 nl.6 27 6- 4 5 5 8 68 6N 0.1776 ' 402.6 28 7
- 6. 4 1 1 8 68 -17 N 0.1776 402.6 29 6 4 0 -0 8 68 -23 N 0.1776 402.6' 30 6 4 -0 0 8 6B -23 N- 0.1776
. - - . ~ . - , - . - . ... . - . . . . . . .. - - . - . - - - . . -
G g, _. - CINTICHEM FINAL' STATUS SURVEY P1,AN AND REPORT 3 . on .an. af f ected: area basis- and The has 402.7:Esurvey unit ~ .was of suryeyed~25 a surface area 5 m. direct' beta / alpha surface contamination measurement locations were. placed in this area using
-5' readings per I'm by im grid. One reading was taken at the center.
e of the grid and four each at the midpoint between the center and the corners of the grid.
~
5 gamma exposure rate measurement
'locat ions .were ~ placed in this area using.a im by im grid. In addition a 100T. s can . was: pe r formed in each 1m by im grid location.
The location of these' measurements is shown in.the accompanying
- map.
.- Measurement and sampling results for the 402.7 survey - unit are 'provided in 3. attached tables as follows: , ~ ' Table 402.7-1 Pad Behind Boi'lerhouse gamma exposure rate data l . Table 402.7-2 Pad Behind Boilerhouse direct beta / gamma surface contamination data Table 402.7-3 -Pad Behind Boilerhouse direct alpha surface contamination data
/O i e J 1 l
.a SECTION 14~
l
7IN A_ S_ RVEY CINCRE~E 3 A J 3 E - :: \ ] 3E::_ER -ELSE _ \:: L02.7 BLD'G #2 5 4 BOILER. HOUSE 3 2 1
/
[ 12/11/96 e e Dwnt/3147
= . . , . . - .. .-- . . . - _ . -. -.- .. - - -
e
- E a.
CINTICHEM FINAL' STATUS SURVEY PLAN AND REPORT AREA 402.7 - Meas. Type: Gamma , Exposure- .' Direct Direct Alpha'(b) Rate (a) Beta (b)~
~ Units unem/hr dpm/ . . dpm/.
100 cm2 ^100 cm2 MDA.' 2 -364 16 Number-of Meas: 5 25 25
====================m___============------ ~
__~= ==#m-- -________===---- Survey Unit.Mean: 2.2: 901 11 4 True MeantU alpha 95% C.L.: .3.0 935 14
' Criteria 5 1273 5000 -
Acceptable Y/N~ Y .Y Y 4
, ==================u===============______mmm=________====------ -- =---
Max Grid Block Wt. Mean 3 1203 23 q criteria 10 1273 5000-y\cceptableY/N Y Y Y r ========================___s_=============================_______se==== Max. Hot Spot Scans NONE NONE NONE (affected areas only) Criteria NA NA NA Acceptable.Y/N NA NA NA
=========================================---- =____===--- ==------- ===
(a) With a mean site background of 6 uRem/hr subtracted (b) Without subtraction of L radioactivity due to natural radioactive material content J w+ .~ - - . - - , -
;27 2g ~
W TABLE 402.7E li "s , CIWilCHEM DECOMMISSION!NG PLAN- .12/05/96 l X . FINAL SURVEY DATA' SHEET ,
.(jLDATAFORAffECTEDAREADESCRIPTION: ' CONCRETE PAD BEHIND 80!LERHOUSE-AREA 402.7TORUR/HR !
i- ~ AA0!Ai!0N ifPE: GAMMA SURVEY IN URER/HR f
. COMPLEi!0N '- ;
Y: DATE:11/25/96- r
., TECHNICIANS:- PG MATERIAL CODE -
AREA: 402.0 1:00NCRETE 5: PLASTIC UN!i: 402.7- 2: ROCK' -6:$0lL~
~MEDIA TYPE: CONCRETE 3:N000 7: ASPHALT 8ofPOINTS: 5 4: METAL '8:0THERISPECIFY): ,
NO MATERIAL BACKGROUND USED l MICR0 REM i
.: PER HOUR: LIMIT NAX:- '3.00 PASS 10 l AVG: 2.20 PASS 5' ! , STD X: 0.84 'MU SUB ALPHA: 3.00 PASS 5 l )
MATER- ; INST.. AREA. AREA IAL NET l 10 8- GRID POINT ID i BIG READING' CODE UREM/HR l
- ( UREM/HRUREM/HR 402.7 1 A 6 7 8 1 4F 2 A 6 9 8. 3
- 4. -3 A; 6 9 8 3
-402.7 4 A 6 8' 8 2 ,l402.7- 5 .A 6 8 8 2 ) .l j
l
- D' j L)
u I I l
f/(ff (g R jf-6 TWT:LE402.7-2 ClNTICNEM DECOMMISSIONING PLAN 12/05/96 FINAL SVRVEf DATA $NEET
) DATA FOR AFFECTED AREA DESCRIPi!0N:
CONCRETE PAD BEHIND BOILERHOUSE AREA 402.7 FOR BETA RADIATIONTYPE: 1 BETA SCALING FACTOR : 0.975 COMPLETION DATE: 11/25/96 TECHNICIANS: PG MATERIALCODE AREA: 402.0 1:00NCRETE 5: PLASTIC UNIT: 402.7 2: ROCK 6:S0ll MEDIA TYPE: CONCRETE 3:N000 7: ASPHALT 8 of POINTS: 25 4: METAL 8:0THER(SPECIff): CT IN MINVIES: 1 NO MATERIAL BACKGROVHD USED CPM /100CM~2 REM.+ FIXED: LIM'T MAX FOR IND GRID 1203 PASS 1273 AVG - SVRVEY UNIT 901 PASS 1273 STD X 100 HV SUB ALPHA 935 PASS MAX HOT SPOT NONE PASS 3816 WEIGHTED BETA 8 ETA SCAN TOTAL AVG. GRID IkST. FIXED MAX CONT. MATER- BETA MAX C00RIDINATES INST. AREACOUNTS/ BETA AREA IAL MDA FIXED PER INSI EFF. (l GRID ID LOCATION ID 8 BKG 1 COUNTS CM'2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPH
/ CPM MINVIES 100 CM^2 100 CM'2 TEST CM^2 TEST 402.7 1 1 5 375 577 0 0 8 364 792+/-237 NA 0.2617 402.7 1 2 5 375 631 0 0 8 364 1003+/-244 NA 0.2617 402.7 1 3 5 375 615 0 0 8 :64 941+/-242 NA 0.2617 402.7 1 4 5 375 588 0 0 8 364 835+/-238 NA 0.2617 402.7 1 5 5 375 614 0 0 8 364 937+/-242 NA 0.2617 402.7 2 1 5 375 569 0 0 8 364 760+/-236 NA 0.2617 402.7 2 2 5 175 606 0 0 8 364 905+/-241 NA 0.2617 40?.7 2 3 5 375 636 0 0 8 364 1023+/-244 NA 0.2617 402.7 2 4 5 375 581 0 0 8 364 307+/-238 NA 6.2617 402.7 2 5 5 375 615 0 0 8 364 941+/-242 NA 0.2617 402.7 3 1 5 375 590 0 0 8 364 843+/-239 NA 0.2617 402.7 3- 2 5 375 588 0 0 8 364 835+/-238 NA 0.2617 402.7 3 3 5 375 597 0 0 8 364 870+/-239 NA 0.2617 402.7 3 4 5 375 592 0 0 8 364 850+/-239 NA 0.2617 402.7 3 5 5 375 621 0 0 8 364 964+/-242 NA 0.2617 402.7 -4 1 5 375 584 0 0 8 364 819+/-238 NA 0.2617 402.7 4 2 5 375 628 0 0 8 364 992+/-243 NA 0.2617 402.7 4 3 5 375 602 0 0 8 364 890 +/- 240 NA 0.2617 402.7 4 4 5 375 596 0 0 8 364 866+/-239 NA 0.2617 ;
40?.7 4 5 5 u 682 0 0 8 364 1203+/-250 NA 0.2617 402.7 5 1 5 375 657 0 0 8 364 1027 +/- 244 NA 0.2617 402.7 5 2 5 375 589 0 0 8 364 839+/-238 NA 0.2617
.7 5 3 5 375 594 0 0 8 364 858+/-239 NA 0.2617 .7 5 4 5 375 573 0 0 8 364 776+/-237 NA 0.2617 2.7 5 5 5 375 619 0 0 8 364 956 +/- 242 NA 0.2617 - m
. g gh Gjf -
4flTABLEK2.7-3.
.CINTICHEM DECOMMISSIONING PLAN' 12/05/96-e% FINAL SURV1Y DATA SHEti- ' .Q DATA FOR AFFECTED AREA DESCRIP110N:
CONCRETE PAD BENIND 80!LERH005E' *
' AREA 402.7 FOR ALPHA f ig '.#ADIATIONTYPEi 22 -'
COMPLET10N-DATE:' 11/25/96
. TECHNICIANS: PG MATERIAL CODE " AREA: 402.0 1: CONCRETE 5:PLA$ilC-
- UNIT:
402.7 2: ROCK 6:S0!L. i MEDIA TYPE:- CONCRETE 3:N000 7: ASPHALT I of PO!riS: 25 - 4: METAL- 8:0THER(SPECIFY):
'Cf IN MINUTES:.. ~!
NO M1TERIAL BACKGROUND USED DPM/100CM'2~ REM.+ FIXED: LIMIT- , MAXFORINDGRIO 23 PASS 5000 AVG'- SURVEY UNIT 'll PASS 5000-
$10 X " ' 8- 'MU SUB ALPHA' 14 PASS 5000-M d HOT SPOT 'NONE PASS 15000 NEIGHTED ALPHA ALPHA SCAN TOTAL ' AVG. ,
GRID- . INST. FIXED MAX CONT. MATER- ALPHA MAX C00RIDINATES INST. AREA COGIS/ ALPHA AREA IAL MDA FIXED PER INSIEFF. .
. /M GRID 10 LOCAT)?N 10 t BKG 1 COUNi$ CM'2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM D CPM MINUTES 100CM'2 100 CM'2 TEST CM'2 TEST '
402.7 1 1 5 0- 2 0 0 8 16 12+/- 16 NA 0.1713 . 402.7 1 2 5 0 '3 0 0 8 16 - 18 +/- 20 NA 0.1713' 402.7 1 3 5 0 2 0 0 8 16 12 +/- 16 NA 0.1713 402.7' 1 4 5 0 2 0 0 8 16 12 +/- 16 NA 0.1713 402.7 1 5 5 0 3 0 0 8 16 18 +/- 20 NA 0.1713
.'402.7 2 1 5 0 3 0 0 8 16 18 +/- 20 NA 0.1713 402.7. 2 2 5 0 2' 0 0 8 16 12 +/- 16 NA 0.1713 402.7 - 2 3 5 0 1 0 0 8 16 6+/- 11 NA 0.1713 402.7 2 4 5 0 1 0 0 8 16 6+/- 11 NA 0.1713 402.7 2 5 5 0 4 0 0 8 16 23+/- 23 NA 0.1713 402.7 3 1 5 0 0 0 0 8 16 0+/- 0 NA 0.1713 402.7 3 2 5 0 1 0 0 8' 16 6+/- 11 NA 0.1713 5 402.7 3 .3 5- 0 2 0 0 8 16 12+/- 16 NA 0.1713 402.7. 3: 4 .5- 0 0 0 0 -8 16 0+/- 0 NA 0.1713 402.7z 3' .5 5 0- '3 0 0 98 16 18 +/- 20 NA 0.1713 --402.7 4. 1 -5 0- 4- 0 0 8 16 23 +/- 23 NA 0.1713 402.7' .4 2- 5 0 4 0 0 8 16 23 +/- 23 NA 0.1713 402.7 -4 3 5' 0. 0 0 0 8 16- 0+/- 0 NA 0.1713 -402.7- 4 '4 . 5 0 1 0 'O 8 .15 6+/- 11 NA 0.1713 402.7, 4_ 5 ' 5' - 0- 1. .0 0- 8' 16 6 +/ .11 - NA 0.1713-402.7. 5 1 5: 0- 0 0 0 8 16 0+/- 0 NA 0.1713
- - 402.7f 5 2 5 - 0. l' 0 0' 8 16 6+/- 11 NA 0.1713 ,
2.7 .5 3 -- 5 0 2 0 0 8 16 12+/- 16 NA 0.1713
.7- -51 4 5 0' 4 0 0 8 16 23 +/- 23 Na 0.1713 .7 Si :5; 5- 0 1 0 0 8 -16 6 +/- 11 NA . 0.1713.
- - . . . . _ ~
l CINTICllEM FINAL STATUS SURVEY PLAN AND REPORT {}- j The 402.8 survey unit was suryeyed on an affected area basis and has a surface area of 4 m. 21 direct beta / alpha surface contamination measurement locat ions were placed in this area using 5 readings per im by im grid. One reading was taken at the center of the grid and four each at the midpoint between the center and ! the corners of the grid. 7 gamma exposure rate measurement l locations were placed in this area using a im by im grid. In , addition a 100% scan was performed in each im by im grid location. l The location of these measurements is shown in the accompanying i map. j l Measurement and sampling results for the 402.8 survey unit are I provided in 3 attached tables as follows: Table 402.8-1 Pad Outside Bldg 2 E. Stairwell gamma exposure rate data Table 402.8-2 Pad Outside Bldg 2 E. Stairwell i direct beta / gamma surface contamination data l Table 402.8-3 Pad Outside Bldg 2 E. Stairwell direct alpha surface contamination data O
'd 4
u_) , SECTION 14 i l
o-,. . , v..- :,u.4-- ,a ,.-sk--..a-eh. . h+s e----+e -w3 - O o l I I'I/ DO V) AJ D l F' l i cri w 1
~
(/)l'I i j ! trJ D D U/ I ro ru : : 3D l _ _. m.,l y VJ D i
- W G) li j l l V)
( l C ( i O
~ ~ u )
i : ' ^ (/) {
- (
!! lil / M
( : :I I z
;g I s bI CD tj IO '
CD ~ CO u- ,,
- cn - J t rA x) y
- Lv ,
f--^ .O
- OS
E C1NTICIIEM FINAL STATUS SURVEY PIAN AND REPORT gm, AREA 402.8 Meas. Type: Gamma Exposure Direct Direct Rate (a) Beta (b) Alpha (b) Units uRem/hr_ dpm/ dpm/ 100 cm2 100 cm2 MDA 2 373 48 Number of Meas: 7- 21 21 c ==================================== =======================____===== Survey Unit Mean: 1.7 673 8 True Mean:U alpha 95% C.L.: 2.1 718 11 Criteria 5 1273 5000 Acceptable Y/N Y Y Y >
=======================================================================
Max Grid Block Wt. Mean 2 861 19
-. Criteria 10 1273 5000 CheceptableY/N Y Y Y =========================================================---- =========
Max. Ilot Spot Scans NONE NONE NONE (affected areas only) Criteria NA NA NA Acceptable Y/N NA NA NA l
==================================================== ================== ,
i 1 1 (c) With a mean site background of 6 uRem/hr subtracted i (b) Without subtraction of radioactivity due to natural radioactive material l content l l I l
)
I
/% i 7 i I \s, -
1
- - .. -, . , ~ ~ --- . -- - . . . . . ... . . - -
- EETA8LE-402.8 1
.ClhTICHEM DECOMMIS$10NING PLAN 12/16/96-n f!NAL SURVEY DATA $NEET-i ) .-DATA FOR AFFECT!D AREA DESCRIPTION:
CONCRETE PAD OUTSIDE 8LDG 2 EA$f.STAIRNELL AREA 402.8 FOR uR/NR'
' RADIATION. TYPE: GAMMA SURVEY IN UREM/HR- 'COMPLE110N
,; DATE:12/16/96- . TLCHNICIANS: ' PG MATERIALCODE AREA:- 402.0 1: CONCRETE 5: PLASTIC
'UNii: 402.8. 2: ROCK 6:S0ll- ~MEDIATYPE: CONCRETE'- 3:W000" 7: ASPHALT-8ofPOINIS: 7. .4: METAL ~ 8:0THER(SPECIFY):
NO MATERIAL EACKGROUND USED
- lMICR0 RIM'
' PERHOUR: LINii
- 4. MAX: .2.00 PASS 10
. AVG: 1,71 PASS 5 - STD X:. 0.49 MU SUB ALPHA: 2,07 PASS 5 MATER-INST.- AREA -AREA IAL - NET 10 I GRID POINT- ID $ BKG READING CODE UREM/HR pd UREM/HRUREM/HR' '402.8 Al A 6 8 8 ~2 -402.8 A2 A- 6 7 8 1 402.8 A3 A 6 8 8 2 .402.8 81 ~A- 6- 8 8 2 402.8 82 A 6. 8 8 2 402.8' . 83 ~A 6 8 8 2 402.8 64 A 6. 7- 8 1 1
t - 4 l l l n- i
].,
tiKi:LE402.8-2 -'fkh* l9 **V) f ClNTICHEM DECOMMISSIONING PLAN 12/16/96 , FINAL SURVEY DATA SHEET j DATA FOR AFFECTED AREA DESCRIPTION: CONCRETE PAD OUISIDE BLDG 2 [A$i STAIRNELL AREA 402.8 FOR BETA RADIAi!0N iiPE: 1 BETA SCALING FACTOR : 0.975 COMPLET!0h DATE: 12/16/96 TECHNICIANS: PG MATERIAL CODE AREA: 402.0 1:00NCRITE 5: PLASTIC UNIT: 402.8 .2: ROCK 6:$0!L MEDIA fiPE: CONCRETE 3:N000 7:ASPHAli I of POINTS: 21 4: METAL 8:0TNER(SPECIFY): CT IN MINUTES: 1 NO MATERIAL BACKGROUND USED DPM/100CM'2 REM.+ FIXED: LIMli MAX FOR IND GRID 861 PASS 1273 AVG - SURVEY UNil 673 PASS 1273 STD X 119 MU SUB ALPNA 718 PASS 1273 MAX HOT SPOT NONE PASS 3818 NEIGHTED BETA BETA SCAN TOTAL AVG, GRID INST. FIXED MAX CONT. MATER- 8 ETA MAX C00RIDINATES INST. AREACOUNTS/ BETA AREA IAL MDA FIXED PER INST EFF. 10 8 GRID 10 LOCATION ID I BKG 1 COUNTS CM'2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM /^ ) CPM MINUTES 100 CM'2 100 CM 2 TEST CM^2 TEST s_) 402.8 Al 1 9 309 427 0 0 8 373 521+/-235 NA 0.2322 402.8 Al 2 9 309 454 0 0 8 373 640+/-239 NA 0.2322 402.8 Al 3 9 309 500 0 0 8 373 844+/-246 NA 0.2322 402.8 At 4 9 309 423 0 0 8 373 504+/-234 NA 0.2322 402.8 Al 5 9 309 444 0 0 8 373 596+/-238 NA 0.2322 402.8 A2 1 9 309 487 0 0 8 373 786+/-244 NA 0.2322 402.8 A2 2 9 309 473 0 0 8 373 724+/-242 NA 0.2322 402.8 A2 3 9 309 445 0 0 8 373 601+/-238 NA 0.2322 402.8 A2 4 9 309 435 0 0 8 373 557t/-236 NA 0.2322 40?.8 A2 5 9 309 504 0 0 8 373 861+/-247 NA 0.2322 402.8 A3 1 9 309 484 0 0 8 373 773+/-244 NA 0.2322 402.8 A3 2 9 309 469 0 0 8 373 707+/-241 NA 0.2322 402.8 A3 3 9 309 488 0 0 8 373 791+/-244 NA 0.2322 402.8 .A3 4 9 309 470 0 0 8 313 711+/-242 NA 0.2322 402.8 81 1 9 309 463 0 0 8 373 680+/-241 NA 0.2322 402.8 81 2 9 309 481 0 0 8 373 760+/-243 NA 0.2322 402.8 82 1 9 309 405 0 0 8 373 424 +/- 231 NA 0.2322 402.8 82 2 9' 309 432 0 0 8 373 543+/-236 NA 0.2322 402.8 83 1 9 309 436 0 0 8 373 782 +/- 244 NA 0.2322 402.8 83 2 9 309 451 0 0 8 373 627+/-239 hA 0.2322 402.8 84 1 9 309 469 0 0 8 373 707+/-241 NA 0.2322 __,_/
; en - = * ~ ~ ^* ^
7 m
;K6TetLE402.830 ' ' ; .y ~^ I}fljl f _.
1 a i
- CINilCNEM DECOMIS$10NING PLANL 12/16/96i i D^[.FIMLSURVEiDATA$NEET.
, 0ATA FOR AFFECTED AREA DESCRIPi!0N: _,
T ~ CONCRETE P40 OUTSIDE BLDG 2 EAST STAIRNELL'
~ ]!
AREA 402.0f0RALPM-RA0!Afl0N.TTPE: 2, S COMPLET10ND
, ;OATE: ?12/16/96' TECHICIANS: ~ PG MATERIAL CODE -AREA: .402.04 1:00NCRETE: 5:PtASTIC UNII: , , ;402.8: 2: ROCK - .6:$0!L MEDIATYPE:- : CONCRETE- . 3:N000:- 7:ASPHAli ' 8 of PolMTS:. 121 - 4: METAL- 8:0THERISPECIFY): *Ci IN MINUTES:
il NO MATERIAL BACKGROUNO USED 1 DPM/100CM^2< REN.4 FIXED: LIMIT MX. FOR IND GRID :19 PASS 5000-i AVG F SURVEi UNIT: 18 PASS .5000
;STD X- T- t 'MU $U8 ALPNA:- .11 PASS ~ $000 ;
MAX NOT SP01< NONE PASS .15000 1 NEIGHTED ALPNA" ALPM SCAN TOTAL AVC. - GRID- ~1NST.. FIXED MX . CONT MTER- ALPNA MX C00RIDINATES INST.' AREA COUNTS / ALPNA AREA 1AL MDA FIXE 0 PER INST EFF. 10 8 GRID ID LOCATION 108 8KG :1 COUNIS CM^2. CODE . DPM/- DPM/ AVG 100 MX CPM /DPM-T CPM' MINUTES' 100CM'2 100CM'?TESTCM'2iEST d M
? 402.8. Al 1 9 1 3' .0- 0 8 48 13 +/- 25 0.1539 . '402.8.- Al 2 9 1- 2 0 0 8 48 6+/--22 NA 0.1539 402.8' Al . 3 9 1- 4 0 0 8 48 19 +/- 28 M 0.1539 .402.8' ' Al 4. 9' 1 4 0 0 8 48 19 +/- 28 NA 0.1539 , -402.8- Al" 5 9 1 3 0 0 8 - 48 -13 +/- 25 NA 0.1539 ! '402.8 . A2 1 9 1 3 0 0' 8 48 13 +/- 25 NA 0.1539 f402.8 A2 -2' 9 1 1 0 0 8' 48 0+/- 18 'NA 0.1539 L402.8 A2 3 9 1 4 0 0 8 48 19 +/- 28 M 0.1539 402.8J A2 4- 9 1 1 0 0 8 48 0 +/- 18 NA 0.1539 402.8 A2- 5 '9- 1 1 0 0 8 48 0+/- 18 NA 0.1539 !
- 402.8- -A3' 1 9 1- 1 0 0 8 48 0 +/- 18 NA 0.1539 -
402.8 - A3 - 2 9. 1 3 0 0 8 48 - 13 +/- 25 NA 0.1539
'402.8 A3 - -3 .9, !- 2- 0 0 8 48 -6 +/- 22 NA 0.1539 402.8 A3 '4 9 1 2 0 .0- 8 48 6 +/ 22 NA 0.1539 402.8 81: 1- .9 l 'l .1 0 0 8 48 0 +/ 18 M '0.1539 i , 402.8: 81 12- 9 1- :4' <0' 0 8' 48 19 +/- 28 NA 0.1539 .i ;402.8 82 ' !. 9 cl 2 0 0 8 48 6 +/- 22 M: 0.15391 ,
402.8 ? 82 2 9 1 l' 0 0 8 48 0+/- 18 NA 0.1539 l 402.8 83 . ! 9' li 2 J0 0 .8: '48 6 +/- 22 NA 0.1539 402.8: 83. 2 9 I' '.2 0 0) 8 48 . 6 +/- - 22 NA 0.1539 y /402.8:; 84 - 1- 9- -1 l. :o .0- 8 48 0 +/ 1 18' NA 0.1539 v
.yR' . l i +
CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT
.g-3U ~
L The 402.9 survey unit was -sjurveyed on an unaf fected area' basis and has a surface ~ area of 102 m. 30 measurement locations were placed approximately evenly spaced and/or at random ' dependent ~ upon availability of surfaces. The location of these - measurements is , shown in the accompanying map. The measurements performed were as : follows: 4 Direct exposure rate , Direct bet.a/ gamma surface contamination Direct alpha surface contamination Measurement ~ and sampling results' for _ the 402.9 survey unit are :
-provided in 3 attached tables as follows: ? Table 402.9-1 Stairs Between Mall Area and Rx Bldg. Retaining Wall-
- gamma exposure rate data ,
l Table 402.9-2 Stairs Between Mall Area and Rx Bldg. Retaining Wall direct beta / gamma surface contumination data Stairs Between Mall Area and Rx Bldg. Retaining Wall l l Table 402.9-3 j direct alpha surface contamination data
}
4 N s + 1 I l i
~ SECTION'14 . .,, 2~ e ,c-,- -n , ~ r- e e- - - , , - -
FINAL SURVEY GRID MAP REACTOR STAIRS RETAINING VALL UNIT 402.9
?"
62 63 65 l6pf 70
"" 68 71 , , , , , ;,26 ,
7 10 28 30 32 34 34 38 40 42 43 44 46 48 50 52 54 56 58 60 2 13 15 17 20 2: 1 14 16 18 21 2e 59 61, g i 19 22 25 27 122 124 126 12 8 131 133 St =
-11 3 127 129 g , f_1 121 123 125 13) 74 l7 80 87 89 92 95 97 99 101' 103 105 107 109 11: 115 11 6 117 N 30 7q 81 88 93 93 96 98 100 102 104 106 108 110 11E ' 114 7El73 , u,m -i j
17si 83 84 O 1Pk6/96
E] CINTICHEN FINAL STATUS SURVEY PIAN AND rep 0RT [] f AREA 402.9:
. Meas. Type: namma ,
Exposure Direct . Direct Rate (a)- Beta (b) Alpha (b) <
~ ; Units uRem/hr dpa/ dpa/ !
100 cm2. 100 cm2
' M)A 2 504 59 Number of Meas:. 30 30 30 ==================================================___ __=========
Survey Unit Mean: 2.2 784 15 ' True Mean U alpha 95% C.L.: 2.6 914- 20 d Criterla 5 1273 5000. Acceptable Y/N Y Y Y :
, ,cc===========================______=======_____=--- - ---- =___m t ~
- ), Max Ind. Result
' 5 1248 59 f )
v Criteria 10 1273 5000 Acceptable Y/N .Y Y Y ,
- ==============================---_=_----====______===========
l Max.' Hot Spot Scans NONE NONE NONE !
,(cffected areas only)
Criteria. NA NA NA Acceptable Y/N- NA NA NA cc================================____=------========._____s=====
-(s) with a mean site-background of 6 uRem/hr subtracted I (b) Without subtraction of radioactivity due to natural i radioactive material content J
l 1
)
I g. _%[ l l
.. . . ..,, -4 . , _ .. - .. _ . _ _
,7.- - M C.._.ststin8LE 402.91-0Y
.i sCINilCHEM DECOMMISSIONING PLAN - .04/09/97 .- .M.p. -f!NALSURVEYDATASHEti- ' .)g,7 ' ~'
DATAFORUNAffECTEDAREADESCRIPT!0N: . , - l
- STAIRS 8ETWEEN MALL AREA AND RX 6 LOG. RETAINING NALL- i
- AREA 402.9FORuR/HRf. .. ., 3 RADIATION TYPE:. GAMMA SURVEY IN UREM/NR
, ; .COMPIEi!DN C DATE:'03/28/97l
'U TECHNICIANS:' FM - MATERIALCODE
= AREA: 402.0.- 1: CONCRETE. 5: PLASTIC , " UNIT:- ,402.9 -- 2: ROCK; 6:$0!L; )
MEDIA TYPE: ROCKL '3:N000- 7: ASPHALT IofPOINTS: 30 4: METAL 8:0THER(SPECIFY): . . NO MATERIAL BACKGROUND USEDL
.p 'MICR0 REM- ,
s 1PER HOUR: t!MIT MAX: ?5.00 PASS 10' i AVG:' . 2.20 PASS 5 l STD X:- 1.21 ;
+
MU SUB ALPHA: 2.58 PASS 5 MATER-LINST. AREA AREA ~ ~IAL NET l
- n ID 8 - GRIDPOINT 10 I BKG READING CODE UREM/HR UREM/HRUREM/HR-402.9- ~2 A 6' 7- 8 1
.402.9 6 A 6 8 6 2 402.9- '7 A- 6 7- 8 1 -402.9 8' A- 6 7! 8 !
J402.9 13 . A 6 8 8' 2-402.9- 18 A .' 6 7 8 1 L402.9 19 A 6 7 8 1 l 402.9 21 - 'A- 6 8. 8 2 402'9. - 24 A 6 9 8 3
.46.9 =26 A 6 6 8 0 4 402.9 ' 29 'A 16 8 8 2 u402.9 1 30 A 6 7 .8- 1 "402.9. 43 A 16' 10 8- 4 .402.9 :'47 - -A. 6-' 10' 'S 4. -l402.9' 53 A- =6 !! 8- 5 -402.9- ' 63 <A 6 8 8 -. .2 402.91 : 67 .A 6 7 . 8' 1' 402.9- : 73 : 'A 6'- -7 8 'l l 402.9- 79 - 'A' 6 8 8.. 2' E402.9: 81 A: <
6 '7 .. 8. : 1 '_
'402.9L l 93 'A 6; 10 . 8- 4 402.9 - 95 A -- J6; .9 8 -3 402.9.T ' 98 ' -A 16 8. - '8 2 .y % (402 9 . ,1 , . :108. ' AL : 6- . 10 .8 :4 l
i
,G 02.9 1 7112/ A' ,6. ~9. 8. 3 + 402.9 3119 .A.- 61- : 9. 1 8 -3
_402.9: 3121. AL '61 8 -8 ~2 j402.9. .' ,1291 AJ '6? :9: -8 ?3- . B. (.402.9i 3l (132: A's 6? ;91 8( '3; l i402.11 ~ . !!$L
. .Ai" 6 ': :8 8t' 2-a -
'nATABLE.402.9-2L QA 0; .
C!NTICHEM DECOMMISSIONING PLAN 04/11/97
; (T TINAL SURVEY DATA SHEET- fh,q.9 - () DATA FOR UNAFFECTED AREA DESCRIP110N:
STAIRS 8EINEEN MALL' AREA AND RX BLDG, RETAINING WALL.
-AREA 402.9 FOR BETA-RA0!ATIONTYPE: 1 . BETA SCAtlNG' FACTOR : 0.975
- COMPLET!0N-DATE: 03/28/97
, ' TECHNICIANS: FM MATERIAL CODE " LOCATION: 402.0 1:00NCRETE 5: PLASTIC GRID 10: 402.9- 2: ROCK 6:$0!L-MEDIA TYPE: ROCK . 3:N000 7: ASPHALT IofPOINTS: 30 4: METAL 8:0iHERISPEClfY):
Ci IN MINUTES: 1 NO MATERIAL BACKGROUND USED L DPM/100CM^2
. REM.+flXED:~ LIMIT i ' MAX: 1248 PASS- 127 AVG: 784 PASS 1273 SID X: 417. -MU SUB ALPHA 914 PASS 1273-BETA BETA INST. FIXE 0 MATER-- ' BETA INST-GRID. INST. AREA. COUNTS / 8 ETA IAL M0A flXED ' STAT Eff . ID I ~4 10 i BKG 1 flXE0 CODE DPM/. OPM/ SIG 7 CPM /DPM CPM MIN GCPM 100 CM'I 100 CM^2 i M 402.9. 2 14 483 ' 536 536' 8 4'14 209 N 0.2597 402.9 6 14 505 574 574 8 423 273 N 0.2597 402.9' 7 14 606 887 887 8 463 !!!0 Y 0.2597 402.9 :8- 14 - 477 587 587 8- 412 434 Y 0.2597 -402.9 13 14 . 435 350'-350 8 394 -336 N 0.2597 402.9 18 14 548 787 787 8 441 944 Y 0.2597 '402.9 19 14 441 538 - 538 8 396- 383 N 0.2597 402.9 21- 14 '620 876 876 8 468 10!! Y - 0.2597 )
402.9 - 24 14 578- 886 886 8 452 1216Y 0.2597 l 402.9' 26 2 558 700 700' 8 452 570 Y 0.2556 ; 402.9' 29 2 623 782 782 8 477 638 Y 0.2556 l 402.9 2' 646 865 86' 8 485 .879 Y 0.2556 1 402.9 43 6- 690 890 80 8 703 819 Y 0.2506 I 402.9 47' 6 649 940 h. 8 682 1191 Y 0.2506 402.9- 53 :2 556 696 696- '8 431 562Y -0.2556 i
.402.9 63' 2- 410 ' 446 446 8^ 389 144 N 0.2556 1 402.9 67 2. 385: '456- 456 8 317- 285 N 0.2556 '
1402.9' 73 2 ;339- J399 - '399 8 354 241 N 0.2556
'402.9: [79 ' .2 -581: 878- 878 8 461 1192 Y 0.2556 '402.9 - ^ 81'- 2 558 863 ;863' 8 '452 '1224 Y 0.2556 4 402.9- ~ 93 - 2: 592 816; 816 8 465 899 Y 0.2556 '402.91 95.' - 2. ' 569 .- 821 821: 8- 456 1011-Y 0.2556 j ?402.9: l 98 - .2 568 869 869 8 .456 1208 Y 0.2556 '402.9' 1081 2- ' 610 849 ,849 8- 472 959 Y 0.2556 i L: V 402.9a l 112 ' '2' 652 '956 956-- '8 487. 1220 Y 0.2556 ! " ) 402.9 ' <119: '2 681 905 905 8 498 - 899 Y- 0.2556 ,402.9_ : . 121 2 699- 911 '911 8 504 851Y 0.2556 402.9 129; :2e - 598 -: ~909 909 8 467 ' 1248 Y 0.2556 -:402.9; /132:- 2. 614 ' 910 : 910 '8 .473 >l188 Y. 0.2556
- 402.9 ;135: 2 566 829> 829: 8 455 1055 Y 0.2556
g- 1 AffiABLE402.9 ' h:W t , CINTICHEMDECOMMISSIONINGPLAN :04/11/9'? 7%L FINAL SURVEY DATA $HEET- gh4 c4
- .Gl . DATA FOR UNAFFECTED AREA DESCRIPTION:
- STAIRSBEINEENMALLAREAANDRXBLOG.RETAININGNALL AREA 402.9 FOR ALPHA
.RADIATIONifPE:- .2' COMPLETION w 0 ATE: .03/28/91-- r ! -TECHNICIANS:' FM MATERIALCODE - - LOCATION: 402.0 1:00NCRETE- 5:PLASi!C-02 GRID 10: ~402.9i ~ 2iR00K - 6:S0ll-MEDIATYPEi- ROCK - 3:N00D 7:ASPHAli 8of. POINTS: 30 4: METAL 8:0THERISPECIFY):
iCT'IN MINUTES: .1 NO MATERIAL BACKGROUND USE0 OPN/100CM'2
' REM.+ FIXED: LIMIT MAX: 59 PASS. 5000 -AVG: 15 PASS- 5000 STD X: 16 .MUSUBALPHA 20 PASS. 5000 ALPHA ALPHA .
INST. FIXE 0 . ' MATER- ALPHA.. _ INSI-GRID INSI.' AREA COUNIS/. 4LPHA I AL' MDA -FIXE 0 STAT EFF
.108 8 108 8KG 1.flXED CODE 'OPM/. OPM/ SIG?~ CPM /0PM . CPM MIN 'GCPM 100 CM^2 100 CM"2 '402.9 2 14 2- -5 5 8 55 18 N . .0.1698 '402.9 6 14- 2 5 5 8 55 18 N 0.1698 -
402.9 7- 14 'l 4 4 8 43 18 N 0.1698 402.9 8 14 0 1 1 8 16 6N 0.1698 !
'402.9 13 14- 1 1 1' 8 43 0N 0.1698 402.9- - 18 14 1 6 6 '8 43 29 N 0.1698 . -]
402.9 19- 14 0 2. 2 8 16 12 N 0.1698
^
402.9- 21 14 1 5 5- 8 43 24N 0.1698
'402.9' 24 14 0 6 6 8 16 35 Y 0.1698 402.9 26 2 1 2 2 8 48 7N 0.1527 1 402.9 29 '2 1 0 0 8 48 -7 N 0.1527 -402.9 30 0N !,0.1527 402.9, 43 2
6 2 1 1 1 1 1 8 8 48 52 -6 N 0.1731
)
402.9 47 ~ 6 0- 6 6 8 15 35 Y 0.1731 402.9 53 :2' 0 '0 0-- 8 15 0N 0.1527
- 402.9 '63 2 0 2 2 8 15 - 13 N 0.1527 402.9 67 2 '0 2 2 8 18 13 N 0.1527 1
.402.9- - ' 73 2 0- 0 0 8- 18 0N 0.1527 .402.9' !. 79 ' 2- 0 4 4: '8 18 26 Y 0.1527 i
402.9' 81 2 2 4- 4: '8'
- 61 13 N 0.1527 402.9 : 93 - 2- '2 .4 4- 8-- 61 13 N 0.1527-402.9 95 2 .0. 9 '9- 8 18 59 Y ' 0.1527 ;
"402.9 .-98 2 2- 4 4- 8 61 '13 N 0.1527 402.9 1108 2 0- 0 0- 8 18 '0N 0.1527 i 7,b402.9~
s 112L .-2. '0 .5 ~ L5 8 18 33 Y 0.1527 i ::02.9 ' 119- 2- 0 4 4 8 18 26 Y 0.1527
'V402.9? '121. 2- 4- 2 2~ 8- 79 ' -13 N 0.1527
- 402.9 129 2. I 1- 1~ 8 48 - 0N- 0.1527 402.9 132 :2= 1 17 7 8 48 39 N 0.1527 402.9 ~ ~135 :2: .0. 5- 5 8 18 33 Y- 0.1527- '
i .{ .+ .
~i e CINTICHEM FINAL STATUS. SURVEY PLAN AND REPORT 4 +
The-402.10 survey; unit was sur)veyed on an affected area basis and has a surf ace' area of '500 m . 507 direct beta / alpha surface : contamination measurement locations were; placed in' this area using 5 readings per_ im by: Im grid. One -reading was _taken at the center i of,the grid and four each.at the midpoint between the center and the corners oi f. the grid.- 145 gamma . exposure rate measurement locationsLwere placed in o this area using a.1m by im' grid. In addition a_100% scan was performed in each im by im grid location. The-location 1of'these. measurements is 'shown. in the accompanying i map.
. Measurement 1 and sampling '.results for - t he 402.10 survey unit are .provided In'.3 attached tables as follows: , Table 402.10 Stairs Between~ Mall and Upper Roadway gamma exposure rate data ;
iTableL 402.10 Stairs Between Mall and Upper Roadway direct beta / gamma surface contamination data
-Table.402.10-3 Stairs Between Mall and' Upper Roadway direct alpha surface contamination data O-SECTION'!14 MJ'
FINAL SURVEY STAIRS BET \ DEEN MALL AREA & UPPER ROAD UNIT 402.10 O P O N M NDRTH h L 7 __ _ g RAILING g I-H O'
~
F E
- D C
B
. l' A 1 2 3 4 5 6 7: 8 9 10 .11 12 13 14' 15 16 17. 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35.36 37 38 39 40 41 ~ ' REV. 3/97A:
, :.D _S/3133 _
.j d
CINTIQiEM FINAL ~ STATUS SURVEY PLAN AND RFSORT-- V AREA 402.10'
; Meas. Type:- camma Exposure Direct Direct Rate (a) Beta (b) -Alpha (2) o:
Units- uRem/hr: dps/. dps/
- 100 cm2- 100 cm2 IOA- ,
- 2. 468 60 I '
Number of Meas:- , 145 507 ,507 ac============================================.- = - - , . Survey Unit.Mean: . 3.0 '504 23
- g. . True Mean;U alpha.95% 0.L.: 3.2- 529 25
~ Criteria- 5 -1273 5000 , Acceptable Y/N Y- Y Y
=========================rs===================================-____._.=
eMax Orid Block Wt. Mean 7 1239- 149 !' 4 Criteria 10 1273 5000 cceptable,Y/N Y Y Y
=========s============_======================================= =- -- m m
. Max. Hot Spot Scans NONE NONE NONE (cffected areas only). Critsrla NA NA NA 4 Acceptable Y/N NA NA NA ;
=============================================-- -- == ===========_---
(a)'With a mean site background of 6 uRem/hr subtracted (b) Without subtraction of radioactivity due to natural radioactive material content f
-yn .. .
s.J d - a
'd
- . j
E IEETA8LE 402.10 , 4 jh -% F CINilCHEM DICOMMIS$10NING PLAN 01/24/97 6- flNALSURVEYDATASHEET I DATAFORAffECTEDAREADESCRIPi!0N: 4- , STAIRS BEINEEV MALL AREA AND UPPER ROAD - AREA 402.10 f0R 4R/HR : RA0!Ai!0NTYPE:'GAMMASURVEiINUREM/HR
.r i .COMPLET!DN: ,. , DATE:12/23/96 1
TECHNICIANS:PS/fM/LC/PG MATERIAL CODE AREA: 402.0 = 1: CONCRETE 5: PLASTIC.-
-UM!i: 402.10. 2: ROCK- 6:$0!L ;MEDIATYPE: CONCRETE /N000 3:N000 7: ASPHALT 8 of Po!NTS: ~145 4: METAL 8:0THER(SPECIff):
NO MATERIAL BACKGROUND USED MICR0 REM PER HOUR: LIMIT-MAX: 7.00 PASS 10 - AVt: 3.01 PASS- 5 STD X: 1.71
~ MU SUB ALPHA: 3.24 PASS 5 M0TiR-INST. AREA AREA IAL NET .ID 8 . GRIO POINI 108 BKG READING CODE UREM/HR > /~N. . UREM/HRUREM/HR -tj 402.10 Al A 6 10 8- 4 -402.10 A2 A 6 12 8 6
- 402.10 A3 A 6 10 8 4 402.10 82 A 6 !! 8 5 402.10 83 A 6 11 8 5 402.10 84 A 6 12 8 6
^
402.10 84 A 6 11 8 5
;402.10- 85 A 6 10 8 4 402.10 A -6 9 8 3
^ 402.10 87 A 6 11 8 5 402.10 810- A 6 10 8 4 402.10- til A 6 '8 8 2
;402.10 C5 A 6 13 8 7 402.10 C7 A 6 13 8 7
- 402.10' . C10 A 6 7 8 1
-402.10~ Cll .A 6 6 8 0 .402.10 05 A 6 10 8 4-402.10.' 07 A- 6 '9 8 3 402.10- 010 A 6- 6 8 0 402.10: ~ 011 - A' 6 6- 8 0 '402.10-- E5 ~ A 6 9 8 3 402.10' ' E7 A 6 11 8 5 -402.10? . ' E B -. ~A. 6 9 8 3 10 ' E9 'A 6 .10 8 '4 10 u AL 6 6 '8 0 .10. = Ell'- -A 6 7 '8 1 - -402.10-'
E12' :A 6- '7 8 1
-402.10 E13 A~ :6 8- 8 2 '402.10: ' E14 - 'A- 6' '6 8. 0- -402.10 .E15' A 16 7- 8 l' , s-- w
!381E402.1021L - L g ;J . '402.10. [16 - :A' 6 -7 8 1 402.10- E17 ' A> 6~ 7 8 1 E18 ~A 6 7 8 1 1(/'?.10 $. ).10 E19 A- 6. 7. 8 1 402.10 f5 A. 6 9 8 3 C2.10 F6 4- 10 8. 4' .?I2.10 ' F7 ~A- 6 8' 8 2- - -.402.10 F8 A' '6' 9 8 3 'i '4 402.10 . F9. A 6' 11 .8 5 402.10 F10. -A 6 8 8 2. -
iC2.10 Fil. 'A 6 10 8 4 i'
.402.10- F12 l A. ,6 7- 8 1: <402.10- F13 A 6 8 ~8 2 ; -402.10 F14 ' .A :6 - 7- 8 1 1
402.10' F15 'A 6 6 -. 8 - '0
- C2.101 F16 1A 6 6 8 0-402.10' Fl? ' -A 6 8- '8 2 402.10 Fil . .A 6 6: 8 0 402.10: F19 ' A -- -6 8 .8- 2
., 402.10-- - 616 ' A 6 :8 8 2 , 402.10I ' G18 . A 6 7 8 'l- l
. -402.10 . G19 ' A :6 : 10 8- 4 ) '402.10 H16 ' A -- '6 10 8~ '4 402.100 . M18 : A- 6 10 8 4 - 402.10 : 'N19' A 6 8 8 2 402.10. H20 'A- 6 7 8 1 I -402.10 H21 A 6 9 8 3 l '**' 2.10 H22 A- 6 12 8 6 ... 10 H23 ' A 6 11 8 .5 N 10 H24 A 6 10 8 4 '402.10 H25 4 6 11 8 5 402.10 H26 A 6 12 8 6 ^402.10 H27 A 6 9 8 3-
. 402.10 H28 A 6 10 8 4 402.10- H29 A 6' 9 8 3 , 402.10 H30 A -6 8 8 2
!!6 402.10 A- 6- 11 8 5 ~402.10 -!!7 A 6 8 8 2 '402.10 !!8 A -6 8 8 2 402.10- '!!9 A 6 9 8 3 f <
402.10 120 'A 6- 8 8 2 .
-l 402.10~ 121 A- 6- 8 .8 2 '402.10' 122. A 6 10 - 8 4 402.10 '123 - A '- 6 .10 8 4 402.10! 124 -At 6 10 8 4 j
402.10l (125; A' 4-6 10 8 'j
- 402.10 126 : -A' 6 .- 10 8 4 i
~402.10-- 127 A 6 10 - 'O' .4 402.10- '128 A- 6: :ll, 8 5 1402.10- - 129 l , A .6- 9 8 '3 402.10. 130 A1 6 18 8< 2-f402.10L J27 A '6 9 '8 3 ,(402.10 l J29. . A.' ; 6 8- :8 2 10' KJ30- A- 6' 6 8 0
- 10. 127 AL 61 10 ' 8. 41 4 .10 - . . K28 . A. ,6: :ll: 8 5
':402.10' E29 - :A' 6' 8 8 2 ;402.10- .130' 'A- '6) 9 8 3 q !.402.10 531 - ~A- 6 10 - 8 4 1 -;402.10: y ,
K321 L A -' 61 11- '81 :5' !
~1
.v. . . - . - -- . . . - - . .
- ~
" lh8LE 402,10-1 : l- \ ' , , {L 2 C2.10 - K33 4 6 9 8 3 f402.10 K34 A: 6 9 8 3 /";10 '-
- K35 : 4-c 6 12 - '8 6 4
' ( ,10. ; i K36. A- 6 10 8; 4 402.10~- K37 ' A- 6' 10 8 4 L402.10 K38 - A 6 10 8 4 402.10 K39 A 6: 11 - '8 5 ~402.10c K40 A .6 10 8 4-402.10 'K411 A 11 8 5' i 402.10 L27 A 6 10 8 4
- 402.10 :- L28- A- 6' -10 8 4 402.10 L29.
'.A' 6- 11 8 \
5 402.10' L30- -A 6 !!- 8 5 402.10 L31 A 6 8 8 2
'402.10' L32 A" 6 10 .8- 4 ,
402.10 'L33
-A 6 10 - 8 4- '402.10 L34 A 6' 8 8 2:
402.10 L35' JA 6 9. .8 3
.-402.10 : L36 A' 6.. 11 8- 5 '402.10:P L37 A 6 !!2 8 6 402.10- L38 A- 6 9 8 -3 !
- 402.10: L39 A. 6 11 8 5 !
402.10' L40- A 6 12 8 6 402.10 L41 A 6 10 8 4 402.10 M2? A 6 8 8 2
'402.10, M28 A 6- 8 8 2
- 402.10- M37* A 6 8 8 2 402.10' M39 A' 6 8 -8 2 (70
.Lil0 M40 M41 A
A 6 6. 10 12 8 .- 8 4 6 402.10 -N27 A 6 10 8 4 j
-402.10 N28 A ,6 9 8 3 402.10 N37 A 6 8 8 2 .402.10; N39 A 6 7 8 1 '402.10 M40 A '6 9 8 3 ~402.10- N41 A 6 9 8 3 402.10- 027 A 6 9 8 3 402.10- 028 A 6 8 8- 2 402.10 037 A- 6 6 8 0
- 402.10 039 A 6 8 8 2 i402.10 040 4 6 10 8 4 i
-402.10 041 A 6 '9 8 3 -402.10' P37 A 6- 7 8 1 402.10 P39 A 6- 8 8 2 ~402.10f P40 A 6. -8 -8 2 402.10- .P41: A 6 7 8 1 ! 402.10: 037 A- 6 6 8 0 .l 402.10 039 A 6. 7. 8 1 ~
402.10- l040' A= 6 '7. 8- 1 402.10 ' 041 ' A~ 6- 9 8 3
-402.10 R37 .A 6 9' 8 3- -402.10- R38 A 6 6 8 0 '402.10' R39 -A -6 10 8 -4 f".10 R40. .A- 6 8 8 2-d ~R41 A- 6 7; 8 1 i . F,
'stfETABLE 602.10-2 ~CINT!CNEMDECOMMISSIMINGPLAN 06/04/97
(~T FINALSURVEYDATASHEET
'O DATA FOR AFFECTED AREA DESCRIPi10N:
STAIRS BEINEEN MALL ARIA AND UPPER ROAD - ARIA 402.10FOR8 ETA RA01Ai!0NliPE: -1 8tTA SCALING FACTOR : 0.915 COMPLE110N DATE:- 12/23/96 TECNNICIANS: PS/FM/LC/PG MATERIALCODE AREA: 402.0- 1: CONCRETE 5:PLAsi!C UFli: 402.10 2: ROCK 6:50!L MEDIAiTPE: ' CONCRETE /N000 3:N000 7:ASPNALT IofPOINTSi 507- 4: METAL 8:0TNER(SPECIFi): Ci IN MINUTES: 1 NO MATERIAL BACKGROUND USED OPM/100CM'2 REN.+ FIXED: Linii MAX FOR IND GRID 1239 PASS -1273
. AVG - SURVEY UNii 504 PASS 1273 STD X 339 MU SUB ALPNA 529 PASS 1273 MAX HOT SPOT NOME ~ PASS - 3018 NEIGNTED BETA lETA SCAN TOTAL AVG.
GRID' INST. FIXED -MAX CONT. MATER- BETA MAX C00RIDINATES INST. AREACOUNTS/ BETA. AREA IAL MDA FIXED PER INST EFF. ID 8 GR!D ID LOCATION 10 8 8KG 1 COUNTS CM'2 CODE OPM/ DPM/ AVG 100 MAX CPM /0PM I CPM MINUTES 100 CM'2 100 CM'2 TEST CM^2 TEST
- V) 402.10 Al 1 1 446 606 0 0 8 396 '628+/-249 NA 0.2615 402.10 -Al 2 1 446 598 0 0 8 396 596+/-248 NA 0.2615 402.10 Al 3 1 446 667- 0 0 8 396 867+/-256 NA 0.2615 402.10 A2 1 1 446 676 0 0 8 396 902+/-257 NA 0.2615 402.10 A2 2 1 446 661 0 0 8 396 843+/-256 NA 0.2615 402.10 ' A2 3 1 446 687 .0 0 8 396 945+/-259 NA 0.2615 ~402.10 A2 4 1 446 661 0 0 8 396 843+/-256 NA 0.2615 '402.10 A3 1 1 446 653 0 0 8 396 812+/-255 NA 0.2615 402.10 A3 2 1 446 638 0 0 8 396 753+/-253 NA 0.2615 402.10 81 1 1 446 654 0 0 8 396 816+/-255 NA 0.2615 402.10' 81 2 1 446 653 0 0 8 396 812+/-255 NA 0.2615 -402.10 81 3 1 446 650 0 0 8 396 A00+/-254 NA 0.2615 402.10 81 '4 1 446 668 0 0 8 396 871+/-257 NA 0.2615 402.10' 81 5 1 446 619 0 0 8 396 679+/-251 NA 'O.2615 402.10 82- 1 1 446 568 0- 0 8 396 479+/-245 Ni 0.2615 .402.10 82 2 1 446 622 0 0 8 396 690+/-251 NA 0.2615 402.10- i 82 3 1 446 .672 ;0 0 8 396 886+/-257 NA -0.2615 402.10 4 82- 4 1 446 654 0- 0 8 396 816+/-255 NA ' O.2615 .402.10:- 82 5 1 446 642 0 0 8 396 .769+/-254 NA 0.2615 402.10 83 1 1- 446 654 0' 0 8 -396 816+/-255 NA 0.2615 402.10 83 _ 2 _1 446- 608 0 0 8 -396' 635t/-250 NA 0.2615 402.10 '83 3 1 446 604 0 0- 8 396 620+/-249 NA 0.2615
- 402.10 . : 84 : .t : 1 446 574 _ 0 0 8 396 502+/-246 NA- 0.2615 y'$.10 84 2- '1 446 584 0 0 8 396 541+/-247 NA 0.2615 A ).10 65 I 1 446 577 0 0 8 396 514+/-246 NA 0.2615 1 402.10 . 85 2 'I; 446 576 0- '0 8 396 510+/-246 NA . 0.2615 C2.10 ' : 86 :1- 1 446_ 575 0 0 8 -396 506 +/ 246 NA 0.2615 402.10- 86 ~ -2c :l' 446 562 0 0 8 396 455+/-244 NA 0.2615
-402.10 87 1 1- 446 517 0 0 8 396 514+/-246 NA~ 'O.2615-402.10; 810 1_ 'I~ 446 491 0 0. '8' 396 176+/-235' NA- 0.2615
CILE 402.10-2 402.10 810 2 1 446 457 0 0 8 396 43+/-231 NA 0.2615 402.10 811 1 1 446 462 0 0 8 396 63+/-232 NA 0.2615 PC Bil 2 1 446 470 0 0 8 396 94+/-233 NA 0.2615 L0 811 3 1 446 462 0 0 8 396 63+/-232 NA 0.2615 402.10 til. 4 1 446 483 0 0 8 396 145+/-234 NA 0.2615 402.10 811 5 1 446 447 0 0 8 396 4+/-230 NA 0.2615 402.10 C5 1 1 446 738 0 0 8 396 1145+/-265 NA 0.2615
-402.10 C5 2 1 446 731 0 0 8 396 1118+/-264 NA 0.2615 402.10 C7 1 1 446 560 0 0 8 396 447+/-244 NA 0.2615 402.10 C7 2 1 446 596 0 0 8 396 588+/-248 NA 0.2615 402.10 C10 1 1 446 469 0 0 8' 396 90+/-233 NA 0.2615 402.10 010 2 1 446 426 0 0 8 396 -78+/-227 NA 0.2615 402.10 Cll 1 1 446 447 0 0 8 396 4+/-230 NA 0.2615 402.10 011 2 1 446 443 0 0 8 396 -12+/-229 NA 0.2615-402.10 C11 3 ~1 446 481 0 0 8 396 137+/-234 NA 0.2615 402.10 C11 4 1 446 466 0 0 8 396 78+/-232' NA 0.2615 -402.10 C11 5 1 446 426 0 0 8 396 -78+/-227 NA 0.2615 402.10 05 1 1 446 685 0 0 8 396 937+/-259 NA 0.2615 402.10- 05 2 1 446 661 0 0 8 396 843+/-256 NA 0.2615 402.10 07 1 1 446 602 0 0 8 396 612+/-249 NA 0.2615 402.10 . D7 2 1 '446 573 0 0 8 396 498+/-245 NA 0.2615 402.10 010 1 1 446 458 0 0 8 396 47+/-231 NA 0.2615 402.10 010 2 1 446 434 0 0 8 396 -47+/-228 NA 0.2615 402.10 010 3 1 446 482 0 0 8 396 141+/-234 NA 0.2615 402.10 O!! 1 1 446 490 0 0 8 396 173+/-235 NA 0.2615 402.10 Dil 2 1 446 448 0 0 8 396 8+/-230 NA 0.2615 402.10 011 3 1 446 468 0 0 8 396 86+/-232 NA 0.2615 402.10 Dl! 4 1 446 411 0 0 8 396 -137+/-225 NA 0.2615 0 011 5 1 446 472 0 0 8 396 102+/-233 NA 0.2615 .0 E5 1 1 446 671 0 0 8 396 882+/-257 NA 0.2615 l 402.10 E5 2 1 446 595 0 0 8 396 584+/-248 NA 0.2615 402.10 E7 1 1 446 645 0 0 8 396 781+/-254 NA 0.2615 402.10 E7 2 1 446 663 0 0 8 396 851+/-256 NA 0.2615 402.10 E7 3 1 446 668 0 0 8 396 871+/-257 NA 0.2615 402.10 E8 1 1 446 669 0 0 8 396 875+/-257 NA 0.2615 402.10 EB 2 1 446 650 0 0 8 396 800+/-254 NA 0.2615 '402.10 E8 3 1 446 639 0 0 8 396 757+/-253 NA 0.2615 402.10 E9 1 1 446 645 0 0 8 396 781+/r254 NA 0.2615
. 402.10 E9 2 1 446 644 0 0 8 396 777+/-254 NA 0.2615 l 402.10 E9 3 1 446 646 0 0 8 396 784+/-254 NA 0.2615 402.10 E10 1 1 446 647 0 0 8 396 788+/-254 NA 0.2615 402.10 E10 2 1 446 695 0 0 8 396 977+/-260 NA 0.2615 402.10 E10 3 1 446 426 0 0 8 396 -78+/-227 NA 0.2615 402.10 E10 4 1 446 430 0 0 8 396 -63+/-228 NA 0.2615 402.10, Eli 1 1 446 676 0 0 8 396 902+/-257 NA 0.2615 402.10 E11 2 1 446 681 0 0 8 396 922+/-258 NA 0.2615 402.10 E!! 3 1 446 482 0 0 8 396 141+/-234 NA 0.2615 402.10 Ell 4 1 446 446 0 0 8 396 0+/-230 NA 0.2615 402.10 Ell 5 1- 446 423 0 0 8 396 90+/-227 NA 0.2615 402.10 E12 1 1 406 627 0 0 8 378 867+/-247 NA 0.2615 402.10 E12 2 1 406 687 0 0 8 378 !!02+/-254 NA 0.2615 402.10 E12 3 1 406 661 0 0 8 378 1000+/-251 NA 0.2615 j 402.10 _ E13 1 1 406 633 0 0 8 378 890+/-248 NA 0.2615 1 4 0 E13 2 1 406 613 0 0 8 378 812+/-245 NA 0.2615 E13 3 1 406 621 0 0 8 378 843+/-246 NA 0.2615 402.10 'E14 1 1 406 682 0 0 8 378 -1083+/-254 NA 0.2615 402.10 E14 '2 -1 406 677 0 0 8 378 1063+/-253 NA 0.2615 402.10 E14 - 3 1 406 610 0 0 8 378 800+/-245 NA 0.2615 402.10 E15 1 1 406 654 0 0 8 378 973+/-250 NA 0.2615 402.10 E15 2 1 406 714 0 0 8 378 1208+/-257 NA 0.2615
58tf C2.10-2 402.10 (15 3 1 406 688 0 0 8 378 !!06 +/- 254 M 0.2615 402.10: ' (16 1 1 406 671 0 0 8 378 1039+/-252- NA 0.2615 r 10 E16 2 1 406 668 0 0 8 378 1028+/-'252 NA 0.2615 ( ;jl0 (16- 3 1 406 668 _0 0 8 378 1028+/-252 M 0.2615 402.10 ft? ! 4 415 443 0 0 8- 429 123+/-253 NA 0.2332 402.10- (17 - 2 4 415 457 0 0 8 .429 '185+/-255 NA 0.2332 402.10 !!7 3 4 415 395 0 0 8 429 -88+/-245 NA 0.2332 l 402.10 E18 1 4 415- 384 0 0 8 429 -136+/-244 NA 0.2332 402.10 (18 2 4 415 453 0 0 8 429 167+/-254 NA 0.2332 402.10- [18 3 4 415 423 0 0 8 429 35+/-250 NA 0.2332 402.10 (19 1 6 370 421 0 0 8 365- 202+/-218 NA .0.2591 402.10 E19 2 6 370- 474 0 0 8 365 412+/-225 NA 0.2591 402.10 F5 1 1 446 612 0 0 8 396 651+/-250 NA 0.2615 402.10 F5 2 1 446 671 0 0 8 396 882+/-257 NA 0.2615 402.10 F5 3 1 446 686 0 0 8 396 941+/-259 NA 0.2615 402.10 F6 1 1 446 632 0 0 8 396 730+/-252 NA 0.2615 402.10 F6 2 1 446 633 0 0 8 396 733+/-253 M 0.2615 402.10 F7 1 1 446 653 0 0 8 396 812+/-255 NA 0.2615-
!402.10. F7 2 1 446 662 0 0 8 396 847+/-256 NA 0.2615 402.10 F7 3 1 446 .654 0 0 8 396 816+/-255 M 0.2615 402.10 F7 4 1 446 655 0 0 8 396 820+/-255 MA 0.2615 402.10 F7 5 1 446 577 0 0 8 396 514+/-246 M 0.2615 402.10 F8 1 1 446 650 0 0 8 396 800+/-254 NA 0.2615 -402.10 F8 2 1 446 687 0 0 8 396 945 +/- 259 M 0.2615 4
402.10 F8 3 1 446 684 0 0 8 396 933+/-258 MA 0.2615 402.10 F8 4 1 446- 618 0 0 8 396 675+/-251 M 0.2615 . 402.10 F8 5 1 446 643 0 0 8 396 773+/-254 M 0.2615 i 402.10 F9 1 1 446 664 0 0 8 396 855+/-256 M 0.2615' ; F9 2 1 446 642 0 0 8 396 769+/-254 NA 0.2615 i (G10 2 10 F9 3 1 446 643 0 0 8 396 773+/-254 M 0.2615 J 402.10 F9 4 1 446 640 0 0 8 396 761+/-253 M 0.2615 402.10 F9 5 1 446 602 0 0 8 396 612+/-249 NA 0.2615 402.10 F10 1 1 446 667 0 0 8 396 867+/-256 NA 0.2615 j 402.10 F10 2 1 446 643 ~0 0 8 396 773+/-254 NA 0.2615 ' 1 402.10 F10 3 1 446 619 0 0 8 396 679+/-251 M 0.2615 402.10 F10 4 1 446 704 0 0 8 396 1012+/-261 M 0.2615 402.10 F10 5 1 446 684 0 0 8 396 933+/-258 NA 0.2615 402.10 Fil 1 1 446 635 0 -0 8 396 741+/-253 M 0.2615
-402.10 Fil 2 1 446 651 0 0 8 396 804+/-255 NA 0.2615 402.10 Fil 3 1 446 604 0 0 8 396 620+/-249 NA 0.2615 402.10 Fil 4 1 446 634 0 0 8 396 737+/-253 M 0.2615 402.10 Fil 5 1 446 651 0 0 8 396 804+/-255 M 0.2615 .402.10 F12 1 1 406 645 0 0 8 378 937+/-249 M 0.2615 402.10 -F12 2 1 406 629 0 0 8 378 875+/-247 M 0.2615 ]
402.10 F12 3 1: 406 675 0 0 8 378 1055+/-253 M 0.2615 402.10 F12 4 1 406 708 0 0 8 378 1184+/-257 p 0.2615 402.10 F12 5 -1 406 645 0 0 8 378 931+/-249 NA 0.2615 402.10: F13 :1 1 406 612. 0 0 8. 378 808+/-245 M 0.2615 402.10. F13 2 1 406 631 0 0 8 378 882+/-248 M 0.2615 402.10 F13 3 1 406 646 0 0 8 378 941+/-249 H 0.2615
-402.10 -F13 4 1 406 708 0 0 8 378' 1184+/-257 M 0.2615 402.10 F13 5 1 406 667 0 0 8 378 1024 +/- 252 M 0.2615 402.10 Fl4 - 1 1 406 654 0 0 8 378 973+/-250 NA 0.2615 10 F14 2 1 406 688 -0 0 8 378 1106+/-254 M 0.2615 949+/-250- M 94 0.2615 10 F14 3 1 406 648 0 0 8 378 .10 Fl4- 4 1 406 699 0 0 8 378 !!494/-256 M 0.2615 402.10 F14 5- 1 406 693 0- 0 8 378 1126+/-255 M 0.2615 402.10- F15 ' 1 1 406 699 0 0 8 378 !!49+/-256 M 0.2615 M
402.10 F15l 2 1 406 652 0 0 8 378 965+/-250 0.2615 402.10 F15 -. 3 1 406 648 0 0 8 378 949t/-250 M 0.2615
- . - ~. . .- . -- - .. . .. --
COLE 402.10-2 l l 402.10 F15 4 -1 406 697- 0 0 8 578 1141+/-255 NA - 0.2615 402.10 F15 5 1 406 704 0 0 8 378 !!69+/-256 NA 0.2615 L/'7.10 F16 1 1 406' 688 0 0 8 378 1106+/-254 NA 0.2615
-(_).10 F16- 2 1 406 649 0 0 8 378 953+/-250 NA 0.2615 402.10 F16- 3 1 406 678 0 0 8 378 1067+/-253 NA 0.2615 402.10 F16 4 1 406 644 0 0- 8 378 933+/-249 NA 0.2615 402.10 F16 5 1 406 588 0 0 8 378 714+/-242 NA 0.2615 1 l
402.10 F17 1 6 370 398 0 0 8 365 111+/-215 NA 0.2591 402.10 F17 2 6 370 456 0 0 8 365 340+/-223 NA 0.2591 ; 402.10' F17 3 6 370 408 0 0 8 365 150+/-216- NA 0.2591~ l 402.10 F17 4 6 370 420 ' 0 0 8 365 -198 +/- 218 NA 0.2591 , 402.10- 117 5 6 370 442 0 0 8 365- 285+/-221 NA 0.2591 1 402.10- F18 1 6 370 435 0 0 8 365 257+/-220 NA 0.2591 ! 402.10 . FIS 2 6 370 437 0 0 8 365 265+/-220 NA 0.2591 l 402.10 F18 3 6 370 434 0 0 8 365 253+/-220 NA 0.2591 402.10 F18 4 6 370 426 0 0 8 365 222+/-219 NA 0.2591 402.10 F18 5 6 370 456 0 0 8 365 340+/-223 NA 0.2591 402.10 F19 1 6 370 406 0 0 8 365 143+/-216 NA 0.2591 402.10 F19 2 6 370 406 0 0 8 365 143+/-216 NA 0.2591 402.10 F19 3 6 370 419 0 0 8 365 194+/-218 NA 0.2591 402.10 ' G16 1 6 370 ~683 0 0 8 365 1239+/-252 NA 0.2591 402.10 G16 2- 6 370 629 0 0 8 365 1025+/-245 NA 0.2591 402.10- G18 1 6 370 329 0 0 8 365 -162+/-205 NA 0.2591 402.10 G18 2 6' 370 434 0 0 8 365 253+/-22. NA 0.2591 402.10 G18 3 6 370 403 0 0 8 365 131+/-216 NA 0.2591 402.10 G18 4 6 370 371 0 0 8 365 4+/-211 NA 0.2591 402.10 gig 5 6 370 438 0 0 8 365 269+/-221 NA 0.2591 402.10 Gl9 1 6 370 470 0 0 8 365 396+/-225 NA 0.2591 p.10 619 2 6 370 399 0 0 8 365 115+/-215 NA 0.2591
% I.10 H16 1 6 370 580 0 0 8 365 831+/-239 NA 0.2591 .
402.10 H16 2 6 370 595 0 0 8 365 891+/-241 NA 0.2591 402.10 HIB 1 6, 370 562 0 0 8 365 760+/-237 NA 0.2591 402.10 M18 2 6 370 402 0 0 8 365 127+/-216 NA 0.2591 402.10 H18 3 6- 370 408 0 0 8 365 150+/-216 NA 0.2591 402.10 H18 4 6 370 - 517 0 0 8 365 582+/-231 NA 0.2591 402.10 H18 5 6 370 392 0 0 8 365 87+/-214 NA 0.2591 ! 402.10 Hl9 1 6 370 558 0 0 8 365 744+/-236 NA 0.2591 l 402.10 H19 2 6 370 407 0 0 8 365 146+/-216 NA 0.2591 l 402.10 H19 3 6 370 634 0 0 8 365 1045+/-246 NA 0.2591 l 402.10 H19 4 6 370 537 0 0 8 365 661+/-234 NA 0.2591 402.10 H20 1 6 370 543 0 0 8 365 685+/-234 NA 0.2591 402.10 H20 2 6 370 642 0 0 8 365 1077+/-247 NA 0.2591 402.10 H20 3 6 370 571 0 0 8 365 796+/-238 NA 0.2591 l 402.10 H21 1 14 434 516 0 0 8 388 320+/-235 NA 0.2632 i 402.10 666+/-246 0.2632 402.10 H21 2 14 434 605 0 0 8 388~ NA
)
H21 3 14 434 515 0 0 8 388 316+/-235 NA 0.2632 402.10 H22- 1 14 434 568 0 0 8 388 522+/-242 NA 0.2632 402.10 H22 2 14 434 593 0- 0 8 388 620+/-245 NA 0.2632 402.10 H22 3 14 434 530 0 0 8 388 '374+/-237 NA 0.2632 402.10 H23 1 9 493 - 505 0 0 8 468 53+/-273 NA 0.2322 402.10 ; H23 2 9 493 500 0 0 8 468 31+/-273 NA 0.2322 4 402.10 H23 - 3 9 493 521 0 0 8 468 124+/-276 NA 0.2322 1
-402.10 H24 1 9 493 543 0' 0 8 46f, 221+/-279 NA 0.2322 l ; [*1 10 - H24 2 9 493- 545 0 0 8 468 230+/-279 NA 0.2322 l 4 ).10 H24 3 9 493 551 0 0 8 468 256+/-280 NA 0.2322 l 402.10 H25 1 9 493 547- 0- 0 8- 468 239+/-279 NA 0.2322 l 402.10 H25 2- 9 493 562 0' 0 8 468 305+/-281 NA 0.2322 -i 402.10 H25 3 -9 493- 486 0 0 8 468 -31+/-271 NA 0.2322 l 402.10 H26 1- 9 493 564 0 0 8 468 314+/-281 NA 0.2322 '
402.10 H26 2 9 493 513 -0 0 8 468- 88+/-275 NA 0.2322 l
CBlt402.10-2 402.10 N26 - 3 .9 493 552 0 0 8 468 261+/-280 NA 0.2322 402.10 H27 1; 9 493 584 0 0 8- 468 402 +/- 284 NA 0.2322
/" 10 H27 2 9 493 596 0 0 8 468 455+/-286 NA 0.2322 - ( J10 N27 3 9 493 447 0 0 8 468 -203 +/- 265 NA 0.2322 402.10 H28 1- 9 493 536 0 0 8 -468 190+/-278 NA 0.2322 402.10- N28 ' 2. 9 493 592 0 0- 8 468 437+/-285 NA 0.2322 402.10 H28 3 9 493 500- 0 0 8 468 31+/-273 NA 0.2322 402.10 N29 - 1 9- 493 506 0 0 8 468 57+/.274 hA 0.2322 402.10 N29 2 9 493 506 0 0 8 468 57+/-274 NA 0.2322 402.10 ' N29 3 9 493 499 0 0 8 468 27+/-273 NA 0.2322 402.10 N30 .I 9 493 542 0 0 8 468 216 +/- 279 NA 0.2322 '402.10 N30 2 '9 493 552 0 0 8 468 261+/-280 NA 0.2322 402.10. N30 3 9 493 622 0' 0 8 468 570+/-289 NA 0.2322 402.10 !!6 -1 6 370 574 0 0 8 365 808+/-238 NA 0.2591 402.10 ' 116 2 6' 370 581 0 0 8 365 835+/-239 NA 0.2591 402.10 116 3- 6 370 $19 0 0 8 365 590+/-231 NA 0.2591 402.10 !!7 1 6 370 576 0 0 8 365 815+/-239 NA 0.2591 402.10 117 2 6 370 558 0 0 8 365 744+/-236 NA 0.2591 402.10 !!8 1 6 370 544 0 0 8 365 689+/-235 MA 0.2591 402.10 118 2 6 370 592 0 0 8 365 879 +/ 241 NA 0.2591 '402.10 118. 3 6 370 477 0 0 8 365 424+/-226 NA 0.2591 402.10 118 4 6 370 479 0 0 8 365 431+/-226 NA 0.2591 402.10 118 5 6 370 539 0 0 8 365 669+/-234 NA ~ 0.2591 402.10~ 119 1 6 370 564 0 0 0 365 768+/-237 NA 0.2591 402.10 !!9 2 6 370 600 0 0 8 365 910+/-242 NA 0.2591 402.10 119 3 6 370 520 0 0 8 365 594+/-231 NA 0.2591 -402.10 119 4 6 370 562 0 0 8 365 760+/-237 NA 0.2591 402.10 !!9 5 6 370 592 0 0 8 365 879+/-241 NA 0.2591 0 10 .120 1 6 370 576 0 0 8 365 815+/-239 NA 0.2591 2 10 120 2 6 370 413 0 0 8 365 170+/-217 NA 0.2591 402.10 120 3 6 370 511 0 0 8 365 558+/-230 NA 0.2591 402.10 120 4 6 370 582 0 0 8 .365 839+/-239 NA 0.2591 ;
402.10 120 5 6 370 522 0 0 8 365 602+/-232 NA 0.2591 402.10 121 1 14 434 561 0 0 8 388 495+/-241 NA 0.2632 402.10 121 2 14 434 522 0 0 8 388 343+/-236 NA 0.2632 402.10 121 3 14 434 545 0 0 8 388 433+/-239 NA 0.2632 402.10 121 4 14 434 550 0 0 8 388 452+/-240 NA 0.2632 402.10 121 5- 14 434 519 0 0 8 388 331+/-236 NA 0.2632 402.10 122 1 14 434 588 0 0 8 388 600+/-244 NA 0.2632 402.10 122 2 14 434 542 0 0 8 388 421+/-239 NA 0.2632 402.10 -122 3 14 434 567 0 0 8 388 518+/-242 NA 0.2632 402.10 !?2 4 14 434 514 0 0 8 388 312+/-235 NA 0.2632
'402.10 122 5 14 434 554 0 0 8 388 468+/-240 NA 0.2632 402.10 123 1 9 493 504 0 0 8 468 49+/-273 NA 0.2322 '402.10 123 2 9 493 539 0 0 8 468 203+/-278 NA 0.2322 .402.10 - 123 3 9 493 474 0 0 8 468 -84+/-269 NA 0.2322 402.10 123 4 9 493- 566 0 0 8 468 322+/-282 NA 0.2322 '402.10 123- 5 9 493 582 0 0 8 468 393+/-284 NA 0.2322 402.10 124' I 9 493 601 0 0 8 468 477+/-286 NA 0.2322 402.10 124 2 9 493 491 0 0 8 468 -9 +/- 272- NA 0.2322 402.10 124 3 9 493 535 0 0 8 468 186+/-278 NA 0.2322 402.10 124- 4 9 493 531 0 0 8 468 168+/-277 NA 0.2322 402.10 124 .5 9 493 586 0 0 8 468 411+/-284 NA 0.2322 ,
10 125 1 9 493 569 0 0 8 468 336+/-282 NA 0.2322 10 125 2 9 493 496- 0 0 8 468 13+/-272 NA 0.2322 4 .10- 125 3 9 493 516 0 0 8 468 102+/-275 MA 0.2322 402.10 125 4 9 493 567 0 0 8 468 327+/-282 NA 0.2322 4 402.10 125 5 '9 493 493' 0 0 8 468 0+/-272 NA 0.2322 402.10- 126 1 9- 493 552 '0 0 8 468 261 +/ 280 NA 0.2322
.402.10 126. 2 '9 493 567 0 0 8 468 327+/-282 NA 0.2322
,IR8tt 402.10 2 402.10 126 -3' 9 493 531 0 0 8 468 168+/-277 NA 0.2322 402.10 126 4 9~ 493 526 0 0 8 468 146+/-276 NA 0.2322 /'%10 126 5 9 493 514 0 0 8 468 93+/-275 NA 0.2322 h.10 127 1 9 493 562 0 0 8 468 305+/-281 NA 0.2322 402.10 127 2 9 493 536 0 0 8 468 190+/-278 NA 0.2322 402.10 127 3 9 493 522 0 0 8 468 128+/-276 NA 0.2322
^ 402.10 127 4 9 493 538 0 0 8 468 199+/-278 NA 0.2322 402.10 127 5 9 493 457, 0 0 8 468 -159+/-267 NA 0.2322 402.10 128 1 9 493 521 0 0 8 468 124+/-276 NA 0.2322 402.10 128 2 9 493 - 548 0 0 8 468 243 +/ 279 NA 0.2322 402.10 128 3 9 493 547 0 0 8 468 239+/-279 NA 0.2322 4J2.10 128' 4 9 493 540 0 0 8 468 208+/-278 NA 0.2322 407.10 128 5 9 493 503 0 0 8 468 44+/-273 NA 0.2322 402.10 129 1 9 493 528 0 0 8 468 155+/-277 NA 0.2322 402.10 129 2 9 493 519 0 0 8 468 115+/-275 NA 0.2322 402.10 129 3 9 493 521 0 0 8 468 124+/-276 NA 0.2322 402.10 129 4 9 493 539 0 0 8 468 203+/-278 NA 0.2322 402.10 129 5 9 493 533 0 0 8 468 177+/-277 NA 0.2322 402.10 130 1 9 493 511 0 0 8 468 80+/-274 NA 0.2322 402.10' 130 2 9 493 537 0 0 8 468 194+/-278 NA 0.2322 4 402.10 ~ 130 3 9 493 496 0 0 8 468 13 Y 272 NA 0.2322 402.10- 130 4 9 493 573 0 0 8 468 353 +/ 283 NA 0.2322
- 402.10 130 5 9 493 622 0 0 8 468 570 +/ 289 NA 0.2322 3 402.10 J27 1 1 406 673 0 0 8 378 1047+/-253 NA 0.2615 402.10 J29 1 1 406 587 0 0 8 378 710+/-242 NA 0.2615 402.10 J29 2 1 406 602 0 0 8 378 769+/-244 NA 0.2615 402.10 J29 3 1 406. 585 0 0 8 378 702+/-242 NA 0.2615 3
402.10 J29 4 1 406 575 0 0 8 378 663+/-241 NA 0.2615
/'y 10 J29 5 1 406 534 0 0 8 378 502+/-236 NA 0.2615 , V.10 J30 1 1 406 595 0 0 8 378 741+/-243 NA 0.2615 402.10 330 2 1 40A 574 0 0 8 378 659+/-241 NA 0.2615 ,
- 402.10 127 1 1 406 651 0 0 8 378 961+/-250 NA 0.2615 i 402.10 K27 2 1 406 597 0 0 8 '378 749+/-243 NA 0.2615 l 402.10 K27 3 1 406 495 0 0 8 378 349+/-231 NA 0.2615 ! 402.10 K28 1 1 406 506 0 0 8 378 392+/-232 NA 0.2615 j 402.10 K28 2 1 406 492 0 0 8 378 337+/-230 NA 0.2615 1 402.10 K29 1 1 406 616 0 0 8 378 824+/-246 NA 0.2615 402.10 K29 2 1 406 585 0 0 8 378 102+/-242 NA 0.2615 402.10 R9 3 1 406 626 0 0 8 378 863+/-247 NA 0.2615 402.10 K29 4 1 406 617 0 0 8 378 828+/-246 NA 0.2615 402.10- K29 5 1 406 541 0 0 8 378 529+/-237 NA 0.2615 402.10 K30 1 1 406 686 0 0 8 378 1098+/-254 NA 0.2615 402.10 K30 2 1 406 609 0 0 8 378 796+/-245 NA 0.2615 l 402.10 K30 3 1 406 600 0 0 8 378 761+/-244 NA 0.2615 402.10 130 4 1 406 589 -0 0 8 378 718+/-242 NA 0.2615 402.10 K31 1 1 406 648 0 0 8 378 949+/-250 NA 0.2615 402.10 K31 2 1 406 612 0 0 8 378 808+/-245 NA 0.2615 402.10 K31 3 1 406 657 0 0 8 378 984+/-251 NA 0.2615 402.10 K32- 1 1 406 612- 0 0 8 378 808+/-245 NA 0.2615 402.10 K32 2 1 406 626 0 0 8 378 863 +/ 247 NA 0.2615 402.10 K32 3 1 406 643 0 0 t 378 930+/-249 NA 0.2615 402.10 K33 1 1- 406 672 0 0 8 378 1043+/-252 NA 0.2615 402.10 K33 2 1 406 583 0 0 8 378 694+/-242 NA 0.2615
.10 K33 3 1 406 621 .0 0 8 378 843+/-246 NA 0.2615 10 134 1 9 493 545 0 0 8 468 230+/-279 NA 0.2322 2.10 'K34 2 -9 493 602 0 0 8 468 481+/-286 NA 0.2322 402.10 ' K34 3 9 493 528 0 0 8 468 !$5+/-277 NA 0.2322 1 ~402.10 K35 1 :9- 493 603 0 0 8 468 486+/-287 NA 0.2322 402.10 135 _2 9. 493 0 0 -8 468 345+/-282 NA 0.2322 -402.10- K35- 3 9 - 493 526- - 571 0 0 8 468 146+/-276 NA 0.2322
CBLE 402.'iH 402.10 K36: 1 9. 493 565 '0 0 8 468 318+/-282 H 0.2322 402.10 K36' 2 9 493 572 ~0 -0 8 468 349+/-283 NA 0.2322 K36- '3 9 493 550 0 0 8 468 252+/-280 NA 0.2322
- /"s10 -
C10 K37 1 9 -493 554 0 0 8 468 269 +/- 280 -M 0.2322 402.10 K31 2 9- 493 500 0 0 8 468 384+/-284 M 0.2322 402.10 K37 3 9 493 529 0 0 8 468 159+/-277 NA -0.2322 402.10 '.K38 1 9 493 567 0 0 8 468 327+/-282 NA 0.2322 402.10 K38 ~2 9 493 506 0 0 8 468 57+/-274 NA 0.2322 402.10 K38 3 9 493 525 0 0 8 468 141*/-276 NA 0.2322 402.10 K39 1' 9 493 531 0 0 8 468 160+/-277 NA 0.2322 402.10 K39 - 2; 9 493 525 0 0 8 468 141+/-276 NA 0.2322 j ~ 402.10 K39 3 9 493 514 0 0 8 468 93 +/- 2D M 0.2322 402.10 K40 1 9 493 519 0 0 8 468 115+/-275 NA 0.2322
=402.10 K40: 2 9 493 535 0 0 8 468 186+/-278 H 0.2322 402.10 _K40 3 9 493 524 0 0 8 468 137+/-276 NA 0.2322 402.10 K41 1 9 493 474 0 0 8 468 -84+/-269 NA 0.2322 4 02.10 K41 2~ 9 493 540 0 0 8 468 208+/-278 M 0.2322 402.10 L27 1 1 406 645 0 0 8 378 937+/-249 NA 0.2615 402.10 L27 2 1 406 613 0 0 8 378 812+/-245 NA 0.2615 402.10- L27 3 1 406 $17 0 0 8 378 435+/-234 NA 0.2615 402.10 L27 4 1 406 484 0 0 8 378 306+/-229 NA 0.2615 , ; 402.10 L27 5- 1 406 617 0 0 8 378 828+/-246 H 0.2615 402.10 L28 1 1 406 465 0 0 8 378 231+/-227 M 0.2615 402.10 L28 2 1 406 559 0 0 8 378 600+/-239 hA 0.2615 402.10 L28 3 1 406 531 0 0 8 378 490+/-235 NA 0.2315 402.10 L28 4 1 406 507 0 0 8 378 396+/-232 NA 0.2615-402.10 L28' 5 1 406 618 0 0 8 378 831+/-246 NA 0.2615 402.10 L29 1 1 406 596 0 0 8 378 745+/-243 NA 0.2615
( 7 10 L29 2 1 406 567 0 -0 8 378 631+/-240 NA 0.2615 (, 2 10 L29 3 1 406 460 0 0 8 378 212+/-226 NA 0.2615 402.10 L29 4 1 406 616 0 0 8 378 824 +/- 246 NA 0.2615
'402.10 L29 5 1 406 622 0 0 8 378 847 +/- 246 NA 0.2615 402.10 L30 1 1 406 621 0 0 8 378 843+/-246 M 0.2615 402.10 L30 2 1 406 616 0 0 8 378 824+/-246 NA 0.2615 402.10 L30 3 1 406 588 0 0 8 378 714+/-242 M 0.2615 402.10 L30 4 1 406 641 0 0 8 378 922+/-249 H 0.2615 402.10 L30 5 1 406 644 0 0 8 378- 933+/-249 NA 0.2615 402.10 L31 1 1 406 635 0 0 8 378 898+/-248 NA 0.2615 ,
402.10 L31 2 1 406 589 0 0 8 378 718+/-242 H 0.2615 j 402.10 L31 3 1 406 626 0 0 8 378 863+/-247 NA 0.2615 1 402.10 L31 4 1 406 655 0 0 8 378 977+/-250 NA 0.2615 ) 402.10 L31 5 1 406 697 0 0 8 378 1141+/-255 H 0.2615 l 402.10 L32 1 1 406 671 0 0 8 376 1039+/-25? H 0.2615 , 402.10 L32 2 406 704 0 0 8 378 1169+/-256 H 0.2615 1 M 0.2615 l 402.10 L32 3 1 -406 583 0 0 8 378 694+/-242 1 402.10 L32 4. 1_ 406 641 0 0 8 378 922 +/ 249 NA 0.2615 402.10 L32 5 1 406 624 0 0 8 378 855+/-247 NA 0.2615 402.10 L33 1 1 406 643 0 0 8 378 930+/-249 M 0.2615 1 402.10 L33 2 1 406 702 0 0 8 378 1161+/-256 M 0.2615 1 402.10 L33 3 .l. 406 649 0 0 8 378 953 +/- 250 M 0.2615 402.10 L33 4 1 406 655 0 0 8 378' 977 +/- 2F: M 0.2615 , '402.10 L33 1 406 636 0 0 8 378 902+/-248 H 0.2615 402.10 L34 1 L9 493 559 0 0 8 468 292+/-281 NA 0.2322 0- L34 2- 9 493 610 0 0 8- 468 517+/-288 8 0.2322 0 'L34 3 9 493~ 565 0 0 8 468 318+/-282 NA 0.2322 4 .10 L34 4 9 493 576 0 0 8 468 367+/-283 H 0.2322 402.10 L34 5 9 493 609 :0 0 8 -468- 512+/-287 M -0.2322 402.10. L35 ! 9 493 515 '0 0 8 468- 97+/-275 M 0.2322 402.10 L35 2 :9 493 544 - 0 0 8 468 225+/-279 m '0.2322 402.10 L35 -3 9 493 556 0 0 8 468 278+/-280 M 0.2322
= Cllt 402.10-2 402.10 L35' 4' 9- 493 .556' 0 0 8 468 278+/-280 NA 0.2322 402.10 L35. 5 9 '493 588 0 0 8 468- '420+/-285 NA 0.2322 1.10 - L36 1 9 493 596- 0 0 8 468 455+/-286 NA 0.2322
[d.10. ' L36
^ 402.10g ,L36-2 9- 493 560 0 0 C 468 296+/-281 M 0.2322
- 3. 9 493 550 0 0 8 468 252+/-280 NA 0.2322 402.10 L36 '4. 9 493 606 0 0 8 468 499+/-287 M 0.2322 402.10 ~L36' 5 9 493 555 0 0- 8 468 274+/-280 NA 0.2322 402.10- :L37 'l' 9 493:- $13 0 0 8 468 88+/-275 . NA 0.2322 402.10 L37: .2- 9 493 542 0 0 8 .468 216+/-279 NA 0.2322 402.10 'L37i ~3 9 493 547 0 0 8 468 239+/-279 NA 0.2322 402.10 L37 4' 9 493. 566 0 0 8 468 322+/-282 M 0.2322 402.10. L37 5 9 '493 '554 0 0 8 468 269+/-280 NA 0.2322 402.10' L38 1 '9 493 549 0 0 8 468 243+/-279 NA 0.2322 402.10l L38 2- 9 493 545 0 0 8 468 230+/-279 'M 0.2322 402.10 .L38 3 9 493 557 0 0 8 468 283+/-281. NA 0.2322 402.10 L38 4 9 493 537 0 0 8 468 194 +/ 278 NA 0.2322 402.10 L38 5 9 493 534 0 0 8 468 181+/-277 p 0.2322 ,
402.10 L39 1 9 493 543 0 0 8 468 221+/-279 NA 0.2322 402.10 .L39 '2 9 493 556 0 0 8 468 278+/-280 NA 0.2322 402.10 - L39 3 9 493 515 0 0 8 468 97+/-275 NA 0.2322 402.10L L39 4 9 493 507 0 0 8 468 62+/-274 NA 0.2322 402.10 -L39 5 9 493 572 0 9 8 468 349+/-283 NA 0.2322 i 402.10 L40 1 9 493 557 0 0 8 468 283+/-281 M 0.2322
-402.10 L40 2 9 493 540 0 0 8 468 208+/-278 NA 0.2322 402.10 L40 -3 9 493 515 0 0- 8 468 97+/-275 M 0.2322 402.10 L40 4 9 493 529 0 0 8 46R 159+/-277 NA 0.2322 402.10 L40 5 9 493 539 0 0 8 468 203+/-278 NA 0.2322 402.10 L41 1 9 493 539 0 0 8 468 203+/-278 h 0.2322 ' p.10 L41 2 9 493 505 0 0 8 468 53+/-2M NA 0.2322 \_.l.10 L41 3 9 493 559 0 0 8 468 292+/-281 NA 0.2322 402.10 M27 1 13 447 506 0 0 8 408 239+/-245 NA 0.2537 402.10- M27 2 13 447 543 0 0 8 408 388+/-249 M 0.2537 402.10 M28 1 13 447 549 0 0 8 408 412+/-250 NA 0.2537 402.10 M28 2 13 447 488 0 0 8 408 166+/-242 NA 0.2537 i 402.10 M28 3 13 447 520 0 0 8 408 295+/-246 NA 0.2537 402.10 M37 1 11 412 559 0 0 8 399 605+/-251 NA 0.2494 l 402.10 M37 2 11 412 545 0 0 8 399 547+/-249 NA 0.2494 ]
402.10 M39 1 10 447 587 0 0 8 436 604+/-272 NA 0.2379 j 402.10 N39 2 10 447 532 0 0 8 436 366+/-264 M 0.2379 407.10 M40 1 9 447 537 0 0 8 446 398+/-272 NA 0.2322 402.10 M40 2 9 447 522 0 0 8 446 331+/-269 NA 0.2322 402.10 M40 3 9 447 600 0 0 8 446 676+/-280 NA 0.2322 402.10 N40 4 9 447 531 0 0 8 446 371+/-271 NA 0.2322 402.10 M40 5 9 447 554 0 0 8 446 473+/-274 M 0.2322 402.10 M41 1 9 447 505 0 0 8 446 256+/-267 NA 0.2322 402.10 M41- 2 9 447 521 0 0 8 446 327+/-269 NA 0.2322 402.10 M41 3 9 447 500 0 0 8 446 234+/-266 M 0.2322 402.10 N27 1 13 447 483 0 0 8 408 146+/-242 M 0.2537 402.10 N27 2 13 447 455 0 0 8 408 32+/-238 NA 0.2537 402.10 N28 1 13 447 -465 0 0 8 408 73+/-239 NA 0.2537 402.10 N28 2 13 447 480 0 0 8 408 133+/-241 NA 0.2537 402.10' N2B 3 13 447 494 0 0 8 408 190+/-243 M 0.2537 L 402.10 N37. I !! 412 513 0 0 8 399 415+/-245 M 0.2494 402.10 - N37 2 11 412 565 0 0 8 399 629 +/- 252 NA 0.2494 l0 N39 1 10 447 551 0 0 8 436 448+/-267 NA 0.2379
' L(]10 N39, 2 10 447 573 0- 0 8 436 543+/-270 NA 0.2379 402.10 M40 1 9 447 437 0 0 8 446 -44+/-257 NA 0.2322 402.10 M40 2 9 447 '471 0 0 8 446 106+/-262 NA 0.2322 402.10 M40 '3 9 447 579 0 0' 8 446 583+/-277 NA 0.2322 '402.10 M40 4 9 447. 564 0 0 8 446 517+/-275 NA 0.2322
__ . . - _ _ _ _ ~ . . . _ . __ _.__-.._ ___ .-. S BLE 402.10-2
<402.10L - N40 . 5' .9 447 _598. 0 0' ' B' . 446 667 +/ 280 - NA 0.2322 : .402.10 . N41 1 9e '447 .582< 0 0 8 446 5964/-278 NA ~ 0.2322 I 402.10 N41- 2~ 9 -447 :543 0- 0 8 ~446 424+/-272 NA 0.2322 . [DIO : N41 .3 9 447: .566. 0 -0 8 '446 526+/-276 NA- 0.2322 U10 027 .1 '13L 447 655 0' 0 8 ~408 '841+/-263 NA~ 0.2537- !
- 402.10; 0271 2 ; 13 - 447 709 0- 0 8. 408 1059+/-269 NA 0.2537 _I 402.10 028- 1 13 -447
- 714 0- 0' 8 408 - 1079+/-270 NA 0.2537 402.10.
402.10 028- 2: 13 447- 717 0 0 8- 408- 1092+/-270 NA 0.2537' i 028 3 13 -447. 662' 0 0 -8 408 869+/-264 NA 0.2537 402.10' :037' 1 .11- 41? 521 0' 0 8 399- 448+/-246 NA - 0.2494 l t 402.10- .037 2 11 412 543 0. 0 8 399 539+/-249 NA . 0.2494 'j , 402.10 039 1 10 447 574 -0 0 8 436 548+/-270 NA 0.2379 402.10' 039: 2 10 447 507 0 0 8 436 604+/-272 No 0.2379- I
-402.10- 040 1 9 447- 645 0 0 8 -446 875+/-286 NA - 0.2322 i 402.10. 040 2 .9 447 576 0- 0 8 446 579+/-277 NA ' 0.2322 1 402.10 040- 3 9 447 505 - 0 0 8 446 256+/-267 NA 0.2322 402.10' ' 040 4 9 447- 616 0 0 8 446 746+/-282 NA 0.2321 402.10 040 5 9 447 548 0 0 8 446 446+/-273 NA 0.2322 402.10 ' 041 1 9- 447 607 0 0 8 446 707+/-281 NA 0.2322 402.10l 041 2 9 447 481 0 0 8 446 150+/-264 NA 0.2322 ~l
. 402.10.. 1041 -3 9 447 450 0 0 8 446 13+/-259 NA 0.2322 I 402.10 P37 1 11 412 534 0 0 8 399 502+/-248 NA 0.2494
- l 402.10 P37- 2 11 412 565 0 0 8 399 629+/-252 ilA 0.2494-l 402.10- P39 1 10 447 564 0 0 8 436 504+/-269 NA 0.2379 i L
402.10 P39 2 10 447 542 0 0 8 436 410 +/ 266 NA 0.2379 402.10 P40. ! 9 447 $40 0 0 8 446 411+/-27? MA 0.2322
'402.10 F40 '2 9 447 518 0 0 8 446 314+/-269 NA 0.2322 402.10 P40 3 9 447 560 0 0 8 446 499+/-275 NA - 0.2322 plo - P40- .4 9 447 600 0 0 8 446 676+/-280 NA 0.2322
- E s10 .P40 5 9- 447 581 0 0 8 446 592+/-27b MA 0.2322 L 402.10 P41' 1 9 447 549 0 0 8 446 451+/-273 NA 0.2322
- 402.10 P41 2 9 447 575 0 0 8 446 565+/-277 NA 0.2322 402.10 Pil 3 9 447 576 0 0 8 446 570+/-277 NA 0.2322 401.10' 037. I 11 412 535 0 0 8 399 506+/-248 NA 0.2494 402.10 037 2 !! 412 525 0 0 8 399 465+/-247 NA 0.2494 402.10 039 1 10 447 510 0 0 8 436 272 +/ 261 NA 0.2379 402.10 039 2 10 447 548 0 0 8 436 435+/-267 NA 0.2379 i 402.10 040 1 9 447 498 0 0 8 446 225+/-266 NA 0.2322 402.10 040 2 9 447 488 0 0 8 446 181+/-265 NA 0.2322 402.10 040 3 9- 447 484- 0 0 8 446 163+/-264 NA 0.2322 1
, 402.10 040 4 9 447 464 0 0 8 446 75+/-261 NA 0.2322 402.10 040 5 9 447 480 0 0 8 446 146+/-264 NA 0.2322
- 402.10 041 - 1 9 447 512 0 0 8 446 287+/-268 NA 0.2322 402.10 041 2 9 447 547 0 0 8 446 4421/-273 NA 0.2322 402.10 041 3 9 447 -455 0 0 8 446 35 +/- 260 NA 0.2322
'402.10 R37 1 !! 412 552 0 0. 8 399 576+/-250 NA 0.2494
. 402.10L 'R37 2 11 412 559 0 0 8 399 605+/-251 NA 0.2494 402.10- R38 1- 10 447 527 0 0 8 436 345+/-264 NA 0.2379 402.10 R38 2 10 447 498'- 0 0 8 436 220+/-260 NA 0.2379
-402.10 R39 1 '10 '447- 539' 0 0 8 436 397+/-265 NA 0.2379 402.10 R39 '2 10 447 558 0 o 8 436 479+/-268 NA 0.2379 402.10 R40~ l- 9 :447 534- 0 0 8 446 384+/-271 NA 0.2322. ;402.10 840.- 2 9 447 496 0 0 8 446 216+/-266 NA 0.2322 l l' 10 - 'R40 3 9- 447 '517 0 0 8 446 309+/-269 NA 0.2322 0 .R40 4 9 447-. 522 0 0 8 446 331+/-269 NA 0.2322 4 ,10 ;R41; I 9 447. 536 -0 0 8 446 393+/-271 NA 0.2322 l402.10 R41 - ' 2. 9' 447 .505 0 0 8 446 256+/-267 NA 0.2322 a
- KETA 8LE 402.10-3 .
m CINilCHEM DECOMISS!6NING PLAN 06/04/97 p d FlhAL SURV!T DATA SHEET
.DATAFORAffECTEDAREADESCRIP110N: " 1 STAIRS 8EINEEN MALL AREA AND UPPER ROAD ? AREA 402.10 FOR ALPM '
RADIATIONTYPE: 2 COMPLET!0N.
' Daft: ~12/23/96 TECHNICIANS: LPS/FM/LC/PG MATERIAL CODE AREA: ~4 02.0 '1:CONCREtt '5:PtASTIC-UNIT: 402.10 2: ROCK 6:50!L .' MEDIA TYPE: . CONCRETE /N0GD 3:N000 .7: ASPHALT I of. POINTS: 507- 4: METAL 8:0THER(SPECIFY):
, CT IN MINUTES: 1 NO MATERIAL BACKGROUND USED CPM /100CO2
REM + flXED: ' LIMIT - MX FOR IND GRID - 149 PASS 5000- . AVG-SURVEYUN!i- 23 PASS :5000 . .STD X 22 MU SUB ALPHA 25 PASS 5000 MAX HOT SPOT NOME PASS 15000 NEIGHTED ALPHA ALPHA SCAN' TOTAL' AVG.
, GRIDc INST. FIED ' MAX CONT. MATER- ALPHA MAX i
'C00R!DINATES- INSi, AREf. COUNTS / ALPM AREA IAL . MDA FIXED PER INSTEFF. -ID 3 ' GRIDIDLOCATION ID 8 8tG 1 COUNTS CM'2 CODE DPM/ DPM/ ' AVG 100 MAX CPM /DPM
[T (/ CPM MINUTES 100 CM'2 100Cf2TESTCM'2iEST
.402.10 Al 1 1 0 6. O. 0 8 15 34 +/- 27 M 0.1784 -402.10- Al 2 1 0 6 0 0 8 15 34 +/- 27 NA 0.1784 402.10 Al 3 1 0 8 0 0 8 15 45 +/- 31 NA 0.1784 '402.10- A2 . I 1 0 7 0 0 8 15 39+/- 29 M 0.1784 402.10 A2 2 1 0 3 0 0 8 15 17 +/ 19 M. 0.1784 402.10 A2- 3 1 0 5 0 0 8 15 28 +/- 25 M 0.1784 402.10 A2 4 1 0 5 0 0 8 15 28 +/- 25 MA 0.1784 402.10 A3 1 1 0 11 0 0 8 15 62 +/- 36 M 0.1784 402.10 A3 - 2 1 0 7 0 0 8 15 39 +/- 29 M 0.1784 .402.10- 81 1 1 0 7 0 0 8 15 39 +/- 29 NA 0.1784 402.10 81 2 1 0 4 0 0 8 15 22 +/- 22 M 0.1784 402.10 - 81 3 1 0. 10 0 0 8 15 56 +/- 35 MA 0.1784 402.10 81 4 1 0. 9 0 0 8 15 50f/- 33 NA 0.1784 .402.10 81 .5 1 0 14 0 0 8 15 78 +/- 41 NA 0.1784 402.10 82 'l 1 0 6 0 0 8 15 34+/- 27 NA 0.1784 402.10 82- 2 1 0 9 0 0- 8 15 50 +/- 33 NA 0.1784 402.10' 82 3 '1 0 14 0 0 8 '15 '78 +/- 41 M 0.1784 402.10 : 82 - ,4 -1 0 10 0 0 8 15 56+/- 35 MA 0.1784 .402.10 82 5 1 0- 5- 0 0 8 15 28 +/- 25 NA 0.1784 ~402.10 83 1- 1- 0; 12 0 0 8 15 67 +/ 38 NA 0.1784 402.10 83 - 21 1 0 3 0 0 8 15 17+/- 19 M 0.1784 402.10 83 - 3 1: O 3 0 0 8 15 17+/- 19 NA 0.1784-402.10' 84' l- l' 0 l' 0 0 8- 15 6+/- 11 NA 0.1784 .10 .84 21 1 0 0 0 0- 8 15 0+/- 0 NA 0.1784 .10 85 1 .ti 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 .10 : 85 2 1- 0. 1 0. 0 8 15 6+/- 11 . NA - 0.1784 ~402.10 86 ; - 11 1 0 5- 0- 0 8 15 28 +/ 25 NA 0.1784 =402.10 66' ;2 1; O' 5L .0- 0 .- 8 15 28 +/- 25 NA 0.1784 '402.10: 87 1; I -0 3 10 0 8 15 17 +/- 19 NA 'O.1784- ^402.10 : 810 1 ~1- 0? '2- 0. -0 8 15- 11 t/ 16 M' O.1784
' C 8tt 402.10-3; ;
P 402.10 -810 2. 'l -0 2j 0 0 8 15 11 +/- 16 NA 0.1784
-402.10' 811. , ! ! -0 3 0 0 8- 15- 17+/- 19 NA .0.1784 811 2 1 0 '3 0 0 8 15 17+/--19 NA 0.1784 t
("t.10)l0.- -811 .3 1 0 2 0 '0 8 15 11+/- 16 NA 0.1784 . 402.10- 811 4 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 402.10. 811 ' 5 1 0 4 0- 0- B 15 22+/- 22 NA -0.1784 . 402.10- C5 - 1 '1 0 0 .0 0 8 15 0+/- 0 NA 0.1784 402.10 C5 2- 1 0 0' 0 0- 8 15 0+/- 0 NA 0.1784 402.10 C7 1 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.10 C7 2 .1 0- 1 0 0 8 15 6+/- 11 NA 0.1784 4 402.10 C10 1 1 0 _5 0 0 8 15 28 +/- 25 NA 0.1784 402.10~ C10 2 1_ 0 1 0 0 8 - 15 6+/- 11 NA 0.1784 402.10 (!! IF 1 0 1 0 0 8- 15 6+/- 11 NA - 0.1784 402.10 Cil- 2 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.10 C11 - 3 1 0 0 0 0 8 15 0+/- 0 NA 0.1784 . 402.10 011 4 1 0 1 0 0 8 15 6 +/-- 11 NA 0.1784 402.10 011 5. 1 0 7- 0 0 8 15 39 +/- 29 NA 0.1784 402.10 D5 1 1 0 0 0 0 8 15 0+/- 0 NA 0.1784 402.10- 05 2 1 0 2 0 0 8 15 11 +/- 16 NA 0.1784 402.10 - . D7 1 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 402.10 D7 2 1 0 5 0 0 8 15 28 +/- 25 NA 0.1784 402.10 ' 010 .I 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 402.10 010 2 '1 0 1 0 0 8 15 6+/- 11 NA 0.1784 i 402.10 D10 3 1 0 8 0 0 8 15 45 +/- 31 NA 0.1784 l 402.10 011 1 1 0 2 0 0 8 15 11 +/- 16 NA 0.1784 402.10- O!! 2 1 0 0 0 0 8 15 0+/- 0 NA - 0.1784 402.10 011 3- 1 0 4 0 0 8. 15 22 +/- 22 . NA 0.1784 402.10 Dil 4 1 0 2 0- 0 8 15 11+/- 16 NA 0.1784 P.10 Dil 5 1 0 14 0 0 8 15 78+/- 41 NA 0.1784 i ( 2 10 E5 1 1 0 7 0 0 8 15 39+/- 29 NA 0.1784 ) 402.10 E5 2 1 0 9 0 0 8 15 50 +/- 33 NA 0.1784 402.10 E7 1 1 0 4 0 0 8 15 22 +/- 22 NA 0.1784 402.10 E7, 2 1 0- 5 0 0 8 15 28+/ NA 0.1784 402.10 E7 3 1 0 6 0' 0 8 15 34+/- 27 NA 0.1784 402.10 E8 1 1 0 8 0 0 8 15 45 +/- 31 NA 0.1784 l 402.10 E8 2 1 0 1 0 0 8 15 6+/- 11 NA 0.1784 402.10 E8 3 1 0 4 0 0 8 15 22 +/- 22 NA 0.1784 F 402.10 E9 1 1 0 5 0 0 8 15 28 +/- 25 NA 0.1784 402.10 [9 2 1 0 5 0 0 8 15 28 +/- 25 NA 0.1784 402.10 E9 3 1 0 5 0 0 8 15 28 +/- 25 NA 0.1784 i 402.10 E10 1 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.10 E10 2 1 0 5 0 0 8 15 28 +/- 25 NA 0.1784 i 402.10 E10 3 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.10 ' E10 4 1 0 1 0 0 8 15 6+/- 11 NA 0.1784 402.10 Ell 1 1 0 9 0 0 8 15 50+/- 33 NA 0.1784 402.10 Eli 2 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 ; _402.10 Ell 3- 1- 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.10 !!! 4 1- 0 3 0 0 8 15 17+/- 19 NA .0.1784 402.10 Ell 5 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 402.10 !!2 1 .I 1 5 0 0 8 41 22+/- 27 NA 0.1784 402.10- E12 2- 1 1 7 0 0 8 41 34+/- 31 NA 0.1784 402.10 E12 3 1 '1 11 0- 0 8 41 56+/- 38 NA 0.1784
'402.10 E13 1 1 1 33 0 0 8 41 11 +/- 22 NA 0.1784 10 ' !!3 2 1 1 4. 0' 0 8 di 17 +/- 25 NA 0.1784 10 E13 3 1 'l 10 0 0 8 41 50+/- 36 NA 0.1784 .10. E14 1- 1 1 6 ;0 0 8 41 28t/- 29 NA 0.1784 402.10' E14 _2' 1 1- 7 0 0 8 41 34+/- 31. NA 0.1784 402.10 E14 3 1 1- 9' 0 0 8 41 45 +/- 35 NA 0.1784 402.10- [15 1- -1 1 10 0 0 8 41 50 +/- 36 NA 0.1784 402.10 EIS '2- 1 _I 8 0 0 '8 41 39+/- 33 NA 0.1784
1 5 8tE 402.10 402.'101 E15 - 1 1 9 0 0 8 '41 45 +/ .NA 0.1784 50 +/- 36 402.10: .E16 ~ l. 1' 1 10 0- 0 8 41 - NA 0.1784 [ 1 10 E!6 '- '2 1 1 6 0 0- 8 41- 28+/- 29 NA 0.1784 - - ().10 E16 - '3 1- 1; 13 - 0 0 8' 41 67+/- 41 NA 0.1784
.402.10' E17- .1 4 1. 5 0 0' 8- 57 31 +/- 37 NA 0.1296 - '402.10 [17 -2 4 -1 3- 0 0 8 57 15+/- 30 NA 0.1296 -402.10- . [17 3 4 I 1 0' 0 8 57 ' 0+/- 21 ~ NA 0.1296 ,
402.10J ' E18 - -1 4 1 3 :0 0' 8 57 15 +/- 30 - NA 0.1296 402.10 E18 ' 2 4- 1 0 0 0 8 57 -8+/- 15 NA 0.1296 402.10 E18 3 4 -1 -3 0 0 8 57 15+/ NA 0.1296 , 402.10 (19 - 1' 6 l0 5 0 0 8 15 28+/- 25 . NA ~ 0.1776 402.10 E19 '2 6 0 3' 0 0 8 15- 17.+/- 19 NA 0.1776 402.10 F5 1 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 402.10 F5- 2- 1 0 4 0 0 8 15 22 +/- 22 NA 0.1784 402.10 F5 3- 1. 0 7 0 0 8 15 39+/- 29 NA 0.1784
'402.10 F6 1 1 04 8' 0 0 8 15 45 +/- 31 NA 0.1784 -
402.10 F6 2- 1. 0~ 4 0 0 8 15 22+/-~22 NA 0.1784 402.10 F7 1 1 0 5 0 0 8 15 28+/- 25 NA 0.1784 402.10 F7 2 1 0 5 0 0 8 15 28 4/ 25 NA 0.1784 402.10 ' F7 .3 1 0 12 0- 0 8 15 f 67 +/- 38 NA 0.1784 402.10 F7 4 1 0 7. 0 0 8 15 39+/- 29 NA 0.1784 402.10 ' F7 5 -1 0 13- 0 0 8 15 73+/- 40 NA 0.1784 402.10' F8 - 1 1- 0 7 -0 0 8 15 39+/- 29 NA 0.1784 402.10 F8 '2 1 0 14 0 0 8 15 78+/- 41' NA 0.1784 402.10 F8 3 1 0- 4 0 0 8 15 22 +/- 22 NA 0.1784 402.10 F8 4 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 402.10 F8 5 1 0 8 0 0 8 15 45 +/- 31 NA 0.1784 402.10 F9. I 1 0 8 0 0 8 15 45 fj- 31 NA 0.1784 ( 7 10 F9 2 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 (./.10 F9 3 1 0 4 0 0 8 15 22+/- 22 NA 0.1784 402.10 F9 4 1 0 5 0 0 8 15 28+/- 25 NA' O.1784 , 402.10- F9 5 1 0 5 0 0 5 15 28+/- 25 NA 0.1784 1 402.10 ~ F10 . 1 1 0 4 0 0 8 15 22 +/- 22 NA 0.1784 402.10 F10 2 1 0 1 0 0 8 15 6+/- 11 MA 0.1784 402.10 F10 3 1 0 3 0 0 8 15 17+/- 19 NA 0.1784 402.10 F10 4 1 0 8 0 0 8 15 45+/- 31 NA 0.1784
'402.10 F10 5 1 0 6 0 0 8 15 34+/- 27 NA 0.1784 ,
402.10 Fl! 1 1 0 2 0 0 8 15 !!+/- 16 NA 0.1784 402.10 Fil 2 1 0 12 0 0 8 15 67+/- 38 NA 0.1784 402.10 Fil 3 1 0 2 0 0 8 15 11+/- 16 NA 0.1784 402.10 Fil 4 1 0 9 0 0 8 15 50+/- 33 NA 0.1784 402.10 Fil 5 1 0 5 0 0 8 15 28+/- 25 NA 0.1784 402.10 F12 1 1 1 10 0 0 8 41 50 +/- 36 NA 0.1784 402.10 F12 2 1 1 4 0 0 8 41 .17+/- 25 NA 0.1784 , 402;10 F12 3 1 1 5 0 0 8 41 22+/- 27 MA 0.1784 l 402.10 F12 4 1 1 6 0 0 8 41 28+/- 29 NA 0.1784 402.10 F12 5 1 1 5 0 0 8 41 22+/- 27 NA 0.1784 402.10 F13 1 1 1 10 0 0 8 41 50+/- 36 NA 0.1784 402.10 F13 2 1 1 4 0 0 8 41 17+/- 25 NA' O.1784 402.10 F13 3 1 ! 9 0 0 8 41 45+/- 35 NA 0.1784 402.10 F13 4- 1 .1 7' 0 0 8 41 34+/- 31 NA 0.1784 402.10 F13- 5 1 1 8 0 0 8 41 39+/- 33 NA 0.1784 402.10 F14 1 1 1 9 0 0 8 41 45 +/- 35 NA - 0.1784
.10 F14 > 2 1 1 6 0 0 8 41 28+/- 29 NA 0.1784 10 F141 3 1 1 10 0 0 8 41 50+/- 36 NA 0.1784 .10 F14' 4' l- 1 7 0 0 8 41 34+/- 31 NA 0.1784 .
402.10 F14 .5 1 1 10 0 0 8 41 50 +/- 36 NA 0.1784 1 402.10 F15 1 1L i 11 0 0 8 41 56 +/- 38 NA 0.1784 402.10~ F15 2 i 1 .7 0 0 8 41 34+/- 31 NA 0.1784 l 402.10 F15 3 .!' 1 12- 0 0 8 41 62 +/-. 40 NA 0.1784
yC8LE402.103; 402.~10 ' F15 '4 1 1 -- 24 0 0- 8 41' 129+/- 55 NA 0.1784-402.10 F15 S' 1 1 10 0- 0 -B 41- 50 +/- 36: NA 'O.1784 .)
;F16 1 l' . 1. 15 0; 0' 8 41 78 +/- 44 NA 0.1784 i
(}N.104 J10; .F16f 2: 1 .1 0 0 '8 41 67+/- 41 NA 0.1784 I
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402.10 F18 5 6 0 4 0 0 8. 15 23 +/- 22 NA 0.1776 402.10 f Fl9 l' 6 0 6 0 0 8 15 34+/- 27 NA 0.1776 402.10i F19 2 6 0 1 0. 0 8 15 6+/- 11 ' NA 'O.1775 402.10 :F19 3 6 0 2 0 0 8 15 11+/- 16 NA 0.1776 !
- 402.10l 'G16 l' 6 0 4 0 0 8 15 23 +/-~ 22- NA 0.1776 1 402.10? G16 2 6 0 6 0. 0 8 15 0+/- 0 NA 0.1776 l 402.10 ' G18 ' 1 6 0 4 -0 0 8 15 23 +/- 2-2 MA 0.1776 j 402.10 G18 2 6 0 3 0 0 ~8 15 17 +/- 19 NA 0.1776 l 402.10 G18 3 -6 0 2 0 0 8 15 11.+/- 16 NA 0.1776 402.10- G18 4- 6 0 '2 0 0 8 15 11 +/- 16 NA 0.1776 ;
402.10 G18 : 5 6 0 1 0 0 8 15 6+/- 11 NA 0.1776
)
402.10 Gl9 1 6 0 4 0 0 8 15. 23 +/- 22 NA 0.1776 10 ; Gl9 2 '6 0 4 0 0 8 15 23 +/- 22 NA 0.1776
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402.10 H18 2 6 0 5 0 0 8 15 20 +/- 25 NA 0.1776 j 402.10 H18 3 .6 0 2 0 0 8 15 11 +/- 16 NA 0.1776
]
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-402.10 H19 2 6 0 5 0 0 8 15 28 +/- 25 NA 0.1776 l
402.10 H19 3 6 0 9 0 0 8 15 51 +/- 33 NA 0.1776 402.10 H19 4 6 0 2 0 0 8 15 11 +/- 16 NA 0.1776 402.10 H20' 1 6 0 4 '0 0 8 15 23 +/- 22 NA 0.1776 402.10 H20 2 6 0 6 0 0 8 15 ' 34+/- 27 NA 0.1776 , 402.10 H20 3 6 0 1 0 0 8 15 6+/- 11 NA 0.1776 ! 402.10 H21 1 14 0 2 0 0 8 15 11+/- 16 NA 0.1753 402.10 .H21' 2 14 0 12 -0 0 8 15 68+/- 39 NA 0.1753 402.10 ' H21. 3 14 0- 0 0 0 0 15 0+/- 0 NA 0.1753 402.10- H 22- 1 14 0 4 0 0 8 15 23 +/- 22 NA 0.1753 1 402.10 :H22. 2 14 0 4 0 0 8 15 23+/ NA 0.1753 j 402.10 H22- 3 14 -0 5 -0 0 8 15 29+/- 25 NA 0.1753 J 402.10- - H23 1 9 1 2 0 0 8- 48 6+/- 22 NA 0.1539 l 402.10 H23 - 2' 9 1 7 0 0 8 48 39 +/- 36 NA 0.1539 a 402.10 H23 3 9 l' 0- 0 0 0 48 -6+/- 13 NA 0.1539 l 402.10' H24 '1- 9. 1 4 0 0 8 48- 19 +/- 28 NA ~0.1539 l 10' . H24 2 9 1 2. 0 0 8- 48 6'+/- 22 NA 0.1539 ; 10 L H24! 3 9 1 5 0 0 8 48. 26+/- 31 NA 0.1539 4 .10 ' ' H25 'l 1 1 0 0 8 48 0+/- 18 NA 0.1539 402.10- 'H25 2 9 !! 1 -0 0 8 48 0+/- 18 NA 0.1539 i 402.10. H25- 3- .9 1 3 0 0 8 48 13 +/ .25 NA 0.1539 l 402.10 H26 1 9 1 .9 '0 0 8 48 - 52 +/ .40 NA 0.1539- l 402.10- H26 - 2 9 1 6'- 0 0 8 48
- 32.+/- 34 NA ' O.1539- j
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- 402.10 H281 -! 9 1 10 0 'O 8. 48 ~58+/-'42- ' NA - 0.1539' !
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402.10 :. H30 .1 -9 1.. .3 0- 0. 8 48 13 +/- 25 NA .0.1539 402.10 H30 2- -9 1 6 0' 0 '8 48 32+/- 34 NA~ 0.1539 402.10 -H30 3- 9 1 1 0 0 8 _ 48 0+/- 18 NA 0.1539
'402.10 !!6- 1 -( 'O 7 0 0- 8 15- '39 +/- 29 NA 0.1776 402.10 !!6 - 2 6 0 6 0 0- 8 15 34 +/ ' 27 NA 0.1776 402.10 !!6 3. 6 0 5 0 0 8 15 28 +/- 25' NA -0.1776 y' 402.10 '!!7. 1- ~6- 0 0: 0 0 8 15 0+/- 0 NA 0.1776 402.10 117' 2: 6 0 2 0- 0 8 15 11 +/- 16 NA 0.1776 '402.10- 118 .! 6 0 2 0 0 8 15 .Il +/- 16 NA 0.1776 402.10 118 2- 6- 0' 5 '0 ~0 8 15 28 +/- 25 NA 0.1776 402.10 '118 3 6- 0 3 .0 0- 8 15 17 +/- 19 NA 0.1776 402,10i !!8 ~ 4 6 0 4 'O 0 8 15 23 +/ NA 0.1776 402.10 118 5' 6 0 1 0 0 8 11 6+/- 11 NA 0.1776 402.10 !!9 :) 6 0- 2 '. 0 'O 8 15 11+/- 16 NA 0.1776 402.10 119 ,2' 6 0 8 0 0 8' 15 45 +/- 31 NA 0.1776 402.10 !!9 3 6 0 0 0 0 8 15 0t/- 0 NA 0.1776 ,
402.10 ' 119 4 6 0 -1 0 0 8 15 6,t/- 11 34 0.1776 1 402.10- -119 5 6 0 2 0 0 8 15 11+/- 16 NA 0.1776 )
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U.10 120 2: 6 0 2 0 0 8 15 11 +/- 16 NA 0.1776-
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.402.10 121 3 14 0 2 0 0 8 15 !! +/- 16 NA 0.1753 402.10 121 4 14 0 1 0 0 0 15 6+/- 11 NA 0.1753 '402.10 121 5 14 0 2 0 0 8 15- 11+/- 16 NA 0.1753 402.10 122 1 14 0 6 0 0 8 15 34 +/- 27 NA 0.1753 402.10 122 2 14 0 6 0 0 8 15 34 +/- 27 NA 0.1753 402.10. 122' 3 14 0 2 0 0 8 15 11+/- 16 NA 0.1753 402.10- 122 4 14 0 1 0 0 8 15 6+/- 11 NA 0.1753 402.10 122 5 14 - 0 0 0 0 8 15 0+/- 0 NA 0.1753 402.10- -123 1 9 1 5 0 0 8 48 26 +/- 31 NA 0.1539 402.10 123 2 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 123- 3 9- 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 123 4 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10- :123 5- 9- 1 4 0. 0 8 48 19 +/- 28 NA- 0.1539 402.10 124 1 9 l- 3- 0 0 8 48 13 +/- 25 NA 0.1539 402.10' 124 -2 '. 9 1 -4 0 0 8 48 19+/- 28 NA 0.1539 402.10 124 3 9 1 1 0 0 8 48 0 +/- 18 NA- 0.1539 402.10 ~124' 4 9 1- :2- 0 .0 8 48 6+/- 22 NA . 0.1539 l 402.10 124 5 9 1 4 0. 0 8 48 19 +/- 28 NA 0.1539 !
10 125 - ~l' 9- 1 3 0 0 8 48 13 +/- 25 NA 0.1539 l 10 .125 ' -2 9 1 1 0 .0 8- 48 0t/- 18 NA 0.1539 )
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C8tt 402.10-3< i
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402.10 129: 2. 9 1 1 0 0 8 48 0+/- 18 NA 0.1539 - 402.10 L129: 3 9 1 4 0 0 8 48 19 +/- 28 NA 0.1539 402.10 129 4 9 1 1 0 0 8 48 0 +/- 18 NA 0.1 539 402.10' 129 5 9 1 4 0 0 8 48 19 +/- 28 NA 0'.539 402.10, o 130 1 9 1 2 0 0 8 48 6 +/- 22 NA v.1539 ] 402.10 Y 130 2.-- 9 1 2 0 0 8 9 6 +/- 22 NA 0.1539 j 402.10 130 3 9 .! 7 0 0 8 o 39 +/- 36 NA 0.1539 ! 402.10- 130 4 9 1 5 0 0 8 48 26 +/ 31 NA 0.1539 J 402.10 130 5 9 1 !! 0 0 8 48 65 +/- 44 NA 0.1539
.402.10 J27 1 1 1 1 0 0 8 41 0+/- 16 NA 0.1784 402.10 J29 1 1 1 8 0 0 8 41 39 +/- 33 NA 0.1784 402.10 J29 2 I 1 3 0 0 8 41 11 +/- 22 NA 0.1784 402.10 J29.. 3 1 1 5 0 0 8 . 41 22 +/ NA 0.1784 l 402.10 J29 .4 1- 1 6 0 0 8 41 28 +/- 29 NA 0.1784 I . A10 J29 '5 1 1 5 0 0 8 41 22 +/- 27 NA 0.1784 l U10 J30 - 1 1 1 6 0 0 8 41 28 +/- 29 NA 0.1784 l 402.10- J30 2 1 1 10 0 0 8 41 50 +/- 36 NA 0.1784 l '402.10 K27 1 1 1 7 0 0 8 41 344/- 31 NA 0.1784 -402.10 K27 2 1 1 4 0 0 8 41 17 +/- 25 NA 0.1784 ,
402.10 K27 3 1 1 1 0 0 8 41 0+/- 16 NA 0.1784 ! 402.10 K28 1 1 1 2 0 0 8 41 6+/- 19 NA - 0.1784 l
.402.10 K28 2 1 1 6 0 0 8 41 28 +/- 29 MA 0.1784 402.10 K29 'l 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.10~ K29 2 1 1 1 0 0 8 41 0+/- 16 NA 0.1784 402.10 . K29 3 1 1 11 0 0 8 41 56+/- 38 NA 0.1784 l 402.10 K29 4 1 1 0 0 0 8 41 -6 +/- 11 NA 0.1784 .402.10 K29 5 1 1 6 0 0 8 41 28+/- 29 NA 0.1784 402.10 K30 1 1 1 7 0 0 8 41 34+/- 31 NA 0.1784 402.10 K30 2 1 1 7 0 0 8 41 34+/- 31 NA 0.1784 402.10 K30 3 1 1 5 0 0 8 41 22 +/- 27 NA 0.1784 402.10 K30 4 1 1 3 0 0 8 41 11 +/- 22 NA 0.1784 402.10 K31 1 1 1 10 0 0 8 41 50 +/- 36 NA 0.1784 402.10 'K31 2 1 1 6 0 0 8 41 28 +/- 29 NA 0.1784 402.10 K31 3 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.10 K32 1 1 1- 7 .0 0 8 41 34+/- 31 NA 0.1784 402.10 K32 2 1 1 6 0 0 -8 41 28+/- 29 NA 0,1784 402.10 K32 3. I 1 .3 :0 0 8 41 !! +/ NA 0.1784 '402.10 K33 1 1 1 4 0 0 8 - 41 17 +/- 25 NA 0.1784 i 402.10 K33 - 2 I 1 3 0 0 8 41 11 +/- 22 NA 0.1784 10 .K33 3 1 1 5 0 0 6 41 22 +/- 27 NA 0.1784 ;
- 0. K34 1. 9 1 6 0 0. 8 48 32 +/- 34 NA 0.1539 4 .10 .K34 2 9 1- 6 0 0 8 48 .32 +/- 34 NA 0.1539 402.10 K34 3 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 K35 1- 9 1- 8 0 0 8 48 45 +/- 38 NA 0.1539
'402.10 K35 2 9- 1 5 0. 0 .8 48 26 +/- 31 NA 0.1539 402.10: K35 3. 9 1 3 0 0 8 48 -13+/- 25 NA 0.1539 4
. CBLE 402.10-3 402.10 K36 1 9 1 5- 0 0 8 48 26+/- 31 NA 0.1539-2402.10' K36 2 9- 1 4- 0 0 8- 48 19+/- 28 NA - 0.1539 D 10 K36- 3 9 1 6 0 0 8 48- 32 +/- 34 NA 0.1539 b(0; _K37 1 9: l~ 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 ~ K37 2 .9 1 1 0 0 8 48 _0+/- 18 NA 0.1539 402.10 .K37- 3 9 1 4 0 0 8 -48 19 +/- 28 MA 0.1539 '402.10 K38 1 -9 .1 3 0 0 8 48 13+/- 25 NA 0.1539 l 402.10 K38 2_ 9 1 2 0 0 8 48 6+/- 22 NA 0.1539 4 402.10 K38 23- 9 1 2 0 0 8 48 6 +/- 22 NA 0.1539 402.10 K39 1 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 K39 2 9 1 1 0 0 8 48 0t/- 18 NA 0.1539 402.10 K39 3 9 1 5 0 0 8 48 26 +/- 31 NA 0.1539 402.10 :K40 1 9 1 6 0 0 8 48 32 +/- 34 NA .0.1539 l 402.10 K40 .2 1 2 0 0 8 48 6 +/- 22 NA 0.1539 l
_9 402.10 K40 3 -9 1 4 0 0 8 48 19+/- 28 NA 0.1539 ! 402.10 X41 1 S 1 6 0 0 8 48 32 +/- 34 NA 0.1539 402.10 K41 2 9 1 2 0 0 8 48 6 +/- 22 NA 0.1539
'402.10 'L27 1 1 1 8 0 0 8 41 39 +/- 33 NA 0.1784 402.10 L27 '2 1 1 7 0 0 8 41 34+/- 31 NA 0.1784 402.10 L27 3 1 1 5 0 0 8 41 22 +/- 27 NA 0.1784 402.10 L27 4~ l 1 1 0 0 8 41 0+/- 16 NA 0.1784 402.10 L27 5 1- 1 3 0 0 8 41 11 +/- 22 NA 0.1784 402.10 .L28' 1 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.10 L28 2 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.10 ' L28 3 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.10' L28 4 1 1 2 0 0 8 41 6+/- 19 NA 0.1784 402.10 L28 5 1 1 4 0 0 8 41 17 +/- 25 NA 0.1784 402.10 L29 1 1 1 8 0 0 8 41 39 +/- 33 NA 0.1784
(~ )l0 L29 2 1 1 5 0 0 8 41 22 +/- 27 NA 0.1784 kl.10 -L29 3 1 1 8 0 0 8 41 39 +/- 33 NA 0.1784 I 402.10 -L29 4 1 1 7 0 0 8 41 34 +/- 31 NA 0.1784 l 402.10 L29 5 1 1 16 0 0 8 41 84+/- 45 NA 0.1784 ; 402.10 L30 1 1 1 7 0 0 8 41 34+/- 31 MA 0.1784 ; 402.10 L30 2 1 1- 6- 0 0 8 41 28+/- 29 NA 0.1784 l 402.10 L30 3 1 1 6 0 0 8 41 28 +/- 29 NA 0.1784 402.10- L30 4 1 1 16 0 0 8 41 84+/- 45 NA 0.1784 402.10 L30 5 1 1 9 0 0 8 41 45 +/- 35 NA 0.1784 402.10 L31 1 1 1 25 0 0 8 41 135 +/- 56 NA 0.1784 l 402.10 L31 2 1 1 3 0 0 8 41 11 +/- 22 NA 0.1784 l 1 402.10 L31 3 1 1 3 0 0 8 41 11 +/- 22 NA 0.1784 402.10 L31 4 1 1 12 0 0 8 41 62 +/- 40 NA 0.1784 402.10- L31 5 1 1 7 0 0 8 41 34 +/- 31 NA 0.1784 , 402.10 L32 1 1 1 19 0 0 8 41 101 +/- 49 NA 0.1784 402.10 L32 2 1 1 9 0 0 8 41 45 +/- 35 MA 0.1784
,402.10 - L32 3 1 1 4 0 0 8 41 17 +/- 23 NA 0.1784 402.10 L32. 4 1 1 13 0 0 8 41 67+/- il MA 0.1784 402.10 L32 5 1 1 5 0 0 8 41 22 +/- 27 NA - 0.1784 402.10 L33 1 1 1 16 0 0 8 41 84+/- 45 NA 0.1784 402.10 _ L33 - 2 1 1 9 0 0 8 41 45+/- 35 NA 0.1784 402.10 L33 3 1 1 6 0 0 8 41 28+/- 29 NA 0.1784 '402.10. L33. ,4 1 1 11 0 0 8 41 56+/- 38 NA 0.1784 402.10- L33 ~5 1 1 7 0 0 8 41 344/- 31 NA 0.1784 402.10 L34 1 9 1 7 0 0 8 48 39 +/- 36 NA 0.1539 L34 2 9 1 1 0 0 8 48 0+/- 18 NA 0.1539 jj%10
( l0 - L34' _3 9' 1 2 0 0 8 48 6+/- 22 NA 0.1539 402.10 L34 4 9- 1 9 0 0 8 48 52 +/- 40 NA 0.1539 402.10 L34 ._ 5 9 1 8_ 0 0 8 48- 45 +/- 38 NA 0.1539 402.10 L35 ' 1 -9 1 11 0 0 8 48 65 +/- 44 NA 0.1539 402.10 L35- 2 '9 1 5 0 0 8 48 26 +/- 31 NA - 0.1539 402.10' L35 '3 9- 1- 14- 0 0 8 48 84+/- 49 NA 0.1539
CBLE 402.10-3
;402.10 L35 - 4 9 11 11 0 0' 8 48~ 65 +/- 44 NA - 0.1539 , .- 402.10: L35' 5 9 1 5' 0: 0 -8 48 26 +/-' 31 NA 0.1539'
{(7 ;(710? .L36 1- 9 1- 24 0' 0 8 48 149+/- 64 NA 0.1539 L/10 ' L36. 2 9- 1 4 0 0 8 48 19+/- 28 NA . 0.1539 ' 402.10- ~L36 3 9 1 ' 10 0 0 8 48'- 58+/- 42 NA 0.1539 402.10 L36 4' 9 -1 12 0 0 8 48 71 +/- 46 : NA 0.1539 0 +/ 18
-402.10- L36' 5 9 1 1 0 0 8 48 NA 0.1539 L402.10 L37 -1 9 1- !! 0 0 8 48 - 65+/- 44 NA 0.1539
. '402.10 L37 2 9 1 8 0 0 '8 48 :45 +/- 38 NA 0.1539 402.10 L37- 3 9 1 12 0 0 8 48 71 +/- 46 NA 0.1539 402.10. L37. 4 9 1 5 0 0 8- 48 26+/- 31 NA 0.1539 402.10 -L37 5. 9 1 3 0 0 8 48 '13+/- 25 NA 0.1519 402.10. L30 1 9 1 4 0 0 8 48 19 +/- 28 NA 0.1539 402.10 L38 2 9 1 4' 0 0 8 48 19 +/- 28 NA 0.1539 402.10 L38 3 9 'l 2 0 0 8 48 6 +/- 22 , NA 0.1539
-402.10 L38 4: 9' 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 L38 '5 9. 1 6- 0 0 8 48 32 +/- 34 NA 0.1539 .402.10' L39 1 9 1 4 0 0 8 48 19+/- 28 NA 0.1539 402.10 L39 2 9 1 6 0 0 8 48 32 +/- 34 NA 0.1539 '402.10 L39 3 9- ! 8 0 0 8 48 45 +/- 38 NA 0.1539 4
402.10- L39 4 9 1 6 0 0 8 48 32 +/- 34 NA 0.1539 402.10 L39 5 9 1- 2 0 0 8 48 6+/- 22 NA 0.1539 402.10 L40 1 9 1 5 0 0 8 48 26 +/- 31 NA 0.1539 i- 402.10. .L40 -2 9 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 L40' 3 9 1 7 0 0 8 48 39+/- 36 NA 0.1539 402.10 L40' 4 9- 1 8 0 0 8 48 45 +/- 38 NA 0.1539 402.10 L40 5 9 1 2 0 0 8 48 6 +/- 22 NA 0.1539 6 +/- 22 0.1539 q4 10 10 ' L41 L41
-1 2 -9 9
1 1 2 9 0 0 0 0 8 8 48 48 52 +/- 40 NA NA 0.1539
.10 L41 3 9- 1 3 0 0 8 48 13 +/- 25 NA 0.1539 402.10 M27 1 13 1 2 0 0 8 48 7 +/- 22 NA 0.1526 402.10 LM27 2 13 1 1 0 0 8 48 0+/- 18 NA 0.1526 402.10 M28 1- 13 1 0 0 0 8 48 -7+/- 13 NA 0.1526 -402.10 M28 2 13 1 1- 0 0 8 '48 0 +/ - 18 MA 0.1526 -402.10 M28 3 13 1 3 0 0 8 48 13 +/- 26 NA 0.1526 402.10 M37 1 11' 1 2 0 0 8 46 6 +/- 21 NA 0.1595
, 402.10 M37 2 11 1 1 0 0 8 46 0+/- 17 NA 0.1595
'402.10 M39 1 10 1 6 0 0 8 45 31 +/- 32 NA 0.1634 402.10 M39 2 10 1 1 0 0 8 45 0+/- 17 NA 0.1634 402.10 'M40 1 9 2 4 0 0 8 60 13 +/- 31 NA 0.1539 402.10- M40 2 9 2 3 0 0 8 60 6 +/- 28 NA 0.1539 402.10 M40 3 9 2 0 0 0 8 60 -13+/- 18 NA 0.1539 402.10- M40 4 9 2 0 0 0 8 60 -13 +/- 18 NA 0.1539 402.10 M40' 5 9 2 2 0 0 8 30 0 +/- 25 NA 0.1539 402.10' M41 1' 9 2 5 0 0 8 60 19+/- 34 NA 0.1539 402.10 M41 '2' 9 2 0 0- 0 8 60 13+/- 18 NA 0.1539 402.10 M41 3 9 2 0 0 0 8 60 -13 +/- 18 NA 0.1539 402.10 N27 1 13 - 1 1 0 0 8 48 0+/- 18 NA 0.1526 .402.10 N27 - 2 13 1. 1 0 0 8 48 0+/- 18 NA 0.1526 402.10 N28 1 ' 13 1 0 0 0 8 48 -7+/- 13 NA 0.1526 402.10 N28 2 13 1 0 0 0 ~8 48 -7+/- 13 M 0.1526 402.10 N28 '3- 13' 1 2 0 0 8 48 7+/- 22 NA 0.1526 402.10 'N37 l '- 11 1- 3' 0 0- 8 46 13 +/- 25 NA 0.1595 1 . /~NIO .N37- 2- 11 1 1 -0 0 8 46 0+/- 17 NA 0.1595 D IO .N39 1. 10 1 2 0 0 8 45 6+/- 21 NA 0.1634 402.10 N39 2 10 1 2 0 0 8 45 6 +/ 21 NA 0.1634 402.10 . N40 1 9 2 6 0 0 8 60 26+/- 36 NA 0.1539 .402.10 N40 2 97 2 4 0 0 8 60 13 +/- 31 NA 0.1539 402.10. N40 3 9 2 1- 0 0- 8 60 -6 +/- 22 NA 0.1539 402.10. M40- 4- . 9. 2 4 0 0 8 60 13 +/- 31 NA 0.1539
-, . . - . _ _ . . _ ~.
t CILI 402.10-3 o l, 1402.10 .N40 5' 9 2 3 0 0 1 8 60 6 +/- 28 NA 0.1539 i 402.10c .N41: 1: 9 2 6 0' 0 8. 60 26 +/- 36 NA 0.1539 7 7 .10L 'N41L .2- 9 2 ~5 0- 0 8 60 19+/- 34 NA 0.1539 il.10 . N41 .3 9- 2 7 0 0 8
~
60 . -32+/- 38 NA - 0.1539
'402.10~ 027- ~l 13 1 4 0 0 8- 48 20+/-~29 NA 0.1526 402.10 027 2 13 1 0 0 0 8 48 ' -7+/- 13 NA 0.1526 s
402.10- 028 1. 13 . 1 5 0 0 8- 48 26+/- 31 NA 0.1526 , 402.10. 028 2 13 1 3 0 0 8 48 13 +/- 26 NA - 0.1526
.402.10 028 3 13 1 6 '0- 0 8 48- 33 +/- 34 NA 0.1526' - 402.10 037 1 11 1 1- 0 0 8 46 - 0 +/- 17 NA 0.1595 402.10' '037- 2 11 .l' 1 0 0 8 46 0 +/- 17 NA 0.1595 402.10' 039 1 10 1 3 0 0' 8 45 - 12 +/- 24 NA 0.1634 402.10. 039 2 10 1 'l 0 0 '8 45 0+/- 17 NA 0.1634 402.10 040 1. 9 2 0 0 .0 8 60 -13 +/- 18 NA- 0.1539- t 402.10. 040 2 9 2- 6 0 0 8 60 26+/- 36 NA 0.1539- !
402.10 '040 3 9 2 6 0 0' 8 60 26 +/- 36 NA 0.1539
- 402.10 040 4 9 2 3 0 0 8 60 6 +/ ' 28 NA 0.1539 402.10 040 5 9 2 7 0 0- 8 60 32 +/- 38 NA 0.1539 ~ 402.10 041 1 9 2 4 0 0 8 60 13 +/- 31 NA 'O.1539 402.10- ' 041 2 9 2- 4 0 0 8 60 13 +/- 31 NA 0.1539 402.10 , :041' 3 9 2 5 0. 0 8 60 19+/- 34 NA 0.1539 '402.10 - P37 1 11 1 1 0 0 8 46 0+/- 17 NA 0.1595 402.10 P37 2 11 1 3 0 0- 8 46 13 +/- 25 NA 0.1595 402.10 P39 1 10 1 1 0 0 8 45 0+/- 17 NA 0.1634 402.10 P39 2 10 1 -1 0 0 8 45 0+/- 17 NA 0.1634 402.10 P40 1 9 2 0 0 0 8 60 : -13 + /- 18 NA 0.1539 402.10 . P40 2 9 2- 6 0 0 8 60 264/ NA 0.1539 402.10 P40 3 9 2 6 0 0 8 60 26 +/- 36 NA 0.1539 f D.10 - P40 4 9 2 0 0 0 8 60 -13+/- 18 NA - 0.1539 1 -\. [ J i0 P40 5 9 2 2 0 0 8 60 0 +/- 25 NA 0.1539 402.10 P41 1 9 2 2 0 0 8 60 0 +/- 25 NA 0.1539 402.10 P41- 2- 9 2 0 0 0 8 60 -13+/- 18 NA 0.1539 -402.10 P41 3 9 2 1 0 0 8 60 -6+/- 22 NA 0.1539 402.10 037 1 11 1 2 0 0 8- 46 6+/- 21 NA 0.1595 402.10 037 2 !! 1 4 0 0 8 46 19 +/- 27 NA 0.1595 402.10 039 1 10 1 2 0 0 8 45 6 +/- 21 NA 0.1634 402.10 039 2 10 1 1 0 0- 8 45 0+/- 17 NA 0.1634 402.10 040 1 9 2 1 0 0 8 60 -6 +/- 22 NA 0.1539 402.10 Q40 2 9 2 0 0 0 8 60 -13+/- 18 NA 0.1539 I 402.10 040 ~3 9 2 5 0 0 8 60 19 +/- 34 NA 0.1539 I .402.10 040 4 9 2 0 0 0 8 60 -13+/- 18 NA 0.1539 l 402.10 040 5 9 2 1 0 0 8 60 -6 +/- 22 NA 0.1539 402.10 041 1 9 2 2 0 0- 8 60 0+/- 25 NA 0.1539 402.10. 041 2 9 2 0 0 0 8 60 -13+/- 18 NA 0.1539 402.10 041 3' 9 2 3 0 0 8 60 6 +/- 28 NA 0.1539 402.10 R37 1 11 1 3 0 0 8 46 13 +/ ~25 NA 0.1595 402.10 R37' 2 11 1 0 0 0 8 46 -6+/- 12 NA 0.1595 402.10 R38' 11 10 ~l 1 0 0 8- 45 0+/- 17 NA 0.1634 1 402.10 R38 2 10 1 5 0 0 8 45 24+/- 29 ' NA 0.1634 I , .402.10 R39 1 10 ' 1 .4 0 0 8 45 18 +/- 27 NA 0.1634 l
402.10 R39 2 ' 10 -1 .2 0 0 8 45 6+/- 21 NA 0.1634 i
.402.10 'R40 1 9 2 3- 0 0 8 60 6+/- 28 NA 0.1539 402.10- R40 2 9 2 3 0 0 8 60 6 +/- 28 NA 0.1539 110. R40 3 9 2 0 0 0 8 60 -13+/- 18 NA v.1539
_ 402.10-(Q 10
'R40 4 9 2 '1 0 0 8 60 -6+/- 22 NA 0.1539 R41 - t. 9 '2- 4 0- 0 8 60 13t/- 31 NA 0.1539 401.10 .R41 2- 9 2 3- 0 0 8 60 6+/- 28 NA 0.1539
/T CINTICilEM FINAL STATUS SURVEY PLAN AND REPORT O The 402.11 survey unit was sugveyed on an affected area basis and has a surface area of 2 m. 30 direct beta / alpha surface contamination measurement locations were placed in this area using 5 readings per im by im grid. One reading was taken at the center of the grid and four each at the midpoint between the center and the corners of the grid. 6 gamma exposure rate measurement locations were placed in this area using a 1m by im grid. In addition a 100% scan was performed in each im by im grid location. The location of these measurements is shown in the accompanying map. Measurement and sampling results for the 402.11 survey unit are provided in 3 attached tables as follows: Table 402.11-1 Misc. Concrete Supports / Concrete Pad N of WPB gamma exposure rate date Table 402.11-2 Misc. Concrete Supports / Concrete Pad N of WPB direct beta / gamma surface contamination data Table 402.11-3 Misc. Concrete Supports / Concrete Pad N of WPB direct alpha surface contamination data ('T V (3 L) SECTION 14
p - FINAL SUR TY _
. ;g^ ,
PffSC. C]is C R E- E SUPPE S/ C]NCRETE SLABL UNIT 402.11 NORTH- SOUTH CANUPY CANDPY
, . F00 TING ' . FOOTING 6 5 ~16- 15-4 ' . @e 13 @ @-
7 8 9 10 17 18 19 20
. #= . DIRECTS- @=: SMEAR l LOCATION-CONCRETE SLAB e- N. SIDE @= UREM LOCATIONS OF VASTE PIT BLD'G :.
i 29 22 / / NORTH '!
'30' e1 g 23 .- @ 2 24 25.
6 /10/ 9 7 1 26 6 27; I) V G S / 3 4 3 9 i t
@ +
t CINTICHD4 FINAL STATUS SURVEY PLAN 'AND REPORT-e Q AREA 402,11-
- Meas Type:
Gamma - 7 ,. Exposure . Direct. Direct
- Rate'(a) Beta'(b). Alpha (b)
- Units. ; uRem/hr dpa/ dpe/
100 ca2 100 cm2 MDA 2 499 42 Number of Meas: 6 30 30 -
.=================================================================
Survey Unit Mean:. 2.2 -463 30 True:Mean:U a1pha.95% C.L.: 3.8' -362 38 Criteria. 5 1273 5000 Acceptable Y/N- Y' Y Y a===========================_____.. ============================= 4- Nnx Grid Block Wt. Mean 5 695 92 l' - Criteria 10- 1273 5000
- O Acceptable Y/N- Y Y .: U z=======ss_____ . .======r.=========Y =========__._____._-------------
Max, Hot Spot Scans NONE NONE NONE (cffected. areas only) Criteria NA NA' NA-Acceptable Y/N NA NA NA
=============================================- . =mem_============
I (a) With a mean site background of 6 uRem/hr subtracted M (b)'Without subtraction of radioactivity due to natural radioactive' material content t LA
. . .^
- Y
R FABLE 402.11 1J l0f1]- 1 LCINitCHERDEconMIS$10NINGPLAN 06/06/97 > y ' h FINAL $URVEY DATA SHEEi! ( /: iDATA FOR AffECTED AREA DESCRIPTION: MISC. CONCRETE SUPPORIS/ CONCRETE SLA8 N OF WASTE Pli 8tDG. D '. AREA 402.11 FOR uR/HR RADIATIONTYPE: ..GAMMASURVEYINUREM/HR- ; COMPLEi!0N
'] .DATE:06/06/97' ) ..itCMICIANS:- lJB/GF MATERIAL CODE AREA:- -402.0 'l: CONCRETE- '5: PLASTIC UNIT:.4402.11- 2: ROCK 6:S0ll MEDIA TYPE: CONCRETE- 3:N000 -7:ASPHAli 8ofPOINTS: 6 '4: METAL' .8:0THER(SPECIFY):
NO MATERIAL BACKGROUND USED' l 1 1
.MICR0 REM .PER HOUR: -LIMli -!
MAX:. 5.00 PASS 10 -j AVG: ~2.17 PASS 5 ST0X: 1.94
- MU SU8 ALPHA: 3.76 PASS 5
)
MATER-INST. AREA AREA- IAL NET ID i GRID POINT ID I 8KG READING CODE UREM/HR
.Q v
UREM/HRUREM/HR
'402.11 A A '6 10 '8 4 F 402.11 8 A 6 11 8 5 402.11. C A 6 7 8 l' q 402.11- .0- A 6~ 6 8 0 1402.11 E A 6 8 8 2 402.!! F' A .6 7 8 1 m ..
k) - a
-r ,
r- - - -
; dTABLE 402.11;2, ,
A < _ h/ 7
. ,C!NTICNEN DECOMMIS$10NING PLAN. L06/06/97; W Lf!NAL SURVEY DATA SHEET-Q: DATA FOR AffECTED AREA DESCRIPTION:1 -MISC.fCONCRETESUPPORTS/CONCRETESLABNOfNASTEPITBLDG,-
l AREA 402.11 FOR BETA'
?RA01A110NTYPE:
1' BETA SCALING FACTOR : 0.975-iCOMPLETION-
~DATE: '06/06/97 I .TECU!CIANS:-- .18/GT ' MATERIAL C00!
AREA:- 402.0. 1:00NCRETE 5: PLASTIC eUNII: 402.11' 2: ROCK- 6:S0ll
'MEDIATYPE: CONCRETE '3:W000-7:ASPNAli ' .I of POINis: 30 4:NETAL 8:0THER(SPECIff):
CT;1NMINUilS:. 11 NO MATERIAL BACKGROUND USED DPM/100CM'2f REM.+flXED: LIMIT MAXTORINDGRID 695 PASS 1273 jAVG - SURVEY UNIT -463 PASS 1273 STD X 325
'MU SUB ALPHA -362 PASS 1273 MAX HOT SPOT NOME PASS 3818 WEIGHTED BETA BETA SCAN. TOTAL AVG.
GRID INST. FIXED - MAX CONT. MATER- BETA MAX C00RIDINATES INST. AREACOUNTS/ BETA AREA- IAL MDA flXED PER INST Eff. 10 0 GRID ID LOCATION ID I BKG 1 COUNTS CM'2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM CPM MINUTES 100 CM"2 100 CM'2 TEST CM'2 TEST
-%f})-
402.11 1. ! 658 594 0 0 8 499 -262+/-284 NA 0.2508
. o402.11 2 1 658 630 0 0 8 499 -115+/-288 NA 0.2508 402.11 -3 1 658 584 0 0 8 '499 -303+/-282 NA 0.2508 402.!! 4 1 658 607 0 0 8 499 -209+/-285 MA 0.2508 402.!!. 5' 1 658 574 0 0- 8 499 -344+/-281 NA .0.2508 402.11 6- 1 658 610 0 0 8 499 -196+/-285 NA 0.2508 .402.11 7 1 658 828 0 0 8 499. 695t/-309 NA 0.2508 402.11 8 1 658 494 0 0 8 499 671+/-272 NA 0.2508 j 402.11- 9 1 658 527 -0 0 8 499 .-536+/-276 NA 0.2508 '402,11 ~ 10 1 .658 716 0 0 8 499 237+/-297 NA 0.2508 '
402.11 !! ! 658 530 0 8 499 -523+/-276 NA 0.2508 402.11 12 1 658 .531 0 0 8 499 -519+/-276 NA 0.2508 402.!! 13 1 658 465 0- 0 '8' 499 -789+/-269 NA 0.2508
'402.11 : 14 1 658 477 0 0 8 499 -740+/-270 NA 0.2508 402.11- 15; 1 658 562 0 0 ~8 499 -393+/-280 NA 0.2508 402.11 16 .!: 658 483 0 0 8 499 -716+/-271 NA 0.2508 -402.11- 17 1 658 439 0 0. 8 : 499 -896+/-265 NA 0.2508 402.11 ' 18 .1 '658- -497 0 0 8 499 -658+/-272 NA 0.2508 .402.11 19 - 1 --658 490 0- ~
0 -8 499- -687+/-272- NA 0.2508--
'402.11 20 - 1; 658- 445 -0 0- B- 499 -871+/-266 NA 0.2508 402.11. ' 21 ' 658. 542 0 0- 8 499. -474+/-278 NA 0.2508 '402.!!? 22 '1 -658 536. 0 0 '8 499 -499+/-277 NA 0.2508 402.!! 23 . 1 658. 524 '
0- 0 8 499 -548+/-276 NA 0.2508 l 911 . . 24 ? I 658 '506 - 0! 0: 8 1 499 -622+/-273 , NA - -0.2508 1 i )l1 25 . :1- -658 531 0 .0 8- 499 -519.+/-276 - NA 0.2508f 402.!!- F f 26 1; 1658. '510 ;0? 0l 8 499- -605+/-274 NA 0.2508 402.11: -:F 27 1 653 525 0 -' 0 -8 499 -544 +/- 276' NA -0.2508
- 402.!! - 28 1- 658 487 . 0 0 .8 499. :-699+/--271 NA 0.2508 402.11 _
29 ? it. 658 :W L0 40 8 499 -552+/-275 NA - .0.2508 402.111 : 30 : 1 .658 575- <0 0- 8 499 339+/-281. NA - 0.2508
., 7 8Ed(LTABLE 402,11-3 ~ T /b l .CINTICNEM DEC0mlS$10NING' PLAN 06/06/97' c/m - f!NAL SURVEY DATA SHEET dc DATA FOR AFFECTED AREA b tRIPTION: ' MISC.CONCRETESUPPORTS/CONCRETESLABNOFWA$iEPli8 LOG.
AREA 402.11FORALPNA RADIATION ffPE:
)
2L l COMPLEil0N DATE: '06/06/97c i TECHICIANS: JB/GF MATERIAL CODE AREA: 402.0 -1: CONCRETE 5: PLASTIC UN!i: 402.11 2: ROCK '6:30!L MEDIATYPE:- CONCRETE 3:N000 7:ASPNALT' ,
;IofPOINTS: 30 4: METAL 8:0INER(SPECIFY):
[ 'Ci IN MINUTES:- -1; NO MATERIAL BACKGROUND USED DPM/100CM'2' REM.* FIXED:. LIM!i. MAX FOR IND GRID 92 PASS 5000
. AVG - SURVEY UNIT. 30 PASS 5000 STDX 24 MU SU8 ALPNA. 38 PASS 5000
. MAX NOT SPOT NONE. PASS 15000 NEIGHTED ALPNA' ALPNA SCAN TOTAL AVG. GRID INST. TIXED- MAX CONT MATER- ALPNA MAX C00RIDINATES INST. AREACOUNTS/'ALPNA AREA IAL ' MOA- FIXED PER INST EFF. ID 8- GRID 10 LOCATION .10 8 8KG ' 1 COUNTS CM'2 CODE DPM/ DPM/ AVG 100 MAX. CPM /DPM CPM MINUTES. 100 CM"2 100CM'2TESTCM'2 TEST-
,402.11 ~1 1 1 6 0 0. 8 42 29 +/- 30 NA 0.1735' ' 402.11 2 1 1 8 0 0 8 42 40 +/- 34 NA 0.1735 l 402.11 3 1- 1 4 0 0 8 ^42 17 +/- 25 NA 0.1735 > 402.!!L -4 1 1 5 0 0~ 8 42 23 +/- 28 NA 0.1735 402.11- 5. 1 1 7 0 0 8 42 35 +/- 32 NA 0.1735 402.11 6 1 1 10 0 0 8 42 52 +/ 37 NA 0.1735 L402.11. 7 1 1 10 0 0 8 42 52 +/- 37 NA 0.1735 -402.11- 8 1 1 3 0 -0 8 42 12 +/- 23 NA 0.1735 .402.11 9 1 1 7 0 0 8 42 35 +/- 32 NA 0.1735 -
402.11 10 1 1 11 0 0 8 42 58 +/- 39 NA 0.1735 402.11 11 1 1 12 0 0 8 42 63 +/- 41 NA 0.1735
'402.11' 12 1. 1 17 - 0 0 8 42 92t/-~ 48 MA 0.1735 402.11 13 1 1 5. .0 0 8 42 23 +/- 28 NA 0.1735 402.11 14 - 1 1 10 0 0 8 42 52 +/- 37 NA 0.1735 I 81t/- 45 402.11 15 1 15 0 0 8 42 NA 0.1735 402.!!! 16 1 1 10 0 0 8 42 52 +/- 37 NA 0.1735 402.11 17 .1 1. 2- 0 0 8 42 6-+/- 20 NA 0.1735 402.11- ~8 1 -1 1 2'. 0 0 8. 42 6 +/- 20 NA 0.1735 .
402.11- 19 1 1 7. 0 0 8 42 35 +/- 32 NA _0.1735 402.11 20 1~ l 3 0 0 8 42 -12 +/- 23 NA 0.1735 402.11 21 1: 1 -4 0 0 8- 42 11 +/- 25 NA 0.1735-402.11' , 1 ' 22 1 '1 6 0. 0 8 4 2 -- 29 +/- 30 NA 0.1735 402.11: 23 L -l ,1 1 0 -0 8' 42' 0+/- 16 NA- 0.1735 c 402.ll- 24
-l. 1 2' 0' 'O 8 42 6+/- 20 NA 0.1735 1 ;02.11' 25 1 1: 3 0 0 8 42 12 +/- 23 NA 0.1735 "'402. !! . ' 26 - 1 1 'l '0 0' 8 42 0+/- 16. NA 0.1735 402.!!- : 27 1 1 5 0- '0. ~8 42 23 +/- 28 NA 0.1735 ; C2.'ll - ' 28 1- 1 ?5 '0 ' 0 -- 9 42 23 +/- 28 NA 0.1735 402.11 29 l> 4~ 0 0 8- '42 17 +/- 25 - NA 0.1735 402.11 : 30 . .1 - - 1. . ~2 0- 0' 8' 42 6+/-E20 ' NA - 0.1735 1
, 7 J; , j LCINTICHEM FINAL STATUS SURVEY PLAN AND. REPORT j -)()r '- L jQ - The'. 402l12 %2ttrvey uni t: was suryeyed: on. an : af fec t ed area basis ; and ~ .64~-direct . beta / alpha -surface-
- has>ta - surf ac@ area of 12 m . :
lcontaminat f oritighsurementolocations were plac'ed'in this" area using- a l' readings: pbini' by im grid. One reading was-.taken at the-' center
-of ' the grid and - four each at the-midpoint between the center and t t he s corne rs goif .1t he' gr id . I'4 gamma exposure rate ' measurement - . location @wey6 placed 'in this area' using- a Im by'1m grid.
In . addition a '1D0% scan. whs performed 'in each Im by im grid' location. ,
- The location'of these measurements.'is shown'in the accompanying map. : ,
Measurement vandi sampling '. result s for t he . 402.12 survey unit-are ' provided Tin 3: at tached : tables as foilows: B Table-402.12-l' Pad Below-Bldg 3 Ramp-gamma exposure rate data Tab l e . 402'.12-2' Pad' Bel'w o Bldg:3 Ramp j direct' beta / gamma. surface contamination data
' Tab l e . ' 4 0 2.' 12- 3 Pad Below Bldg 3 Ramp < direct': alpha surface contamination data ;
i_ l t-e L i i- ! j
. S. ;SECTIOM;;14 I
y , - y.- , ,--/,- ,b- y e - . .. . , -
3 AJS 3 E _ W 3_J'G =3 _ N :: LO2,: 2 1 2 3 4 D1 E2
/
A '$ [ c HANDRAIL
/
B - :
/ - / / /
l
//
(_x A KICKPLATE 1
'//// / / / /c' KICKPLATE A B C HANDRAIL UNIT 403.6 c/24/97 h h NdGS/3443
, , . , . y. _ . . .. , . _ . ..-..m. . . - - . \
lc.
;., g ?
b F UCINTICHEM FINAL STATUS. SURVEY PLAN AND REPORT. q V~T: . y ,
. .a AREA:402.12:
Meas. Type::- Gamma > Exposure Direct ~ Direct-Rate-(a); Beta (b) Alpha (b)
- Units uRem/hr . dps/ - dpa/
100 cm2' . 100 cm2 , f
-. MDA - 2 '386. 18 Number of. Meas: . 14 64 64 a====================================================================== 1 . Survey Unit Mean:- 3.3 325 4 ,
True Mean;U alpha 95% C.L.:. 3.8 356 '5 Criteria 5 1273- 5000 ,
' Acceptable'Y/N Y 'Y Y en:============================================================--- ==== . Max Orid' Block Wt. Mean 5 782 19 p riteriaC _ .
10- 1273 5000 ; Q cceptable Y/N Y .- Y Y
======================================================s__ _s_========== ; . Max. Hot: Spot' Scans.. NONE NONE NONE !(affected areas only)
Criteria . . NA NA NA Acceptable Y/N - NA NA NA um=============================================____==================== , (a) With a mean sit 3-background of 6 uRem/hr subtracted (b) Without subtraction'of' radioactivity due to natural radioactive' material _. content-
, 'i ' ?
a
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- - - - ? ,e . . .- - . . . . , - .
EKTAllE~402.'12-1L l :gf((h/.% , k CINTICHEM DECOMMIS$10NING PtAN '06/04/97-(.yN . 1 FINAL-SURVEY 'ATA D SHEET 4([ DATA FOR AffECTED AREA DESCRIPi!0N: 1 CONCRETE PAOS 8ELON BUILDING 3 RAMP
. AREA 402.1210RUR/HR.
RADIAi!0N TYPE: ! GAMMA SURVEY IN UREM/HR
- COMPLEi!0N DATEi'12/16/96 :
?IECHNICIANS:i fM/PG MATERIAL CODE' ,
AREA: 402.0 !: CONCRETE.- 5:PLASi!C. UNii! . 402.12-
-2: ROCK: .6:$0!L .M!DIATYPE: CONCRETE 23:N000; 7:ASPHAli- ; I of POINTS: .- 14 . - ~4: METAL 8:0iHER(SPECIFYl:
NO MATERIAL BACKGROUND USED-
'MICR0 REM iPERHOUR:' LIMIT-MAX: 5.00 PASS- 10 AVG: 3.29 PASS 5 STD X: 0.99 1
MU SUB ALPHA: '3.76 PASS- 5 (_ MAi!R-IPST. AREA AREA IAL NET 10 8 - ~ GRID' POINT. ID 8 BKG READING CODE UREN/HR UREM/HR UREM/HR ~ 402.12 : Al A 6 11 8 5 1 02.12 : A2- A 6- 9 8 3 402.12' A3 'A 6 8 8 2
.402.12: A4 A 6 8 8 2 '402.12 81- A. 6 9 8 .3 402.12' B2 .A 6 '9 8 3 402,12 83 A 6 8 8 2 ' 402.12 84 A 6l 9 8 3 -402.12 ' C1 A 6 9 8' 3 402.12 C2 A 6 11 8 5 402.12 C3 A 6 10 8 4 402.12 C4 A 6 10 8 4 402.12 01 A 6 10 8 4 402.12 02 'A .6 9' 8 3 i
d
.i l
1
e jfj(pl(j ll+)) T
^
i U TA8LE 402,12-g: CINTICHEM DECOMIS$10NING PLAN - -12/16/96:
?
(NLFINALSURVEYDATASHEti;)-'DATAFORAffECTEDAREADESCRIPIION:
' CONCRETE PADS BELON 8UILDING 3 RAMP:
AREA 402.12 FOR BETA
'RADIAi!0NTYPE: .1 BETA SCALING FACTOR : -0.975~ 'COMPLEi10K .DATE: 12/16I96 TECHNICIANS: FM/PG MATERIAL CODE AREA:. 402.0 1: CON 0 RETE 5: PLASTIC i UN!!: 402.121 2: ROCK 6:S0!L MEDIAIYPE:- CONCRETE 3:N000 7:ASPNALT 8ofPOINI$: . 64. 4: METAL 8:0THERISPECIFYl:
CTINMINUTES: 1 NO MATERIAL BACKGROUND USED DPM/100CM'2-REP.* FIXED: LIMii
' MAX TOR IND GRID 782 PASS 1273 AVG - SURVEY UNIT' 1325 PASS 1273 STD X 152 MU SUB ALPHA 356 PASS 1273 . MAX HOT SPOT NOME PASS 3818 NEIGHTED BETA BETA SCAN TOTAL AVG.
GRID -INST. FIXED MAX CONT. MATER- BETA MAX C00RIDINATES.. INST. AREA COUNiil 8 ETA AREA IAL MDA FIXED PER INSTEff.
'D 8 ' GRID 10 LOCA110N- 10 8 BKG 1 COUNTS CM^2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM O CPM MINUTES 100CM'2 100 CM'2 TEST CM'2 TEST V
402.12 Al 1 6 382 523 0 0 8 370 558+/-233 NA 0.2591 L402.12 .Al 2: 6 382 507 0 0 8 370 495+/-231 NA 0.2591 . 402.12- Al 3 6 382. 488 0 0 8 370 '420+/-229 NA 0.2591 402.12- At 4 6 382 475 0 0 8 370 368+/-227 NA 0.2591 402.12' ; Al - 5 6 382 482 0 0 8 370 396+/-228 NA 0.2591 .
? .1 402.12 A2 1 6 382 453 0 0 8 370 281+/-224 NA 0.2591 402.!? - A2 - 2 6 382 397 0 0 8 370 59+/-217 . NA 0.2591 402.12 A2 3 6 382 428 0 0 8 370 182+/-221 NA 0.2591 402.12 A2 4 6 382 435 0 0 8 370 210 +/ 222 NA 0.2591 402.12 ' A2 5 6 382 469 0 0 8 370 344+/-226 NA 0.2591 -
402.12- A3 1 6- 382 418 0 0 8 370 143+/-219 NA 0.2591 402.12 A3 2 6 382 400 0 0 8 370 71+/-217 NA 0.2591 402.12 A3 -3 6 382 425 0 0 8 370 170+/-220 NA 0.2591 402.12' . A3 -4: 6 382 399 0 0 8 370 67+/-217 NA 0.2591 402.12 A3 5 6 382 417 0 0 8 370 139+/-219 NA 0.2591 402.12 A4 1 .6 .382 434 0 0 8 370 206+/-222- NA 0.2591 ;
-402.12. . A4 2 6- 382 407 0' '0 8 370 99+/-218 NA 0.2591 402.12 ; A4 '3' 6' 382- 428 0- 0 8 370 182+/-221 NA 0.2591 402.12 81 1 6 382 481 0 0- 8 370 392 +/- 228 NA 0.2591 402.12 81- 2 6 382 -458 0 0 8 370 301+/-225' NA 0.2591 402.12. ' 81 3 6~ 382 -447- 0 0 8 -370 257+/-223 NA 0.2591 ,
402.12- 181 .4: 6 .382- 468 0 0 8 370 340+/-226 lNA 0.2591
,J402.12 81.: 5 6' :382. 453 0 0- 8 370 281+/-224- NA ' O.2591- .2 82 1 :6 '382 430 0. .0 8 370 190+/-221 NA 0.2591 2- 82 - '2' 6- 382 414 0- :0 8 370, 127+/-219 NA 0.2591 .4 .12 - 82- .3 '6' 382 454 0 0- 8 370- .285+/-224 NA 0.2591 402.12L i 82 4 6 382 433- 0 0- 8 370L 202+/-221 . NA 0.2591 a402.12? 82 - 5 6~ 382: 422' 0 0- :8 370 -158+/-220. NA . 0.2591
- 402.12- c 83. '1- 6 382' 496 ' O. '0- 8- :370. 451+/-230- NA 0.2591-83: '0
- 402.12-. 2 .'6 382 429 -0 8 370- 186+/-221 l NA : 0.2591
- g. . .- - .. - _.- -- .
CBLt'402.12-2
'402.12 83 - 3 6 382' -403 0 0 8 370 ~ 83 +/- 217 NA 0.2591 402.12 83 4 6 382 .439 0 0. 8 370 226 +/- 222 NA 0.2591
('12 63 - 5- 6 382 '457 0 0 8 370 297+/-225 NA 0.2591 (j2 84 .I 6. 382- 427 0 0 8 370 178 +/- 221' MA 0.2591 402.12 84 2 6 382 482 0 0 .8 370 396+/-228 NA 0.2591 402.12 84 3- 6 382 431 0 0 8 370 194+/-221 NA 0.2591 402.12 Cl - 1 9 331 459 0. 0 8 386 565+/-243 NA 0.2322 402.12 .Cl 2 9 331 416- 0 0 8 386 375+/-237 NA 0.2322 402.12 C1 3 9 331 453 0 0 8 386 539+/-242 NA - 0.2322 402.12 C1 4 9 331 420 0 0 8 386 393*/-237 NA 0.2322 402.12- Cl. 5 9 331 432 0 0 8 386 446+/-239 NA 0.2322 402.12 . C2 1 9 331 418 0 0 8 386 - 384+/-237 NA - 0.2322 402.12 C2 .2 9 331 379. 0 0 8 386 212+/-231 NA 0.2322
'402.12 C2 . 3 9 331 362 0 0 8 386 137+/-228 NA 0.2322 402.12 C2 4 9 331 411 0 0 8 386 .353+/-236 NA 0.2322 402.12 C2 5 9 331 428 0 0 8 386 428+/-239 NA - 0.2322 402.12 C3 1 9 331 407 0 0 8 386 336+/-235 NA 0.2322 402.12 03 2 9 331 428 0 0 8 386 428+/-239 NA 0.2322 402.12 C3 3 9 331 418 0 0 8 386 384+/-237 NA 0.2322 402.12 C3' 4 '9 331 420 0 0 8 386 393+/-237 NA 0.2322 402.12 C3 5 9 331 437 0 0 8 386 468+/-240 NA 'O.2322 402.12 C4 1 9 331 411 0 0 8 386 353+/-236 NA 0.2322 -402.12 C4 2 9 331 409 0 0 8 386 345+/-236 NA 0.2322 402.12 C4 -3 9 331 412 0 0 8 386 358+/-236 NA 0.2322 402.12 D1 1 9 331 428 0 0 8 386 428+/-239 NA 0.2322 402.12 D1 2 9 331 420 0 0 8 386 393+/-237 NA 0.2322 402.12 01 3 '9 331 438 0 0 8 386 473+/-240 NA 0.2322 102.12 - 01 4 9 331 435 0 0 8 386 459+/-240 NA 0.2322 .p2 D1 5 9 331 400 0 0 8 386 305+/-234 NA 0.2322 Es12 D2 1 9 331 447 0 0 8 386 512+/-241 NA 0.2322 402.12 02 2 9 331 458 0 0 8 386 561+/-243 NA 0.2322 402.12 02 3 9 331 467 0 0 8 386 601+/-245 NA 0.2322 402.12 02 4 9 331 429 0 0 8 386 433+/-239 NA 0.2322 402.12 02 5 9 331 508 0 0 8 386 782 +/- 251 NA 0.2322
< ; WRTA8LE 402.12-3 ,
f [f-hh/-
~ ;CINTICHEMDECOMMISSIONING' PLAN 12/16/96
(&)' FINAL SURVEY DATA $NELT DATA FOR AFFECTED AREA DESCRIPi!0N: CONCRETE PADS 8El0N BUllDING 3 RAMP
' ARIA 402.12 FOR ALPNA
- RADIAT!0NTYPE: 2 COMPLETION DATE:- 12/16/96 TECHNICIANS:, FM/PG MATERIAL CODE AREA: 402.0- 1: CONCRETE 5: PLASTIC ~
UNIT: 402.12 2: ROCK' 6:$01L 1 MEDIATIPE: CONCREit 3:N000 7: ASPHALT 8 of POINIS: 64 4: METAL 8:0THER(SPECIFY): CT IN MINUTES: '1 NO MATERIAL BACKGROUND USED ; DPM/100CM'2- 1
.REF.+ FIXED: LIMIT MAX FOR IND GRID 19 PASS 5000 AVG SURVEY UNIT. 4 PASS 5000 STD X 5 MU SUB ALPNA- 5 PASS 5000 MAX NOT SPOT NONE PASS 15000 NEIGHTED ALPH ALPHA SCAN TOTAL AVG.
GRID- INST. FIXED MX ' CONT. MTER- ALPHA MAX C00RIDINATES- !N$i. AREA COUNTS / ALPHA AREA IAL MDA FIXED PER INST EFF.
~ 10 8 GRIDIDLOCATION 10 0 BKG 1 COUNTS CM"2 CODE DPM/ DPM/ AVG 100 MX CPM /DPM CPM MINUTES 100 CM'2 100 CM'2 TEST CM^2 TEST (Q> ; '402.12 ' Al ! 6 0 0 0 0 8 15 0+/- 0 NA 0.1776 402.12 'Al- 2 .6 0 1 0 0 8 15 6+/- 11 NA 0.1776 -402.12. Al 3 6 0 2 0 0 8 15 11 +/- 16 NA 0.1776 '
402.12 At 4 6 0- 0 0 0 8 15 0+/- 0 NA 0.1776 402.12 At 5 6 0 1 0 0 8 15 6+/- 11 NA 0.1776 402.12 A2 1 6 0 0 0 0 8 15 0+/- 0 NA 0.1776 402.12 A2 2 6 0 0 0 0 8 15 0+/- 0 NA 0.th6 402.12 - A2 3 6 0 0 0 0 8 15 0+/- 0 NA 0.1776 402.12 A2 4 6 0 0 0 0 8 15 0+/- 0 NA 0.1776 l 402.12 A2 5 6 0 0 0 0- 6 15 0+/- 0 NA 0.1776 l 402.12 A3 1 6 0 0 0 0 8 15 0+/- 0 NA 0.1776 402.12 A3 2 6 0 0 0 0 8 15 0+/- 0 NA 0.1776 402.12 A3 3 6 0 1 0 0 8 15 6t/- 11 NA 0.1776
-402.12 A3 4 6 0 3 0 0 8 15 17 +/- 19 MA 0.1776 -402.12 n1 5 6 0- 1 0 0 8 15 6 +/- 11 NA 0.1776 ,
402.!! A4 1 6 0- 0 0 0 8 15 0t/- 0 NA 0.1776- i 402.12 A4 2 6< 0 0 0 0 8 15 0 +/ 0 NA 0.1776 . ; 402.12 A4 3 6 0 2 '0 0 8 15 11 +/- 16 NA 0.1776 ) 402.12 B1 'l -6' 0 0 0 0 0 15 0+/- 0 NA 0.1776 402.12- 81 '2 '6. 0 1 0 0 8 15 6 +/- 11 NA 0.1776 402.12 .B1: 3 6. 0 1- .0 .0 8 15 6+/- 11 NA . 0.1776 402.12. . 81 - .4- 6 0 0 0- 0 8 15 0+/- 0 NA 0.1776
-402.12; Bl i- 5 6 0 0 0 0 .8 15 0+/- 0 NA 0.1776 ' ?' 2 ' 82 - 1 6' 0 0 0 8 15 0+/- 0 NA .0,1776- l 2' B2 2 6 0 1 0 '0- 8 15 6+/- 11 NA 0.1776 ? 2: . 82 3. 6- 0 1 0 0 8. 15 6+/- 11 NA 0.1776 E 402.12 B2 4 : 6-- 0- 0' O. 0 8 15 0+/-- 0 NA 0.1776-
!, 402.12- B21 5 6: 0, 0- -0 0 8 15 0+/- 0 NA 0.1776 - 402.12- 83 1. .6 0 1' 0 0- 8 15 6+/- 11 NA 0.1776 402.12 83 '2 6. '0 ;O 0 0 8 15 0 +/ ' 0 . NA 0.1776 =.
. .. .- , . -. ~ .- ..- . .- -. --
J BBLE C2.12 3! 402.12 . 83 t3 '6 0 1 0- 0 8 15 '6 +/ 11 - M 0.1776~ -! 402.12 > 83 4- ~6 0 -0 0 0 8 15- 0 +/ 0 NA 0.1776' (12 -- 83 , 5' '6 0- 0 0- 0 8 15 0 +/-' 0. NA ~ 0.1776 7 .kj21 84 1' ~6~ 0. 0 'O :0- 8 15 - 0+/- 0- -Mi 0.l??6 ' l
')402.12' : 84 ~ '2 6 0 'OL 0 0' 8 15 0 +/- 0 M' O.1776 402.12 84- 3- 6. 0 :0- 0 8 - 15 11' +/ .16 ' M- -0.1776 , -402.12 C1 1 9t 0 2 0' 0- 8 18 c 13+/- 18 Ml '0.1539. l 402.12 ' C1 2. _9 0 0- ~0 0 8 18 0+/- 0 NA 0.1539.- -;
402.12 -- Cl 3 9 0 '0 0 0 ;8' 18 0+/- 0 NA 0.1539 40212 Cl '4- 9. 0 1 0 0 8 18 6+/- 13 NA 0.1539 I 402.12 Cl 5. 9 .0 0- 0 0 8 18 0 +/ . 0 M 0.1539 i 402.12. C2 1- 9' 0- 0 0 0 8 '18 'O +/-' 0- M 0.1539 7402.12 C2- 2: 9L 01 0 0 8 18 10 +/- 0 NA - 0.1539 + 402.12- C2 ' 3 9 >0 2- 0: -0 8 18. 13 +/ 18 NA 0.1539 402.12- C2 4 9- 0 0 0- 0 8 18 0+/- 0 M 0.1539 402.12 C2 5 9- .0 .1 0 0 8 18 6 +/- 13 M 0.1539 a 402.12 : C3 1 9? 0 1 0 0 8 18 6+/-'13 p 0.1539 402.12 C3 2 9 0 0 0 0- 8 18 0+/- 0 NA 0.1539 _; 402.12- . C3 ~ 3 '9 0 1 0 0 8 18 6 +/- 13 MA 0.1539-4 402.121 C3 41 .9- 0 .0 0 J B 18 0+/- 0 NA -0.1539 402.12: - C3 5 9- 0 1 0 0 8 18 6 +/- 13 NA 0.1539 . 402.12 ' C4 1 9 0 0 0 'O 8 18 0+/- 0 NA 0.1539' l 402.12. c C4 - 2 9 0 0 0 0 8 18 0+/- 0 NA 0.1539' ; 402.12 C4 3 '9 0 3 0 0 .8 18- 19 +/- 22 NA 0.1539 3 402.12 : 01 1 '9 0 2~ 0 0 8 18 13 +/- 18 NA 0.1539 402.12- 01 9 .04 2 0! 0 8 18 - 13 +/ 18- NA 0.1539 , 402.12- 01 3 9 0 2 0 -0' 8 18 13 +/- 18 NA - 0.1539
.102.12 - D1 : 4 .9 0 2 0 0 8 18 .13 +/- 18 M 0.1539 f '12 01 5 9 0 1 0 _. 0 8 18 6 +/ 13 NA 0.1539 ,
Ld2 02 1 9 0 0 0 0 8 18 0+/- 0 NA 0.1539-402.12 : D2 2 9 0 2 0 0 8 18 13 +/- 18 NA 0.1539 402.12-- D2 3 9 0 0 0 0 8 18 0+/- 0 NA 0.1539 . 402.12' D2' 4 9 0 0' 0 0 8 18 0+/- 0 NA 0.1539 402,12' D2 5' 9 0 2 0 0 8 18 13 +/- 18 M 0.1539 k 8 i o " ,qu , i t 6 = y
, CINTICIIEM FINAL STATUS SURVEY PLAN AND REPORT U The 403.1 survey unit was suryeyed on an affected area basis and has a surface area of 20 - m . 116 direct beta / alpha surface contamination measurement locations were placed in this area using 5 readings per im by im grid. One reading was taken at the center of the grid and four each at the midpoint between the center and the corners of the grid. 24 gamma exposure rate measurement locations were placed in this area using a im by im grid. In addition a 100*6 scan was performed in each im by im grid location.
The location of these measurements is shown in the accompanying map. Measurement and sampling results for the 403.1 survey unit are provided in 3 attached tables as follows: Table 403.1-1 Metal Stairs from Bldg 3 gamma exposure rate data Table 403.1-2 Metal Stairs from Bldg 3 direct beta / gamma surface contamination data Table 403.1-3 Metal Stairs from Bldg 3 direct alpha surface contamination data ( k.D) l l l l0 gj SECTION 14
FINAL SURVEY GRID MAP METAL STAIRS FROM BLDG. #3 TOPSIDE STEPS, AFFECTED 1 UNIT 403.1 TOP i i i B A O i , , 1 2 3 4 5 6 7 8 9 10 11 12 UNIT 403.1 e e nwasuae 4/14/97
- 5 CINTICHEM FINAL STA11JS SURVEY PLAN AND REPORT d.
AREA 403.I' Meas. Type: Gamma Exposure Direct Direct Rate (a) Beta (b) Alpha (b) Units uRem/hr dpa/ dps/ 100 cm2 100 cm2' MDA 2 456 80 Number of Meas: 24 116 116 es==______.__=-----r=========______.______-- ----------- =--- =____== v Survey Unit Mean: 1.5 17 -8 True-Mean:U alphe 95% C.L.: 2.2 84 -6 Criterin 5 1273 5000 Acceptable Y/N Y Y Y n=======4===_________________________-=__a- - - = = - - --- =- -- = == Max Grid Block Wt. Mean 5 1121 34 Criteria 10 1273 5000 ccceptable Y/N Y Y Y
===== =======----- =r--- ==_=_-- ============ =---- =================== ' Max. Hot Spot Scans NONE NONE NONE (cffected areas only)
Criteria NA NA NA
-Acceptable Y/N NA NA NA .==--------w=======================_-----__=-=s----- ---- =-============
(a) With a mean site background of 6 uRem/hr subtracted 3 (b) Without subtraction of radioactivity due to natural radioactive material content J . qf I
~l )
' , jN[f . [/ - jyf EAkd403.1-I( , 'CINTICHEM DECOMMISSIONING PLAN: 04/14/97 ~
7 -flNAL SURVEY DATA SHEET-f.(d
;DATAFORAffECTE0'AREADESCRIPTION:- ,:iLOG 3 METAL STAIRS TOPSIDE lAREA403.1FORuR/HR:
- RADIAi!0NTYPE: GAMMASURVEYINUREN/HR r , 1 COMPLETION '
JDATE:04/09/97
~- ' TECHNICIANS: Di MATERIAL CODE AREAt- 403.0. 1: CONCRETE .5: PLASTIC ;UNii: '403.1- 2: ROCK 6:$0!L~ , ~
MEDIA-TYPE:- -METAL' ~ 3:WD00 7:ASPHAll:
- IofPOINTS: . 24 l4: METAL' 8:0THER(SPECIFY):
NO MATERIAL BACKGROUND USED -
- MICR0 REM PERHOUR:: : LIMIT -)
iMAX: 5.00 PASS-' : 10 .; AVG:' 1.54 PASS 5
..STD X: 1.89 ,
2.20 PASS: -5 'J
... 'MV SUB ALPHA:
l MATER-l INST. AREA- AREA -IAL . NET .I
- 10 8 -GRIO POINT:
. ID i BKG REA0!NG CODE URCM/HR ! "[ ' ~ UREM/HRUREM/HR 403.1 'Al A' 6 6 8 0 403.1 A2 A 6 7 8 1 ?403.1- A3 A -6 6 8 0 403.1 ~A4 - A :- 6 7 8 1 . 403.1 =: AS- A 6 7 8 1 403.1- A6 -
A 6 10 8. 4 "403.1 A7 - A' 6- 10 8- 4
-403.1 A8 A -6 11 8 5 403.1 A9 A 6 6 -8 0 403.1 A10 A' 6 6- 8 0 403.1- All - A- 6- '6 8 -0 403.l~ 'A12 A 6 8 '0 -403.1: 81- - At 6- 7. . 8- 1 ; ' : 403.1 - . 82 - A 6 - 8 l' l 403.I' - 83 .A 6 7 I8 1- -l .403.1' 64 A: 6 -8 8- 2.
403.1- 85 :AL 6: 8' 8 2
' 403.1.. 86= - A ': '6' 10^- -8 4 i
403.1:! B7 > ' A- 6l 11 84 '5-
- 403;l : 88 :A '6 ~ 11. .8; 5-L403.!L 89. ~.A 6- 6 8 0 i t
'403;!;- -- 810 - :A 6 '. 7 8- 1 L403.1- .811 , ;A :6 5: '8- :-l - I
- [
403.lL .812 1 A 6- 6 '8' 0 v l m ,
.E FT: LE 403.1-2. /
p.
.' 0 CINi!CNEM DICOMMISS10NING PLAM Of/14/97 flNAL' SURVEY DATA SHEET .(p); DATA FOR AffECTED AxEA DESCRIPi!0N:
8LDG 3 METAL STAIRS TOPSIDEa
' AREA 403.1 FOR BETA:
RADIAi!0NTYPE: 1 8ETASCALINGfACTOR: 0.975 COMPLEi10N DATE: . 04/09/97 : TECNNICIANS: Di MATERIALCODE AREA:- -403.0 1; CONCRETE- 5: PLASTIC UNIT: 403.1 2: ROCK. 6:$0!L' i MEDIA TYPE: PETAL- 3:N000 7: ASPHALT
!of70! MIS: !!6~ 4: METAL 8:0THER(SPECIfY):
CT IN MINU1ES: 1 NO MATERIt,L BACKGROUND USED DPM/100CM'2 , REN.+ flXED: LIM!i MAXFORINDGRIb 1121 PASS 1273 AVG - SURVEY UN!i 17 PASS 1273- i STD X 429
' MU SUB ALPHA- 84 PASS l MAX M01 SPOT NOME PASS 3818 NEIGHTED BETA BETA SCAN TOTAL AVG.
GRID INST. FIXED MAX CONI. MATER- BETA MAX C00RIDINATES. INST. PREACOUNTS/ BETA AREA :.it MDA flXED PER INSTIFf.
' ID I GRIDISLOCATION' ID I BKG- 1 COUNTS CM'2 CODE DPM/- DPM/ AVG 100 MAX CPM /DPM
("Y CPM MINUTES 100 CM"2 100 CM'2 TEST CM"2 TEST A) j
.403.1- Al 1 15 414 468 'O 0 8 400 222+/-239 NA 0.2497 ; --403.1 Al 2 15 414 466 0 0 8 400 214+/-239 NA 0.2497 j 403.1 .Al 3 .15 414 405 0 0 8 400 -37+/-230 NA - 0.2497 1 403.1 A2 1 15 414 456 0 0 8 400 173+/-237 NA 0.2497 403.1 A2 - 2 15 414 411 0- 0 8 400 -12+/-231 NA - 0.2497 ;403.1 A2 3 15 414 563 0 0 8 400 612+/-252 NA 0.2497 i403.1- A2 4 15 414 511 0 0 8 400 398+/-245 NA 0.2497 j
- 403.1 . A2 -5 15 414 511 0 0 8 400 398+/-245 NA 0.2497 i
!- 403.1 A3 1- 15 414 494 0 0 8 400 329+/-243 NA 0.2497 ! 403.1 A3 2 .15 414 561 0 0 8 400 604+/-251 NA 0.2497 403.1. A3 3 15 414 577 0 0 8 400 670+/-253 NA 0.2497 403.1 A3 4' 15 414 645 0 0 8 400 949+/-262 NA 0.2497 403.1 A3 5 ~ 15 414 640 0 0 8 '400 '928+/-261 NA 0.2497-
'403.1 A4 1 15 414 687 0- 0 8 400 1121+/-267 WA 0.2497 403.1- A4 - 2 15 414 626 0 0 8 400 871+/-260 NA 0.2497 -403.1 A4 3 15 414 648 0 0 8 400 961+/-262 NA 0.2497 403.1 ,A4 4 15 414 598 0 0- 8 .400 756+/-256 NA - 0.2497
- 403.1 A4 $ .- 115, 414. 612 0 0 8 1400 813+/-258 NA 0.2497 403.1 . A5 1 5 477 -606 0. 0 8 414 513+/-256- NA 0.2581
- 403.1. :A5- 2' 5 477- 658 0 0 8- 414 719+/-262 NA 0.2581 403,l'_ A5 3 '5~ 477 642 0: 0 8 414 656+/-2(1 NA 0.2581 ;
'403.1 . A5 4: 5 -477 716 0 0 8 414 950+/-269 NA ' O.2581 '1 L403.1' . A5 : 5 '5 477 610 0 0 8 414 529+/-257 NA 0.2581 l 3.~ 1 - A6 - 1- -5 477 641 0 0 8 414 652+/-260 NA 0.2581 j 3.1L A6 '2 5 l477 622 0 0 8 414 576+/-258 NA 0.2581 i ^03.!! A6 ' 3. 5; 477 -651 0 0 8 414 691+/-262 NA - 0.2581 403.1 : A6 .4- 5 '. . 477. 594-0 0 8 414 465+/-255 NA 0.2581 - 403.1 : f A6 ,5. '5 477 580 0 0 8- 414 409 +/- 253 NA 'O.2581' 'l'
- 403.1- A7- :5 477 :526 0- 0' 8 414 195+/-247 ' NA 0.2581 4
d03.1 -- ' A7 - ~-2' 5- 477 492 0 0 8 .414 60+/-242~ NA. -0.2581 'i 2
, :] ;
I'8tt 403.1-2 L '403.1 A7 3 5 477 440 0 0 8 414 -147+/-236 NA 0.2581 403.1 A7 4- 5 477- 448 0 0 8 414 -115+/-237 NA 0.2581
. f -y0 ' : A7 5 5 477 438 0 0 8 414 -155+/-236 NA 0.2581 - Q 3.1 . AB 1 5 477 415 0 0 8 414 -246+/-233 NA 0.2581 403.1 A8 . 2 5 477 392 0 0 8 414 -338+/-230 NA - 0.2581 403.1 AB 3: 5 477 449 0 -0 8 414 -111 +/- 237 NA 0.2581 403.1 A8 4- 5 477 446 0 0 8 414 -123+/-237 NA 0.2581 403.1 A8' 5 5 477 471- 0 '0 8 '414 -24+/-240 NA 0.2581 403.1 A9 1 14 '503 506 0 0 8 456 13 +/- 265 NA 0.2407 403.1 A9 ' 2 14 503 450 0 0 8 456 --226 i/- 258 NA 0.2407 403.1- A9 3 14 503 494 0 0 8 456 -38+/-264 NA 0.2407 1 403.1- A9 - 4- 14- 503 -449 0 0 8 456 -230+/-258 h4 - 0.2407 403.1 A9 . 5 14 .503 439 0 0 8 456 -273+/-256 NA 0.2407 i- 403.1 A10 1 14 503 514 0 0 8 456 47+/-266 NA 0.2407
. 403.1 A10 2 14 503 498 0 0 8 456 -21+/-264 NA 0.2407 403.1 A10 3 14 503 435 0 0 8 456 -290+/-256 NA 0.2407 403.1 A10 4 14 503 481 0 0 8 456 -94+/-262 NA 0.2407 403.1 -A10 5 14 503 430 0 0 8. 456 -311 +/ 255 NA 0.2407 403.1 .All 1 14 503 472 0 0 8 456 -132+/-261 NA 0.2407 403.1 All 2 14 ' 503 453 0' 0 8 456 -213+/-258 NA 0.2407 403.1 All- 3 14 503~ 417 0 0 8 456 -366+/-253 NA 0.2407 403.1 All 4 14 503 457 0 0 8 456 -196+/-259 NA 0.2407 403.1 All 5 . 14 503 426 0 0 8 456 -328+/-255 NA 0.2407 403.1 A12 1 14 503 441 0 0 8 456 -264+/-257 NA 0.2407 403.1 A12 2 14 503 467 0 0 8 456 -153+/-260 NA 0.2407 403.1 A12 3 14 503 414 0 0 8 456 -379+/-253 NA 0.2407 l 403.1- A12 4 14 503 406 0 0 8 456 -413+/-252 NA 0.2407 403.1 A12 5 14 503 384 0. 0 8 456 -507+/-249 NA 0.2407
, q 3.1 81 1 14 503 364 0 0 8 456' -592+/-246 NA 0.2407
( 33.1 81 2 14 503 371 0 0 8 456 -562+/-247 NA 0.2407 403.1 81 3 14 - 503 439 0 0 8 456 -273+/-256 Nh 0.2407 403.1 82 1 14 503 414 0 0 8 456 -379+/-253 NA 0.2407 . 403.1 82 2 14 503 447 0 0 8 456 -239+/-257 NA 0.2407 403.1 82 3 14 503 360 0 0 8 456 -609+/-245 NA 0.2407 403.1 82 4 14 503 398 0 0 8 456 -447+/-251 NA 0.2407 403.1 82 5 14 503 423 0 0 8 456 -341+/-254 NA 0.2407 403.1 83 1 14 503 462 0 0 8 456 -175+/-259 NA 0.2407 4 403.1 83 2 14 503 474 0 0 8 456 -124+/-261 NA 0.2407 i 403.1 83 3 14 503 428 0 0 8 456 -320+/-255 NA 0.2407 l 403.1 83 4 14 503 484 0 0 8 456 -81+/-262 NA 0.2407 403.1 83 5 14 503 481' 0 0 8 456 -94+/-262 NA 0.2407 403.1. 84 1 14 503 528 0 0 8 456 107+/-268 NA 0.2407 i 4 403.1 84 2- 14 503 501 0 0 8 456 -9+/-265 NA 0.2407 403.1 84 3 14 503 536 0 0 8 456 141+/-269 NA 0.2407 I 403.1 84 4 14 503 531 0 0 8 456 119+/-269 NA 0.2407 j 403.1- 84 5 14 503 591 0 0 6 456 375+/-276 NA _ 0.2407 l 403.1 85 1 14' 503 $80 0 0 8 456 328+/-275 NA 0.2407 403.1 85' 2 14 503 519 0. 0 8 '456 66+/-267 NA 0.2407 403.1 85. - 3. 14 503 553 0- 0 8. 456 213+/-271 NA 0.2407 403.1- 85- 4 14 503 - 592 0 0 8 456 379+/-276 NA 0.2407 403.1 8 5 '- 5 14 503 627 0 0 8 456 528+/-281 NA 0.2407 403.1 ' 86 1 - 14 503 638 0 0 8 456 575+/-282 NA 0.2407 403.1- 86 2 14 :503 660 0- 0 8 456 669+/-285 NA 0.2407 1 l 3.1 86 :3 14 503 599 0' 0 8 456 409+/-277 NA 0.2407 3.1 86 4 14 503 $98 0- 0- 8 456 405+/-277 NA 0.2407 3.1 - 86 5- 14 -503- 585 0 0 8- 456 349+/-275 NA 0.2407 403.1 87 ~ 1' 14 '503- 519 - 0 0 8 456 68+/-267 hA 0.2407 403.1 87' 2 14 503 476 0 0- 8 456 -115 +/ 261 NA 0.2407 403.1 87 3 14 503 438 0 0 8 456 -277+/-256 NA 0.2407 i 403.1 87. 4 14 503 426 0 0 8 456 -328+/-255 NA 0.2407
__- . ~. . - .._ - _.. _ .._- _ . _ _ _ _._- C8LE 403.1-2
~ ~403.1 ' 87 - 5 14 503 461 0 0 8 '456 -179+/-259 h4 0.2407 403.1 88 1 14 ;03 .415 0 0 8 456 -375+/-253 NA 0.2407 h403.1 B8 2 14 503 472 0 0 8 456 -132+/-261 NA 0.2407 . V 03.1 88 3 14 . 503 462 0 0 8 456 -175+/-259 NA 0.2407 403.1 88 - 4 14 503 472 0 0 8 456 -132+/-261 NA - 0.2407 403.1 - 88 -5 14 503 433 0 0 8 456 -298+/-256 NA 0.2407 403.1 89 1 14 503 454 0 0 8 456 -209t/-258 NA 0.2407 403.1. 89 2 14 503 '413 0 0 8 456 -383+/-253 NA 0.2407 403.1 89 3 14 503 444 0 0 8 456 -251+/-257 NA 0.2407 403.1- 89 '4 14 503 519 0 0 8 456 68+/-267 hA 0.2407 403.1 89 -5 14 503 482 0 0 8 456 -89+/-262 NA 0.2407 ~
403.1- .810 1 14 503- 451 0 0 8 456 -222+/-258- NA -0.2407 403.1 810 2- 14 503 482 0 0 8 456 -89 +/- 262 NA 0.2407 403.1 810 3 14 503 428 0 0 8 456 -320+/-255 NA 0.2407 403.1 .810 4 14 503 510 0 0 8 456 30+/-266 NA 0.2407 E .403.1 810 5 14 503 419 0 0 8 456 -3C - 254 NA 0.2407 403.1 811 1 14 503 379 0 0 8 456 -52n +/ 248 NA 0.2407 403.1 811 2 14 503 387 0 0 8 456 -494 +/- 249 NA 0.2407 403.1 811 3 14 503 413- 0 'O 8 456 -383+/-253 NA 0.2407 , 403.1 811 4 14 503 398 0 0 8 456 -447+/-251 NA 0.2407 403.1o 811 5 14 503 390 0 0 8 456 -482+/-250 NA 0.2407 403.1 812 1 14 503 387 0 0 8 456 -494+/-249 NA 0.2407 403.1 812 2 14 503 357 0 0 8 456 -622+/-245 NA 0.2407 . , . 403.1 812 3 14 503 319 0 0 8 456 -784+/-239 NA 0.2407 ! 403.1 812 4 14 503 359 0 0 8 456 -614+/-245 NA 0.2407 403.1 812 5 14 503 379 0 0 8 456 -528+/-248 NA 0.2407 O O
11fFiAILE403.13' ' [ h p -- h $ f. - - . - ..
.CINTICHEMDECOMMISSIONINGPLAN 04/14/97 ,4 -' FlhAL: SURVEY DATA SHEET- -( j '
DATA FOR AffECTED AREA DESCRIPTION:
-8LDG3METALSTAIRSTOPSIDE . AREA 403.1 FOR ALPHA ' ;RADIATIONTYPE: '2 LCOMPLITION DATE: 04/09/97:
TECHNICIANS: Di MATERIAL CODE
-AREA: 403.0 ~ 1: CONCRETE 5: PLASTIC UNIT: 403.1 2: ROCK 6:S0ll MEDIAiTPE: METAL 3:N000 -7: ASPHALT S i of POINIS: 116 4: METAL 8:01HER(SPECIFY): - (T IN MINVIE5: 'l NO MATERIAL 8ACKGROUND USED OPM/100CM'2-REM.+ FIXED: . LIMIT .MAXFORINDGRID 34 PASS 5000 i AVG 4 SVRVEY UNIT- -8 PASS 5000 STD X 13' MU SUB ALPHA --6 PASS- 5000 MAXHOTSP0i- NOMEPASS 15000 NEIGHTED !
ALPHA ALPHA SCAN TOTAL AVG. I GRID- : INST. FIXED MAX CONT. MATER- ALPHA MAX C00RIDINATES. -INST. AREA COUNTS / ALPHA AREA IAL MDA FIXED PER INST EFF.
' ID I ' GRID 10LOCAi!0N ID i 8KG 1 COUNTS CM^2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM ./m CPM MINUTES 100 CM'2 100 CM^2 TEST CM'2 TEST Q ' Al 403.1 ! 15 6 4 0 0 8 80 -11 +/- 35 NA 0.1759 I 403.1 Al 2 15 6 2 0 0 8 80 -23 +/- 32 NA 0.1759 I 403.1 Al 3 -15 6 4 0 0 8 80 -11+/-~35 NA 0.1759 403.1 A2 1 15 6 4- 0 0 8 80 -11 +/- 35 -NA 0.1759 403.1. : A2 '2 15 6 7 0 0 8 80 6 +/- 40 NA 0.1759 !
403.1 A2 3 15 6 5 0 0 8 80 -6+/- 37 NA 0.1759 ) 403.1 A2 4 15 6 1 0 0 C 80 -28+/- 29 NA 0.1759 403.1 A2 5 15 6 4 0 -0 8 80 -11 +/- 35 NA 0.1759 ! 403.1 A3 1 15 6 4 0 0 8 80 -11 +/- 35 NA 0.1759 ' 403.1. - A3 2 15 6 1 0 0 8 80 -28 +/- 29 NA 0.1759 403.1 ' A3 3 15 6 2 0 0 8 80 -23 +/- 32 NA 0.1759 403.!' A3 4 15 6 2 0 0 8 80 -23 +/- 32 NA - 0.1759
-403.1 A3' 5 15 6 0 0 0 8 80 -34+/- 27 NA 0.1759 403.I' A4 1 15 6 1 0 0 8 80 -28 +/- 29' NA 0.1759 403.1 A4 2 15 6 2 0 0 8 80 -23+/-'32 . NA - 0.1759 403.1 - A4 '3 15 6 0 0 0 8 80 -34+/- 27 NA '0.1759 !
403.1 . A4 4 15 6 0 0 0 8 80 -34+/--27 NA 0.1759 I 403.I' A4 5 15 6 1 0 0 8 80 -28 +/- 29 NA 0.1759 403.1 , AS L 1 5. 1 1 0- 0 8 46 -.0+/- 17 NA 0.1589 403.1 'A5 .2~ .5-1 2 0. 0 8 46- 6+/- 21 NA- 0.1589 J
-403.1 ' AS 3' 5 1 '2 0' 0 .8. 46 .6+/- 21 NA 0.1589 403.1 A51 4. S '- 1- 3 -0 0 8 46 13+/- 25 NA 0.1589 L403.1 A5 - 5 5 1 0 0 0 8 46 -6+/- 12 NA 0.1589 ,403.1' [A6 :1 5 1 3 0 0 8 46 13+/- 25 NA 0.1589 ] ?3.1 . A6 2; 5 1 1 0 0 8 46 0 +/- 17 MA 0.1589 ;
A 03-,1~ A6. 3- 0' 5 1- 0 O. 8 -46 -6+/- 12 NA 0.1589 < 403.1: A6 .4 .5 1 3' 0 0 8 46 13 +/- 25 NA 0.1589 L403.1 A61 5 -1 4 0 0 8 46 19+/-'28 ;NA 0.1589 ! 403.'t . A7.. 'l 5 1. 2' O. 0 8 46- 6+/-~21 NA 0.1589 4403.1 LA7 :2- -5 1 3 0 0 8 46 13 +/- 25 NA 0.1589 )
. , -, .._ _ _ _ . . . _ . _ . . ~ __ _ ._
18l!403.1-3 u I 403.1- LA7 3. 5 1 ~ 0! 0 0 8 46 -6+/- 12 'NA 0.1589 - 403.1 -A7 4- 5 1 2 0 0 8 46 6 +/- 21 NA - 0.1589 g 03.1- A7 5 .5 'l 2 0' 0 8 46 '6 +/- 21 NA 0.1589
- ty 23.1 A8 1- 5 1 5 0 0 8 -46 25+/-'30- -M -0.1589 -403.1 A8' 2 :5 1 0 0 0 8 46 -6 +/- 12 NA 0.1589 403.1 A8 '3 5 1 2 0 0 8 46 6 +/- 21 NA 0.1589 403.1 A8 4- 5 1 2 0 0 8 46 6.+/.21 NA 0.1589 403.1 A8 5 5: 1. 0 'O 0 8 46 -6+/- 12 NA 0.1589 r 403.1 ~ A9 1 14. 3- 3 0 0 8 72 0 +/- 32' NA 0.149 403.1 'A9 2 14 3 0 0 0 8 72 --20 +/- 23 M 0.149 403.11 A9 3 '14 3 2. 0 0 8 72 -7 +/- 29 NA .0.149 >
403.1 A9. 4 14 .3 1 0 0 '8 - 72. -13 +/- 26 NA 0.149 3 403.1.- A9 ' L5' 14. 3' 0 0- 0 8 72 .-20 +/- 23 NA 0.149 403.1 A10 - 1. 14 3 0 0 0 8 72 -20 +/ M 0.149 403.l' A10 2 14 3- 2 0 0 8 72 -7 +/ . 29 NA 0.149 403.1 A10 3 14 3 0 0 0 8 72 -20 +/- 23 NA 0.149 403.1 A10. 4 14 3 0 0 0 8 72 -20 +/- 23 NA -0.149 403.1 ~ A10 . 5. . 14 3 0 0 0 8 72. -20 +/- 23 M 0.149 403.1 All l' 14 3 0 0 0 8 72 -20 +/- 23 M 0.149 403.1: All 2 14 3 6 0 'O 8 72 20+/7 39 NA 0.149 403.1 All 3 14 3 0 0 0 8 72 -20 +/- 23 NA 0.149 403.11 All 4~ 14 3 2 0 0 8 72 -7 +/- 29 NA 0.149
.403.1 All 5 14 - 3 2 0 0 8 72 -7 +/- 29 NA 0.149 403.1 A12 : 1 14 3 0 0 0 8 72 -20+/-'23 NA 0.149 :
403.1- A12 .2 14- 3 3 0 0 8 72 0 +/- 32 M 0.149 403.1 Al2 3 14 3 2 0 0 8 72 -7 +/- 29 NA 0.149 403.1 A12 4 14 3 4 0 0 8 72 7 +/- 35 M 0.149 403.1 . A12 5 14 3 3 0 0- 8 72 0 +/ 32 NA '0.149 p3.1 81 i 14 3 5 0 0 8 72 13+/- 37 M .0.149
. V 03.1 81 2 14 3 4 0 0 8 72 7 +/- 35 M 0.149 403.1 81 3 14 3 2 0 0 8 72 -7 +/- 29 M 0.149 403.1 82 'l 14 3 3 0 0 8 72 0+/- 32 M 0.149 k 403.1 82 2 14 3 2 0 0 8 72 -7 +/- 29 H 0.149 403.1- 82 3 14 3 2 0 0 8 72 -7 +/- 29 M- 0.149 403.1; 82 4 14 3 1 0 0 8 72 r13 +/- 26 M 0.149 403.I' 82 5 14 3 3 0 0 8 72 0 +/- 32 NA 0.149 403.1 83 1 14 3 1 0 0 8 72 -13 +/* 26 M 0.149
- 403.1 83 2 14 3 3 0 0 8 72 0 +/- 32 NA 0.149 I
'403.1 83 3 14 3 2 0 0 8 72 -7 +/- 29 NA 0.149
- 403.1 83 4 14 3 3 0 0 8 72 0 +/- 32 M 0.149
_403.1- '83 5 14 3 2 0 0 8 72 -1 +/ M 0.149 - 403.1 84 l' 14 3- 1 0 0 8 72 -13 +/- 26 M 0.149 4 403.1 84 . 2
^
14 .3 1 0 0 8- 72 .-13+/-'26 NA 0.149 403.1 !! 14 3- 0 0 8 72 -20 +/ 23 NA 0.149 ; 403.1 84 4- 14 3 0 0 0 8 72 -20 +/- 23 M 0.149 j
'403.1 84 5 14 3 1 0 0 8 72 ~7 13 +/- 26 M 0.149 403.1 ~ 85 1 14 3L 2 0 -0' 8 72 -7 +/ HA 0.149 .)
403.1. 85 2 14 3 0 0 0 8 72 20 +/- 23 NA 0.149
?403.11 L 85 3 14 3- 1 0 0 8 72 '13+/-~26 NA 0.149 '403.1 85 -4 '14 '3 1 0 0 8 ' 72 -13 +/- 26 M 0.149 1403.1. 85 ? .
14 .- 3 2 ~ 0- 0- 8 : 72 -7 +/- 29 NA 0.149 1 403.1 ~ 86 U) . 14 3 1 0 0 8. 72 -13+/--26 NA 0.149 1
. '403.l' 86 2- 14 3 -2 0 0 8 72 -7 +/- 29 NA - 0.149 - ; .03.1, 86 -~ 3 . ' 14 ' 3 3 0~ 0 8 72 0+/- 32 M 0.149 :
g p3.1 : 86 4- 14 3 3 0: 0 8~ _72. ~0+/- 32 'N 0.149 403.1; 86- 5' 14 -3 1- 0 0 8' 72 -13 +/- 26 M 0.149~ 403.1 87 1 14 :-
. :3 1 --
0 0 8 72 -134/- 26 :M 0.149 + E403.lu l 87 - '2- 14 3 'O 0 0 8 72 : :-20 +/- 23 M- 0.149 ; 403.1-- 87 ' 3' " 114 3 6 0 'O '8 72 20 +/- 39 NA. :0.149
~
i403.I' 187 . 4~ 14- 3~ 12- 01 0 8- 72 _-7 +/- 29 H 0.149
.. . ~ , - . - - ~~ . . . - - . - -. - - -- . . - - - ;: d8tt.403.1-3l 4
9.'403.1 87 5 '14 3 3 ~0 0 8 72 0+/- 32 NA 0.149 i ~ 403.1, 88 1 ' 14 : 3 1 0 0 8- 72 -13+/- 26 NA 0.149
-7 +/- 29 jo3.1 88 2 14 31 2 0 0 8 72 NA 0.149
( 33.1,
. 88' l3- -14' 3- 0 0. 0 8 '72- -20+/- 23 NA 0.149 403.1- 88 4 '- 14 3. 2 0 'O 8 72 -7 +/- 29 NA 0.149 403.1 88 5' 3 '2- 0 0- -8 72 -7 +/- 29 NA 0.149 403.1 89 - 1 14 3 ~1- 0 0 8 72 -13 4/ .26 -
NA 0.149 403.1 89 - 2 14 3 3 0. 0 8 72 0 +/- 32 NA 0.149 . '403.1 89 3 14 3 0 0 0 8 72 -20 +/- 23 NA 0.149 403.1- ' 89 4 14 3 1 .0 0 8 72 -13+/- 26 NA 0.149
- s. "403.1 89 5 14 3 2 0 0 8- 72 -7 +/- 29 NA 0.149
.403.1 810 1 14 3 0 10 0 8 72 - -20+/- 23 NA 0.149 403.1 810 2- 14 3 2 0 _0 '8 72 -7 +/- 29 NA -0.149 403.1 810 ~3 14 3 2 0~ 0 8 72' -7 +/- 29 NA 0.149 403.1 810' :4 14 3 0 0 0 8 72 -20+/- 23 ' NA 0.149 403.1 '810. ,5 14 3 1 0 0 8 72 -13 +/- 26 NA 0.149 '403.1 811. I 14 3 8 0 0 .8 72 34+/- 44 NA 0.149 403.1 . 811 2 -14 3 4 0 0 8' 72 7 +/- 35 NA 0.149 -t+/-
403.1 811 - 3 '14 3 2 0 0 8 72 29 NA 0.149 ~! 403.1; 811 4 14 3 1 0 0 8 72 -13 +/- 26 NA 0.149 ,
-403.1 = 811 - " 5- 14 3 0 0 0 8 72 -20+/- 23 NA 0.149 403.11 812 1 14 3 1 0 0 8 72 -13 +/- 26 NA 0.149 403.1 812 - 12- 14 3 1 0 0 8 72 -13+/- 26 NA 0.149 403.1 812 3- _ 14 3 2 0 0 8 ' 72 . -7+/- 29 NA 0.149 403.1 812 4 14 3 2 0 0 8 72 -7 +/- 29 NA 0.149 403.1- 812 5- 14 3 2 ~0 0 8 72 -7+/- 29 NA 0.149 -
l O +' 4 J 11 l i l O i o i
CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT
'O The 403.2 survey unit was surveyed on an unaffected area basis.
30 measurement locations were placed approximately evenly spaced
'and/or at random dependent upon availability of surfaces. The location of these measurements is shown in the accompanying map.
The measur.ements-performed were as follows:- 3 Direct exposure rate Direct beta / gamma surface contamination Direct alpha' surface contamination Measurement and sampling results . for the 403.2 survey unit are provided in-3 attached tables as follows: Table 403.2-1 Ramp to Bldg.3 - Upper Railings gamma exposure rate data Table-403.2 Ramp to Bldg 3 - Upper Railings direct beta / gamma surface contamination data Table 403.2-3 Ramp to Bldg 3 - Upper Railings direct alpha surface contamination data
/~N (J
H l l i (D
- s,/ . SECTION 14
. l l
i
~ :N A_ SJRVEY
_ 33ER RAv3 R A::_IN GS _N::- LO3 2 i f is 30 I 2 Jf rr
//p.
g/ ll [
- /N A
,/ ? ) '/ /j/ f /,I /
Ji n
&Q m q Yr W'jI
$/ }, k'g/[/,//
,/
L _V ik6/96. eJGS131&B-
.j, dv CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT ,
( , AREA 403.2' Meas., Type: Gamma Exposure Direct Direct Rate (a) Beta (t) Alpha (b)
. Units uRem/hr dpm/ dpa/
100 cm2 100 cm2 MDA 2 408 52 Number of Meas: 30 30- 30 c========================. m==============- =-==_______==____ - - - - Survey. Unit Mean: 1.3 -301 20 IrueMean:Ualpha95%C.L.: 1.8 -241 30 Criterla 5- 1273 5000
- Acceptable Y/N Y Y Y
-==================_======---= -========_____. - ____=- - - - 4 =__m Max Ind. Result 5 137 90 Criteria 10 1273 5000- 1 Acceptable Y/N Y Y Y r====== ===============______._m-----=----m____=_==---=------
Max. Hot' Spot Scans NONE NONE NONE
- (affected areas only)
Criteria NA NA NA Acceptabic Y/N NA NA NA n=====================__._ss_s=s______ess ____======______.______.===== (a) With a mean site background of 6 uRem/hr subtracted (b)-Without subtraction of radioactivity due to natural radioactive material content i
- %/ '-
N --[FZ % l EhgTABLE'403.21'5 s CINilCHENDICOMMIS$10NINGPLANj 06/04/97 o, % ' FINAL SURVEY DATA SHEET
.;;0ATAFORUNAFFECTEDAREADESCRIPTION:
RAMP TO SUILDING 3. O!PPER RAILINGS ~ - AREA;403.2FORuR/WR .. ~
.RADIAiIONTYPE: GAMMA SURVEY IN UREM/HR -COMPLEil0N-7 . DATE: ll/25/96. ;iECHNICIANS:- 'JB. ~MATERIALCODE
- AREA: J 403.0- 1:CONCREit- - 5:PLASilC.
. UN!!: : 403.2 z 2: ROCK- '6:50!L-MEDIATYPE: METAL '3:W000 7:ASPHAli .8ofPOINTS: '. 30 4: METAL _8:0THER(SPECIFYi::
NO MATERIAL BACKGROUND USED-
' MICR0 REM - PER HOU%: LIMIT MAX: 5.00 PASS- 110 -AVG: 't.33 PASS 5 STD X: -1.56 'MU SUB ALPHA: 1.82 PASS 5 MATER-W . . . ' INST. AREA-. AREA IAL MET -10 I GRID POINf ID I BIG READING CODE _UREM/HR /"% - '
UREM/HRUREM/HR , , L) .. i 403.2 1 A- 6 6 8 0 403.2 2 A 6- 6 8 0
';403.2: 3 A' 6 7 8 1 -403.2 4 -A 6 8 8 2 '403.2: 5 A 6 6 8 0 '
403.2- 6 'A 6 10 8 4
'403.2. 7 'A 6- 8 8 2 ;403.2 .8 A 6 7 8 .1 1 -403.2 9 A 6 7- 8 1 '403.2 10 A 6 7 8 1
. .403,2 11 A 6 6 8 0
;403.2- 12 : A 6 6 8 0 .
,_ .403.2_ __13c A 8 8 2
'403.2-- A' 6- 6 8 0
- 403.2 15 : A 6 5 8- -l
" 1403.2' 16: A 6 6- 8 0
=403.2 .17 - -
A' -6' 6. 8. 0
- 403.21
- 18- lA 6' 5~ '8 -l
'403.24 : 19 - ~ A_ f6 8- 0.
i403.2: 520 A -6 6 8' 0' o .403,2. c 21, 1 A- '6- 8 '8- '2-403.2' .22 ; A 6- 8 8 2-403.2: ~ 23 ' A. -6' -10 8- 4
.2 j -
724; -f .A .6 '8- 8 2
.2: 2 25'- i A' 6 __ 9 8 .- 13 - .25 126 A'. 6; 11 ; :8 5 . ^ 403.2 27 ~~ A '- 6 8 8- .2 J403.2 ' 28 :. ?A' :6: ' -8: 8: 2 e403.2t ;. 29 ) (A: 16 - 10 84 4.-
u < 403.2.;
-7 30 : A'- <6^ 8 ^8- '2>
i tKCLE 403.2 22 f((V{l'A/"Jf C!NTICHEM DECOMM'S$10NING PLAN' 12/10/96-7 q ---.f!NAL SURVEY DATA SHEET y DATA FOR UNAFFECTED ARIA DESCRIPT10N: RAMP 10 BUILDING 3 - UPPER RAILINGS. AREA 403.2FORBETA RA0!All0NTYPE: 1: BETA SCALING FACTOR : 0.975 COMPLEi!0N? DATE: : 11/25/96 - TECHNICIANS:. 'JB - 'MATERIALC'DE 0 c JLOCATION: 403.0- -1: CONCRETE : 5: PLASTIC . - GRID.!D: 403.2- 2: ROCK '6:$0!L - MEDIAifPE:- METAL 3:N000 7: ASPHALT I of POINTS: . 30 4: METAL '8:0THER(SPEClfY): Ci IN MINUTES; l- NO MATERIAL BACKGROUND USED OPM/100CM'2-REM.+flXED: LIMIT MAX: 137 PASS. 1273 AVG: -301 PASS 1273 "SID X: 194 My SUB ALPHA -241 PASS . 1273 BETA BETA
'!NST. FIXED MATER- BETA INST GRID. INST. AREA ' COUNTS / BETA IAL MDA FIXED STAT Eff ID8 l 10 8 81G 1 FIXED .. CODE OPM/ DPM/ SIG?' CPM /DPM CPM MIN GCPM 100 CH'2 100 CM'2 ;
(O,4.2 1 1 .475 '396 396 8 408 -310 N 0.2615
'403.2 2 1 475 322 322 8 408 -600 N 0.2615 l 403.2 3 1 475 354 354 8 408 -475 N 0.2615 1 403.2 4 1 475 388 388 8 408 -341 N 0.2615 )
403.2= 5 1 475 370 370- 8 408 -412 N 0.2615 j 403.2 6 -1 475 422 422 8 408 208 N 0.2615 l 403.2- 7 1 475 392 392 8 408 -326 N 0.2615 l 403.2 8- 1 475- 364- 364 8 408 -435N 0.2615 403.2 9 1 475 342 342 8 408 -522N 0.2615 ,. '403.2 10 1 475 462 462 8 408 -51 N- 0.2615 ~ 403.2 11~ 1 475 384 384 8- .408 -357 N 0.2615 403.2 12 1 475 408 408 8 408 263 N 0.2615
=403.2' 13 : 1 475 350 350 8 408 -490 N 0.2615 403.2- 14 1 475- 428- 428 8 408 -104 N 0.2615 403.2 15 1~ 475 :336 336 .8 408 -545 N 0.2615 -403.2'
- 16 1 '475. 398 ~ 398 8 408 -302 N 0.2615 403.2 17 -1 '475 434 434 8' 408 -161 N 0.2615 403.2' 1 475 -332- 332 8 408 ~561 N 0.2615 403.2: 19 1 475 -402 ' 402 8 408 -286 N 0.2615-403.2 20 ~'l- .475: 416 416 8' ' 408 -231 N 0.2615 403.2 L 21' . 1 -- -475 ~ 396 396 8' 408. :-310 N 0.2615
- 403.2 .
- 22 : -1 475 440- 440 8 408 137 N 0.2615'
- 403.2 n 123 1 475 457. 457 8~ 408 -71 N 0.2615 i
'403.2 -24. 'I 475 - 318 - 318 8 408 4616 N 0.2615 l 'H .2. '17 1 25 .475 ~'4 58 ~ 458 '8- 408 -67 N 0.2615 1 .2 26' 1. 475- 456 i456. 8 408 -75 N 0.2615' .p .2! 27 - _1 475: 510 $10 8 408 . 137 N 0.2615
{ 1 403.2 28= 1 475 480 480- '8 408 20 N 0.2615
- 403.2~-
29 - 1 475L .374 374 :8 -408 -396 N 0.2615 403.2; '.30 :1-1475 -360' 360 8 408 -451 N 0.2615
-l . l
W H TA6;E 403.2 3. 1[/(/ (/ 7%
.CINilCNEMDECCMMISSIONINGPLAN 12/10/96 f!NAL SURVEf DATA SHEET
(~j '0ATA FOR V4Aff!CTED AREA DES (RIPTION. V RAMP 10 BUILDING 3 - UPPER RAILINGS ARIA 403.2 FOR ALPHA PADIATIONTYPE: 2 COMPLETION ~ DATE: 11/25/96 IECHNICIANS: J8 MATERIAL CODE LOCAi!0N: 403.0 1: CONCRETE -5: PLASTIC GRID ID: 403.2 2: ROCK 6:S0!L MIDIA TYPE: .MEIAL 3:N000 7: ASPHALT s of POINTS: 30 4: METAL 8:0THER(SPECIFY): Ci IN MINUTES: 1 NO MATERIAL 8ACKGROUND USED DPM/100CM'2 REN.+ FIXED: LIMIT MAX: 90 PASS 5000 AVG: 20 PASS 5000 SID X: 30 MU SUS ALPHA 30 PASS. 5000 ALPHA ALPHA INST. flXED -MATER- ALPHA INST GRIO INST. AREA COUNIS/ ALPHA IAL MDA FIXED STAT EFF [0 s i 10 t SKG .1 FIXE 0 - CODE OPM/ DPM/ $16 ? CPM /0PM CPM- MIN GCPM 100 CM'2 100 CM'2
]
C3.2 1 1 2 2 2 8 52 0N 0.1784 kd3.2 2 1 2 2 2- 8 52 0h 0.1784 l 403.2 3 1 2 0 0 8 52 -11 N 0.1784 l 403.2 4 1 2 0 0 8 52 -11 N 0.1784 403.2 5 1 2 10 10 8 52 45 N 0.1784 403.2 6 1 2 10 10 8 52 45 N 0.1784 , 403.2 7 1 2 2 2 8 52 0N 0,1784 403.2 8 1 2 10 10 8 52 45 N 0.1754 1 403.2 9 1 2 4 4 8 52 - 11 k 0.1764 'l 403.2 10 1 2 4 4 8 52 11 N 0.1784 403.2 !! ! 2 6 6 8 52 22 N 0.1784 1 403.2 !? 1 2 4 4 8 52 11 N 0.1784 403.2 13 1 2 0 0 8 52 -11 N 0.1784 403.2 14 1 2 2 2 8 52 0N 0.1784 403.2 15 1 2 4 4 8 52 11 N ).1784 403.2 16 1 2 2 2 8 52 0N 0,1784 403.2 17 1 2 4 4 8 52 11 N 0.1784 403.2 18 .I 2 -4 4 8 52 11 W 0.1784 403.2 19 . I 2 4 4 8 52 11 N 0.1784 403.2 20 1 2 2 2 8 52 '0N 0.1784-
-403,2. 21 1 2 8 .8 .8 52 34 N 0.1754 403.2 22 1 2 17 17 8~ 52 .84 Y 0.1784 403.2- 23 ! 2 16 16 8 52 78 Y 0.1784 403.2 24 - 1 2 2 2 8 52- 0N 0.1784 '403.2 25 1 2 18 18 8 52 90 Y 0.1784
. f'" 1. 2 ~ 26 1 2 0 0 8 52 -l!.N 0.1784 (,3. 2 - 1 27- 1 2 16' 16 8 52- 78 Y 0.1784 403.2 28 - 1 =2 10' 10 ~B $2 '5 N 0.1784 403.2 29 1 2- 2- 2 8 52 0N 0.1784 403.2. 30 1. 2- 4- 4 8 52 11 N 0.1784
i I I
'CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT ' The 403.3 survey unit was surveyed on an unaffected area basis.
30 measurement locations were placed approximately evenly spaced and/or at random dependent upon availability of surfaces. The location of these measurements is shown in the accompanying map. The measurements performed were as follows: Direct exposure rate 1 Direct beta / gamma surface contamination Direct alpha surface contamination Measurement and sampling 'results for the 403.3 survey unit are provided in.3 attached tables as follows: Table 403.3-1 Ramp to. Bids 3 - Lower Railings gamma exposure rate data Table 403.3-2 Ramp to Bldg 3 - Lower Railings direct beta / gamma surface contamination data Table 403.3-'3 Ramp to Bldg 3 - Lower Railings direct alpha surface contamination data
]
O i l l SECTION 14' l
7:: N A_ S_RVEY _ WER RAv3 RA::_:: NGS _N::- L03.3
/l ~~~
j p ~4
/ c a s j
f h/ f. Y WALKbA h g i
/
s
,,gg 1 /' . e / ,f"fs e ""*JrTllS#
- ( m-f- i g g 11/26/96 g DVGS/3129
- g ,
r3 CINTICHEN FINAL STATUS SURVEY PIAN AND REPORT gr t AREA 403.3
' Meas. Type: Gamma Exposure Direct Direct Rate (a) Beta (b) Alpha (b)
- Units- uPem/hr dpe/ dpm/-
100 cm2 100 cm2 ' MDA. 2 408 52 Number.of Meas: 30 30 30
==========================================================_____m.._____
Survey Unit Mean: 1.8 33 13
-True Mean U a1pha 95% C.L.: 2.0 119 23 Criteria 5 1273 5000 Acceptable Y/N Y Y Y c===================____-z--=-__m=======-----_--------.=====---
Max Ind. Result 4 459 135 O V Criteria 10 1273 5000 Acceptable Y/N Y Y Y c===========================--- ==========================u============ SMax. Hot Spot Scans NONE NONE NONE (affected areas only) Criteria NA NA NA
-Acceptable Y/N NA NA NA =========================---- ========______s=___s_____ --
_======= , (a) With a mean site background of'6 uRem/hr subtracted (b) Without subtraction of radioactivity due to natural radioactive material content e L . , -
~
MTABLE 403.51 [/f h "Mh CINTIChEM DECOMMIS$!0NING PLAN 12/10/16 FINAL SLRVEY DATA' SHEET c"N, . DATA FOR UNAFFECTED AREA CESCRIPTION:
\d RAMP 10 BUILDING 3 - LOWER RAILINGS AREA 403.3 FOR uR/kR RADIATION TYPE: GAMMASURVEYINUREM/HR COMPLEi!0N DAll: 11/25/96 ' TECHNICIANS: J8 MATERIALCODE AREA: 403.0' 1:CONCRITE 5: PLASTIC UNii: 403,3 2: ROCK 6:$0!L MEDIA TYPE: METAL 3: WOOD 7: ASPHALT I of POINTS: 30 4: METAL 8:0THER($PECIFT):
NO MATERIAL BACKGROUND USED MICR0PEM PERh0VR: LIMIT MAX: 4.00 PASS 10 AVG: 1.77 PASS 5 STO X: 0.68 MU SUB ALPHA: 1.98 PASS 5 MATER-INST. AREA AREA IAL NET ID I GRIDPOINT 10 t BKG REAblNG CODE UREM/HR
., UREM/HRVREM/HR
( ) N A .30 1 A 6 8 8 2
'403.30 2 A 6 8 8 2 403.30 3 A 6 7 8 1 403.30 4 A 6 8 8 2 403.30 5 A 6 8 8 2 403.30 6 A 6 7 8 1 '403.30 7 A 6 7 8 1 403.30 8 A 6 8 8 2 403.30 9 A 6 7 8 1 403.30 10 A 6 8 8 2 403.30 11 A 6 8 8 2 l
403.30 12 A 6 8 8 2
~403.30 13 A. 6 10 8 4 403.30 14 A 6 8 8 2 '403.30 15 A .6 8 8 2 -403,30 16 - .A 6 9 8 3 403.30; 17 A 6 7 8 1 403.30- 18 A 6 7 8 1 403.30 19 A 6 8 8 2-403.30- 20 ' A 6 3 8 2 403.30 '21 A- 6 6 8 2 403.30 22 .A 6 7 .8 1 403.30 23 A. 6 8 -8 2 403.30 24 A 6 8. 8 2-L25 A' 6. 7 8 1 i/'*)).30 .30 - 26 A 6 8 8 2 403.30 27 A- 6 8 8 2 403.30 28 A 6 7 8 1 '403.30 29 A. 6 8 8 2 403.30 30 - A~ 6 7 8 1
._ - . _ . _ _ . _ . _ . _ , _ . . _ _ . .~.
b . -hh__ _
' 1Ait!.403.r2 +
4 A
. Gin!;nieOlv.nl55in w. h w 'atl64ls'
[, ,l rlw khst 904 DEf t
' d ' bATA t u u M fteiE0 u EA A stklH f0s FA N 10 60iLOlh5 3 - t]sER RA hi Hs-As.EA 405.3 !0a. BE!A PCd Aflg4 Ms: 1 si!;. K I6 iAtif s ' Wi (0Ni E110ts DM Ei . Ill2blh .it.nlCIANS: Ji h:diEH Ai. CEE LOCATION: 40;.0 1:c0hCRDE 5:Ft A31K GfiID ID: 403.3' 2:ROCA- 6:50lt nEDIA TYPE: MiiAt 30000 7:A5PHA.I A of PO!nIS: 30 4: METAL 6:CirEA(LPECIh):
CI JN PDVIES: i fig MIECAL OM.M0th0 V5ED , CFM/10XM'I j REM.t fikED: LIMIT , MX: 459 FASS 1213 AG: 33 PASS 1273
; STD Ju 280 MJS08 MPs 119 FAss 1273 8(IA BEIA Ih5T. FIXED MIER- EETA !NSI GRIO-INSI. ARIA. COUhis/ 80A JAL MDA flXE0 STAT EFF 10 s t ID # hG 1 FDED CODE OPM/ DPn/ SIG ? CPn/CFM CFM MIN ;CPh 100 CM'2 100 CM'2 ,3
- w ) \
l 403.3 1 1 475 422 422 8 408 -208 N 0. 2t h j 403.3 2: 1 475 508 508 8 408 129 n 0.2615 l 403.3 3 1 475 402 402 6 406 -286 h 0.2615 ! 403.3 4 1 415 415 475 8 408 08 0.2615 j 403.3 5 475 446 496 8 40.i s2 h 0.2615 1
)
403.3 6 1 475 527 521 a 403 204 N 0.2tl5 1 403.3 ! ! 475 331 331 8 409 -$ts n 0.2615 403.3 8 1 475 431 431 8 405 -173 h 0.2tl5 40L3 1 475- 402 402 8 408 -286 N 0.2615 403,3 10 1 475 532 532 8 408 224 h 0.2615 403.3 11 1 475 441 441 8 408 -133 W 0Jo15 403.3 12 1 475 '566 556 s 408 357 N 0.2615
- 40L 3 14 1 475 514 514 5 408 153 N 0.2615 403.3 14 1 415 572 572 8 408 380 h 0.2615 1403.3. 15 1 475 522 522 E 40B 184 n 0,2615 403.3 16 i 475 548 543 8 408 28s N 0.2oli 40L3 17 1 475 475 475 8 408 08 0.2o15 1403.3 18 1 475 574 574 6 40d 358 h 0.h15 43 3' H '
475 iP 4% 6 Os !h a t , 2 :.o 403.3- N th 4d N c m +n 0. hi'i 41I- 21 1 4II h)2 )2 6 40b d6 't C,se.5 403.3- 22 1 415 332 342 5 405 -tet s 0.bli 1 403.3 ? 23 1. 4h N0 500 S' 4DJ 95 h 0.h!S 403.3 .F 415 448 446 ! 438 -106 N 0.26!5 [') 25. I 4!! 482 432 8 40>3 27 5 his tA h I th $?2 592 3 403 . 49 t 0.h15.
- OL 3 - 21 1 .413 564 584 5 sua - 428 Y Q, h15 40L 3 26 -1 475 3M- 59 6- 403 -337 h 0.2615
- 40L3 2i ~1 475 576 576- 8- 403 396 N 0.26!5
- 403 3- '3T 1 47$ '464 454 6 405 -43 s 0.h15
ir4KTABLE403.3-3' N(( h d / k CIWi! CHEM O!COMISS10NING PLAN 12/10/96 f!NAL SURVEY DATA ShEfi [V ] C.ATA FOR UNAr F i!D AREA DESCRIPil01: RAMP 10 BUILDING 5 - L0nER RAIL M S AMA 403.! FOR ALPHA RADIAi!0NTYPE: 2 00KPLEll0N DATE: 11/25/96 IECHNICIANS: JB MATERIAL CODI LOCAi!0N: 403.0 1: CONCRETE 5: PLASTIC GRID 10: 403.3 2: ROCK- O!0ll MEDIATYPE:. METAL 3:N000 7: ASPHALT 4 of POINIS: 30 .4: METAL 8:0THER(SPECIFY): CT IN MIN'JiES: 1 NO MATERIAL BACKGROUND USED OPM/100CM'2 FEM.+ flXED: LIMIT tiAX: 135 PASS 5000 7 AVG: 13 PASS 5000 STD X: 32
- MU SUB ALPHA 23 PASS 5000 s
' ALPHA ALPHA INST. FIXED MATER- ALPHA IhST GRIO INST. AREA COVNIS/ ALPHA IAL MDA FIXED STAT Eff 10 8 8 ID I 8KG' 1 FIXED CODE OPM/ DPM/ $1G ? CPM /0PM CPM MIN GCPM 100 CM'2 100 CM^2 3.3 1 1- 2 2 2 8 52 0N 0.1784 d3.3 2 1 2 5 5 8 52 17 N 0.1784 ,403.3 3 1 2 0 0 8 52 -11 N 0.1784 403.3 4 1 2 6 6 8 52 22 N 0.1784 403.3 5 1 2 4 4 8 52 11 N 0.1784 ~403.3 6 1 2 8 8 8 52 34 W 0.1784 403.3 7 1 2 4 4 8 52 11 N 0.1784 403.3 8 1 2 3 3 8 52 6N 0.1784 403.3 9 1 2 0 0 8 52 -11 N 0.1784 ,
403.3 10- 1 2 20 20 8 52 101 Y 0.1784 403.3 11 1 2 3 3 8 52 6N 0.1784
-403.3 12 1 2 10 10 8 52 45 N 0.1784 403.3 13 1 2 2 2 8 52 0N 0.1784 403.3 14 1 2 0 0 8 52 -11 N 0.1784 403.3 15 1. 2 26 26 8 52 135 Y 0.1784 '403.3 16 1 2 6 6 8 52 22 N 0.1784 403.3 17 1 2 0 0 8 52 -11 N 0.1784 403.3 18 1 2 4 4 8 52 11 N 0.1784 403.3 19- -1 2 6 6 8 52 22 N 0.1764 403.3 20' '1 2 4 4 S 52 !! N 0.1784 403,3 '21 1- 2 0 0 8 52 -11 N 0.1784 403.3 22 - 1 2 1 ! 8 52 -6 N 0.1784 403.3. 23 1 2- 2 2 8 52 0N 0.1784 403.3 - 24.- 1 2 0 0 8 52 -11 N 0.1784 403.3 25 1 2 2 2 8 52 0N 0.1784 7'*3.3 26 1 2 2 2 8 52 0N 0.1784 (J 3 = 27 1 2 2 2 8 52 O N- 0.1724 '403.3 28 1- 2. 2 2 8 52 0N 0.1784 403.3 29 1 2 4 4 8 52 11 N 0.1784 403.3- 30 1 2- 4. 4 8 52 11 N 0.1784
CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT I ) The'403.4 survey unit was surveyed on an unaffected area basis. 30-measurement locations were placed approximately evenly spaced and/or at ~ random dependent upon availability of surfaces. The location of these measurements is shown in the accompanying map. The measurements performed were as follows: Direct exposure rate Direct beta / gamma surface contamination Direct alpha surface contamination Measurement and sampling results for the 403.4 survey unit are provided in 3 attached tables as follows: Table 403.4-1 Stairs Between Mall / Upper Road - Handrails gamma exposure rate data Table'403.4-2 Stairs Between Mall /Uper Road - Handrails direct beta / gamma surface contamination data Table 403.4-3 Stairs Between Mall / Upper Road - Handrails direct alpha surface contamination data [)SECTION14
~_ .
j
~~ ,-
a n) \~.) \_; FINAL SURVEY STAIRS BETWEEN MALL AREA W/ HANDRAILS & UPPER ROAD UNITS 403.4 & 402.10 R
?
P O N [1 NDRTH \ ' M RAILING- -- UNIT 403.4 _ K
, v.
I
~
p. D C
'A 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 39 39 40 41 REV. 6/24/97B DVGS/3133
.I (3
qf CINTICHEM-FINAL STATUS SURVEY PLAN AND REPORT AREA 403.4 Meas. Type: Ga m Exposure Direct Direct Rate (a) Beta (b) Alpha (b)
' Units uRem/hr dps/ dpm/
100 cm2 100 cm2 MDA 2 414 18 Number of Meas: 30 30 30 v===========================_. ___=_______ == -----s- - Survey. Unit Mean: 2.8 -8 21 True Mean U alpha 95% C.L.: 3.2 32 27 Criteria 5 1273 5000 Acceptable Y/N Y Y Y c____===========__ss==========----~====_----- ==----- --- -- =__ Max Ind. Result 6 292- 52 O
\ / Criteria 10 1273 5000 -Acceptable Y/N Y Y Y c==========_===========_____.22====____2===_______.___==========_______ -Max. Hot Spot Scans NONE NONE NONE '(affected areas only)
Criteria NA NA NA Acceptable Y/N NA NA NA
-c==========================____===__ _.___s2====______=================
I 1 1 (a) With a mean site background of 6 uRem/hr subtracted (b) Without subtraction of radioactivity due to natural radioactive material content J r
! 1 Aj - 1 i
l c l [ .)
IVff TABLE '403.4-1
'{ff (/ ~ (f ~4l } f CINIICHEM CECOMMISSIONING PLAN 02/10/97 F! #L SURVEY DATA SHEE! ) CATA FOR 1.NAFFECTE0 AREA DESCRIPTION:
MANDRAILS BEikEEN MALL AREA AND VFFER ROAD AGEA403.4FORuR!bR-CADIATION TYPE: GAMMASURVEYINUREM/HR CCMPLETION' DATE: 12/03/% I!C.4NICIANS: LC/FM MATERIAL C00! AREA: 403.0 1: CONCRETE 5: PLASTIC UN!!: 403.4 2: ROCK 6:50!L
?.EDIATYPE: h000 3:W000 7: ASPHALT 8 of POINTS: 30 4: METAL 8:0iHER(SPECIFY):
NO MATERIAL 8ACKGROUND USED MICR0 AEM PER HOUR: t!MIT MAX: 6.00 PASS 10 AVG: 2.77 PASS 5 STD X: 1.45 MV SUB ALPHA: 3.22 PASS 5 MATER-INST. AREA- AREA IAL NET 10 t G8!D POINT 10 s BKG READING CODE UREM/HR (') V UREN/HRUREM/HR 403.4 1 A 6 10 8 4 403.4 ~ 2 A 6 9 8 3 403.4 3 A 6 9 8 3 403.4 4 A 6 9 8 3 403.4 5 A 6 9 8 3 403.4 6 A 6 7 3 1 403,4 7 A 6 8 8 2 403.4 8 A 6 9 0 3 403.4 9 A 6 10 8 4 403.4 10 A 6 6 E O 403.4 11 A 6 7 8 1 403.4 12 A 6 10 8 4 403.4 13 A 6 9 8 3 403.4 14 A 6 8 8 2 403.4 15 A 6 8 3 2 423.4 16 A 6 8 8 2 403.4 17 A 6 11 8 5 403,4 -18 A 6 10 8 4 403.4 19 A 6- 8 .S 2 403.4 20 A 6 9 E 3 403.4 21 A 6 10 8 4 4'3.4 22 A 6 9 S 3 403.'4 23 A 6 8 & 2
--jl,4 24 A 6 6 8 0 )3. 4 25 A 6 7 8 1 ) ~403.4 26 A 6 7 8 1 403.4 27 A 6 12 8 6 403.4 23 s A 6 11 - B 5 403.4 29 A 6 9- 8 3 403.4' '30 A 6 10 $ 4
9 fil(f (p -]-Q llh TABLE 403.4 2 Cl#TICHEM DEC0rMI5SICWIkC P'.As (2/10/47 fl6AL EURVEY DATA EHEET DATA FCR U uffECTED ASEA DESCRIPTICN: MANDRAILS EEinEEN MALL AREA AND UPPER ROAS AA!A 40!.4 FOR BET A CA0!Ai!0N TffE: 1 BETA SCALING fACIGR : 0 975 ConLETICM EATE: 12/03/96 TECHNICIANS: LC/fn MATERIAL COM LOCAi!0s: 403.0 1:00NCRETE 5:FLASTIC GRIO IN 403.4 -2: ROCK 6:50It MEDIA ff?E: h000 3:h000 7: ASPHALT I cf PO!his: 30 4: META; 8:0THER(SFECIFY): CiINMINVI!!: 1 NO MATERIAL BACKGE3VMS USED DPM/100Cf2 REM.+ f!xED: LIMIT MAX: 292 PASS 1273 AVG: -8 PASS 1273 ST0 X: 130 Mu SUB ALPFA 32 PASS 1273 EETA 6Et4 INST. FIXED MATER- BETA INST GRID IkST. AREA 00JNTS/ BETA IAL MDA FIXED STAT EFF 10 t 8 10 : EKG 1 FIXED CODE OPM/ DPM/ SIG ? CPM /DFM CFM MIN GCPM 100 CM^2 100 CM^2
~ J!.4 1 9 384 425 425 9 414 181 N 0.2322 403.4 2 9 384 332 362 6 414 -9 N 0.2322 403.4 3 9 364 361 361 8 414 -102 h 0.23:2 403.4 4 9 394 385 3B5 8 414 4h 0.2322 403.4 5 9 384 426 426 8 414 186 N 0.:322 403.4 6 9 384 365 365 B 414 -84 3 0.232:
403.4 7 9 384 363 363 8 414 -93 k 0.2322 4M.4 8 9 384 450 450 8 414 292 N 0.2322
; 403.4 9 9 384 371 371 8 414 -57 N 0.2322 403.4 10 9 384 364 364 6 414 -83 h 0.2322 403.4 11 9 384 414 414 8 414 133 N 0.2322 403.4 12 9 384 3tl 361 8 414 -102 N 0.2322 403.4 13 9 384 376 376 6 414 -35 N 0.2322 403.4 14 9 384 391 391 8 414 31 N 0.2322 403.4 15 9 384 330 380 8 414 -18 h 0.2322 403.4 16 9 384 422 422 8 414 168 k 0.232:
405.4 17 9 384 409 409 8 414 110 N 0.2322 403.4 18 9 384 341 341 8 414 -190 N 0.2322 403.4 19 9 3S4 400 400 3 414 71 N 0.:322 403.4 20 9 384 ??6 37t i 414 -3 5 ft 0.232: 4C'.4 ' 21 9 134 369 3tA 8 414 -t6 > :::: 4;L 4 22 9 334 33d !!6 3 414 -:!2 h 0.:!:2 403.4 23 9 354 401 401 - 414 75 N C.2322 403.4 24 9 384 434 404 8 414 E6 N 0.232: 4 3.4 25 ~0 334 331 !!! 6 414 -234 h 0.2322 3.4 :6 0 384 354 354 8 414 -133 N 0.2322 3.4 27 9 384 418 418 8 414 150 h C.23:2 403.4 28 9 334 36; 361 B 414 -102 h 0.2!?2 403.4 29 9 384 355 355 3 414 128 N C.2:22 403.4 30 9 384 375 375 8 414 -40 > 0.2322
'/N(f g ^f sfl-A n YAhE 40!.4-3 CINilCh[M (((CMM[$$lCN}NG PLAN 02/19/97 FINAL SURVEY DATA SrEEi 0ATA TO't U pffECTED AREA ;! SCRIP!I0F: ^
KA 6EAILS 2ETW!!N MALL 18EA A O VPPER ROA; 4A!A 403.4 FOR ALPrA ROIAi10N TYPE: 2 COMPLETION DAi!: 12/03/96 TECMICIAMS: LC/fM MTERIAL C3?! LOCATICN: 403.0 1:00KRETE 5:FLASTIC GRID ID: 403,4 2: ROCK 6:S01'. M!0IA fffE: h]OD 3: WOOD 7:A!PMALT 4 of POINT" 'O 4: METAL B:0inER(EFECIf f h CT IN MINVIES: 1 O MIERIAL EACfGROUND USED DPM/100CM"2 REM.+ FIXED: LIMIT MAX: 52 FASS 5000 AVG: ?! PASS 5000 STD X: 18 nu SUB ALPHA 27 FASS 5000 ALPnA ALPM INST. FIXE 0 MATER- ALPFA INST GRIO INST. APEA COUNIS/ ALPHA IAL MDA FIXED STAT Eff ID s 10 : BKG 1 FIXED CODE EPM / 0PM/ SIG ? CPM /0?M C PM. MIN GCPM 100 CM'2100 CM'2 s 1 uj3.4 1 9 0 0 0 8 18 0N 0.1539 403.4 2 9 0 4 4 8 18 26 Y 0.1539 403.4 3 9 0 2 ? 8 18 13 N 0.1539 403.4 4 9 0 5 5 8 IB 32 1 0.1539 403.4 5 9 0 6 6 8 18 39 Y 0.15:9 403.4 6 9 0 1 1 e IB 6h 0.1539 403.4 7 9 0 8 3 9 18 52 Y 0.1539 403.4 i 9 0 4 4 8 18 26 Y 0.1539 403.4 9 9 0 0 0 8 18 0N 0.1539 403.4 10 9 0 7 7 8 IB 45 Y 0.15!9 403.4 11 9 0 0 0 8 18 0 r. 0.1539 403.4 12 9 0 7 7 5 IS 45 Y 0.1539 403.4 13 9 0 3 3 8 18 19 Y 0.;539 403.4 14 9 0 1 ! 8 18 6h 0.1539 403.4 15 9 0 1 1 8 IS 6N 0.1539 403.4 16 9 0 0 0 8 IS 09 0.1539 403.4 17 9 0 0 0 8 12 0N 0.1539 403.4 13 9 0 3 3 S 1B 19 Y 0.1539 403.4 - 19 9 0 3 3 8 19 19 f 0.!529 40!,d 20 9 0 7 7 3 If 45 0.1534 a:3.4 21 9 0 2 2 6 i8 13 0.1537 402.J 22 9 0 t t i 15 31 1 0.1539 403.4 23 i 0 3 3 8 18 19 - :.1534 403.4 24 7 0 0 0 8 18 0s 0.1539 C3.4 25 9 0 0 0 S is .- G.1539 G3.440L 4 26 9 ? 5 3 E 15 5: 4
. 1539 27 9 0 1 1 3 13 6; 0.;539 403.4 2! -9 0 5 5 B IB 32 1 0.153c 403.4 29 9 0 4 4 5 18 2t Y 0.1539 403 4' 30 9 0 S S S IS 52 1 0.1539
l l 1
,CINTICHEM I'INAI,~. STATUS SURVEY PLAN AND REPORT -j ' The 403.5LsurveyLunit was: suryeyed on an: af fected. area basis and l has a surface: area. o f. 8'm. 43 direct . beta / alpha surface contamination measurement- locations were placed in this area using )
5-readings per Im by im grid. One reading was taken at the center ! of' the. grid and fourLeach at the midpoint between the center and- l the corners of . the' gridy. . 16 . gamma exposure rate . measurement - locat ions were. : placed -. in this area using a . Im by 1m grid. .I n addit f on. a 100% scan was' performed in. each im by
-The. location of these measurements is- shown in ~1m the-grid location.
accompanying map.- .. I Measurement and sampling results for the 403.5' survey unit are- ,
.provided in.3 attached tables as follows:
- Table 403.5 Wooden Stairs bylUpper Road - Bottom / Sides C gamma exposure rate' data Tab l e '4 03.'5 -2 Wooden Stairs by Upper Road - Bott;m/ Sides-direct.. beta / gamma' surface contamination data l
. l Table 403.5-3: Wooden Stairs by Upper Road - Bottom / Sides ,
direct alpha' surface contamination data O ! i 4. ' pj 4> J r
; - SECTION . '1,4 4
i l
~
1.* _ _ .-- _ , ., . _ _
7::\A_ S_RVEY v
~~
- S
- . J E S 8< 3 ~1 17 W~EJEN l S ~~ A:: R S 3 -_ WEEN VA__ AREA i
_ \ .. L O 3.5 I N B1 B2
/ / ./ D1 / // / C2 D3 B3 C1 -Al A2 C3 / / /
4
/-
g g REV. g?1/97A uS;/3153 -
.CI?frICIIEM FINAL STATUS SURVEY PLAN AND REPORT .
O AREA 403.5 C '- Meas. Type: Gamma Exposure Direct Direct
. Rt..i (a) Beta (b) Alpha (b)
Units uRem/hr dpm/ dps/ 100 cm2 100 cm2 MDA 2 380 18 Number of Meas: 16 43 43
==========================----- r-------- ====___________==------ --_-
Survey Unit Mean:: 1.5 45 5' True'Mean:U alpha 95% C.L.: 2.0 78 6
-Eriteria 5 1273 5000 Acceptable Y/N. Y Y Y ===========_____================ ===__ ----- -=-_____=---------- =====
Max Orid Block wt. Mean 4 375 25
,. Criteria 10 1273 5000 t .\_r !cceptable Y/N Y Y Y = - -- __= _____________s-== ____ - --=u ==---
Max. Hot Spot Scans NONE NONE NONE
-(affected areas only)
Criteria NA NA NA Acceptable Y/N MA NA NA
======================____=================================---------- = ,
t
'(c) With a mean site background of 6 uRem/hr subtracted (b) Without subtraction of radioactivity due to natural radioactive material content
- . .4 LO
1 IAEL!. 03. h
'Df!DD' 0!r.CMMIS!!0r!NG D.3 01/27/r q _ 'D L SuhEt DATA SrEti. ) 0ATA f 0F Mf E!D AGES 0!ERIP'!03:
40rD STAIES 8V OPPER RDA:. - 20110* AND SIDE! M EA 403.5 fCR usthf FOI A.!!0N ifPE: GAMMA $UFVEY' D U .EM/d CM0i.ifl04 5A!!: 12/23/96 TE%NICIh!, ft/PG PATER:A; C005 Ai!A: 403.0 1:00NCRETE 5: PLASTIC } LNIT: 403.5 2: ROCK 6:50It MEDIA itSE: 400D 3:h00D 7:ASPeiALT I of PathTS: 16 4: METAL 8:0THERl!;ECIFY): N0 fATERIAL EACKGROUNO USED MICR0 FEM P!9 HOUR: LIMIT MAX: 4.00 PASS 10 AVG: 1.$0 PASS 5 STD X: 1.03 MU SUB ALFrA: 1.95 PA:,5 5 MATER-INST. AREA AREA IAL hET .
"O i GRIO POINT 10 BKG FEADING C00E VREM/hR /') UREM/HR VREM/ fir L,/
403.5 Al A 6 7 6 1 403.5 A2 A 6 7 6 1 403.5 A3 A 6 6 6 2 403.5 A4 A 6 7 8 1 403.5 51 A 6 7 8 1 I 403 ! E2 A *. 7 8 1 l 403.5 !! A 6 6 5 0 , 403.5 B4 A- t 3 8 2 l 403.$ Cl A 6 9 8 3 1 l 403.5 C2 A 6 7 8 1 403.5 C3 A 6 10 2 4 403.5 04 A 6 7 8 1 403.5 01 A 6 7 E 1 ,
'403.5 02 A 6 7 8 1 l 403.5 D3 A 6 9 8 3 40!.5 04 A 6 7 8 1 1
m i
^
J/f(/"f(-v/7 . _KIETABLE403.5-2J CINTICHEMDECOMMIS$10NINGPLAN_ 01/27/97
-f m ' 'f!NAL SURVEY DATA $NEET I ):DATAFORAffECTEDARIADESCRIPTION:
- WOODEN STAIRS 8Y UPPER ROAD - 80liOM AND $1 DES
- AREA 403.5 FOR BETA AADIATION TIPE: 1 BETA SCALING FACTOR : 0.975' ;COMPLEi!0N<
DATE: 12/23/96- 1 TECHNICIANS: FM/PG' MATERIAL CODE ._ AREA: 403.0. 1:00NCRETE 5: PLASTIC UNii; ,- 403.5: .2: ROCK 6:80!L-
.MEDIATYPE: N000 -3:N000 7: ASPHALT 'l of POINTS: . 43 '4: METAL 8:0THER(SPECIff):
CiINMINUTES: 1 NO MATERIAL BACKGROUND USED DPlt/100CM*2-
'REN.+flXED: LIMIT-MAXFORINDGRID 3 h PASS 1273 AVG - SURVEY UNii 45 PASS .1273 STD X '126 , .MU SUB ALPHA ' 78 PASS l1273 MAX HOT SP01 NONE PASS 3818 NEIGHTED -BETA 8 ETA SCAN TOTAL . AVG. j GRID- INST FIXED . MAX CONT. MATER- BETA MAX C00RIDINATES INST. -AREACOUNTS/ BETA AREA- IAL MDA FIXED PER INSTEff.
10 i GRID ID LOCAi!0N 10 8' BKG 1 COUNTS CM"2 CODE -DPM/ DPM/ ' AVG 100 MAX CPM /DPM
/" CPM MINUTES 100 CM^2 100 CM^2 TEST CM'2 TEST M] 403.5 Al 1 12 389 400 0 0 8 380 44+/-221 NA 0.2551 -1 )
r 403.5 Al 2- .12 '389 397 0 0 8 380 32+/-221 NA 0,2551- i
--403.5 A2 - 'll 12 -389 357 0 0 8 380 -129+/-215 NA 0.2551 i '403.5 'A2 2 12 389 331 0 0 8 380 -233+/-211 NA 0.2551
- 403.5'- A3 1 12 389 347 0 0 8 380 -169+/-214 NA 0.2551 l
.403.5 A3 2 12 389 337 0 0 8 380 -209+/-212 NA. 0.2551 703.5 A4' f 12 '389 379 0 0 8 380 -40+/-218 NA 0.2551 403.5 A4 ' 2 12 389 381 0. 0 8- 380 -32+/-219 NA 0.2551 403.5 .81 1 13 348 362 0 0 3 364 57+/-213 NA 0.2519 403.5' 81' 2 13 348 394 0 0 8 364 187+/-217 NA 0.2519 403.5 82 1 13 348 365 0 0 8 364 69+/-213 NA 0.2519 403.5 82- 2 13 348 329 0 0 8 364 -77+/-208 NA 0.2519 403.5 83 1' 13 348' 365 0 0 8 364 69+/-213 NA 0-.2519 -403.5 B3 3 2- 13 348 344 0 0 8 364 -16+/-210 NA 0.2519 403.5 84 1 13 348 352 0 0 8 364 16+/-211' NA 0.2519 403.5 84' 2 13 .- 348- 372 0 0 8 364 98+/-214 NA 0.2519 403.5 : Cl 1 12- 389 439 0 0 8 380 201+/-227 NA 'O.2551 403.5' :Cl 2 12 389 444 L0 0 8 380- 221+/-227 NA 0.2551 "403.5' C1- 3 12 c389- 390- 0 0 8 300 4+/.220 NA 0.2551 403.5 C1; 4. 12 389 433 0 0 8 380 177+/-226 NA -0.2551 ;403.5 02. 1 ' 12 '389 426 0 0 8 380 i 1494/-225' NA 0.2551 l .403.5 :C21 ,2- 1 12' 389 . 375 0 0- 8 380 -56+/-218 NA- 0.2551 403.5 : C2 - 3 12 389 371 0 .0. 8 380 -72+/-217 NA 0.2551 .5 : C2- 4 12 389 379 0. 0 '8 380 -40+/-218 NA 0.2551 i .5 s C2 5 12 389 406 0 .0- 8 380 68+/-222 NA 0.2551 , .5 ; LC3 i! 12 . 389 409 0 ,0 8' 380.- 80+/-223. NA 0.2551 .l 403.5: ; C3" '2 12' 389- 367 0 0- .8 - 380 ~BS+/-217 - NA : .0.2551 ; '403.5- t 03 ' 3 2 12 _389 394 0 0- 8 380' :20t/-221- NA 0.2551- - w 403.5 K C3 ,4 12 389 370 .0 0~ 8~ 360- -76+/-217 NA 0.2551 1 l!; 403.5. C3 5 12: .389 383 0 0 8- -380 -24+/-219- NA 0.2551
'E8tE403.5-2 .403.5 -: C4 ~ l 12 -389 391 0 0 8 380 .8+/-220 NA' O.2551 403.5. C4 2' 12 389 384 0- 0 '8- 380 -20+/-219 NA =0.2551 ^
C4 - 3 ' 12 . 389- ~411 0' 0' 8' 380 88+/-223'- NA ~0.2551 i 1.5I.5; C 4 -- 4 12. -389' 394 0 0 8- 380 20+/-221' NA 0.2551' l 403.5- C4 5 .12 '389 429 0 .0 8. 380 ,161+/-225' NA 0.2551~ l 403.5 01 : 1 13 '348 381- 0- -0~ 6 364. 134+/-215 NA 0.2519-L403.5- 01 2 13 348 383- '0 -0 8 364 143+/-216 NA 0.2519 403.5 D2 1 13 348 398- :0 0' 8' 364 204+/-218 NA 0.2519 . 403.5 D2 2 13 348 395 0 0 8 364 191+/-216 NA 0.2519 .I 403.5 . D3 1 13 -348 -378 0: 0 8 '364 122+/-215 NA 0.2519 i 403.5 ' D3 '2- '13 348 .408 0 0- 8 364 244+/-219 NA 0.2519 : 403.5- 04 ' 1 :- 13. 348 440 0 0 8 364 375+/-224 NA - 0.2519 ,
-403.5 04 2 13 - 348 361 0 '0 8 364 53+/-212 NA 0.2519 )
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-EdiA8LE 403.5 31 CINi! CHEM DECOMMIS$10NING' PLAN : 01/27/97 r v . FINAL SURVEY DATA $NEET h , DATA FOR AFFECTED AREA DESCRIPTIONi B000Eli STAIRS Bf UPPER ROAD - BOTTOM AND $1 DES AREA 403.510RALPHA: 'RADIATIONTYPE: 2-COMPLEi!0N DATE: 12/23/96. , s
- TECHNICIANS: FM/PG MATERIAL CODE -
AREA: 403.0. 1: CONCRETE 5:PLASi!C , UN!i:' 403.5_ 2: ROCK 6:$0!L-MEDIATYPE:- N000' 3:N000 7: ASPHALT ~ 8ofPOINTS: - 43. 4: METAL 8:0THER(SPECIFY):
- CT IN t',1NUTES: 1 NO MATERIAL BACXGROUND USED
'DPM/100CM^2-REM.+ FIXED: LIMii MAX FOR INO GRID 25 PASS 5000 AVG ? SURVEY UN11-5 PASS 5000 STD X 5 ,
MU SUB ALPNA 6 PASS 5000 MAX HOT SPOT NONE PASS 15000 NEIGHTED ALPHA . ALPHA . SCAN TOTAL AVG. GRID INST. FIXED MAX CONT. MATER- ALPHA MAX C00RIDINATES INST. AREA COUNTS / ALPHA AREA IAL MDA FIXED PER INST EFF. ID 8- GRID ID LOCATION ID I BKG :1 COUNTS CM^2 CODE DPM/ ;DPM/ AVG 100 MAX CPM /DPM O CPM MINUTES 100 CM'2 100 CM'2 TEST CM'2 TEST ! b ] 1403.5 'Al 1 12 0 1 0- 0 8 17 6 +/ 12 NA 0.1619-403.5 Al 2 12 0 1 0 0 8 17 6+/- 12 NA 0.1619
- 403.5 A2 1 12 0 0 0- 0 8 17 0+/- 0 NA 0.1619 403.5 A2 :2 12 0- 0 0 0- 8 17 0+/- 0 NA 0.1619 )
403.5- A3 1 12 0 0 0 0 8 17 0+/- 0 NA 0.1619 j 403.5- A3- 2 12 0 4 0 0 8 17 25 +/- 24 NA 0.1619 403.5 A4 1 12 0 1 0 0 8 17 6+/- 12 NA 0.1619
-403.5 - A4 2 12 0 2 0 0 8 17 12 +/- 17 NA 0.1619 403.5 B1 1 13 0 1 0 0 8 18 7 +/- 13 NA 0.1475 403.5 B1 2 13 0 1- 0 0 8 18 7 +/- 13 NA 0.1475 403.5 .82 1 13 0 0 0 0 8 18 0+/- 0 NA 0.1475 403.5 B2 2 13 0 0 0 0 8 16 0+/- 0 NA 0.1475 l403.5 B3 1 13 0 1 0 0 8 18 7+/- 13 NA 0.1475 403.5- B3 2 13 0 1 0 0 8- 18 7+/- 13 NA 0.1475 403.5 84 :1 13 0 1 0 0 8 18 7+/- 13 NA 0.1475 i 403.5 B4 2 13 0 0 0 -0 8 18 -0+/- 0 NA 0.1475 !
403.5 Cl '1 12 '0 3 0 0 8 17' 19 +/- 21. NA 0.1619 !
.403.5 C1 2 12 0 1 0 0 8 17 6+/- 12 NA 0.1619 l 403.5L Cl .3 12 0 'O. 0 0 8 17 0+/- 0 'NA 0,1619 ! '403.5 Cl 4L '12- 0. 1 -0 0 8 17 6+/- 12 NA - 0.1619 l 403.5: C2 .1s 12 ' '0 2 0 0 8 17 '12 +/- 17 NA 0.1619 -
403.5' ~C2 , 2 12. 0 0- 0 0 8 17 0+/- 0 NA 0.1619 403.5: . C2 '3 12- OL 0 0 0 17 0+/- 0. NA 0.1619
.53 C2' 4 .12 0 l' 0:- 0 8 17 6+/- 12 NA 0.1619 , , .5 02 . 51 12 0 1 0 0 8 17 64/- 12 NA' O.1619 I .5- C3 If - 12 -0 0~. 0- 0 8 .17 0+/- 0 NA .0.1619 i 403.51 W C3 2; 12 '- 0~ 1- 0- 0 8 17- 6+/-=12 ' NA '0.1619 l ~ :403.5- C3 , 3 12 - .0 0 .0 0~ 8 17. 0 +/~ 0' ' NA 0.1619- l 1 403.5 : C3 24 12 0 0 0 0 '8 17- 0+/- 0 NA 0.1619 403.5i . C3 ( s 5 12 0' 0 0 0 '8- 17 0+/- 0 _ NA . 0.1619 i
CBLE403.5-3 403.5 ~ C4 1- 12 0- 1 0 0 8 17 6 +/- 12 NA 0.1619 403.5 C4 2 12. - 0 1 0 0 8 17 6+/- 12 NA 0.1619 /';5 C4 3 12 0 0 0 0 8 17 0 +/- 0 NA 0.1619 ( ,15 C4 4 12 0 1 0 0 8 17 6+/- 12 NA 0.1619 403.5 C4 5 12 0 1 0 0 8 17 6 +/- 12 NA 0.1619 403.5 01 1' 13 0 1 0 0 8 18 7+/- 13 NA 0.1475 0+/- 0 403.5 D1 2 13 0 0 0 0 8 18 NA 0.1475 403.5~ 02 'l 13 0 0 0 0 8 18 0+/- 0 NA 0.1475 403.5 D2 . 2 13 0 1 0 0 8 18 7+/- 13 NA 0.1475 403.5 D3 I 13 0 0 0 0 8 18 0+/- 0 NA 'O.1475 403.5 03 2 13 0 0 0 0 8 18 0 +/- 0 NA 0.1475 403.5 04- 1 13 0 0 0 0 8 18 0+/- 0 NA 0.1475 403.5 04 2 13 0 2 0 0 8 18 14+/- 19 NA 0.1475 r L)' 1 f~~) V
CINTICHEM FINAL STATUS SURVEY PLAN AND REPORT The;403.6_ survey unit was surveyed on an affected area-basis.
'13 direct beta /aipha surface contamination; measurement locations Twere placed in this. area using 5 readings.per im by im grid._ One '
reading'was.taken-at-the center of-the grid and four each at-the midpoint between the center and the corners of the grid. 3 gamma exposure rate measurement locations were placed_ in' this-area using a 1m by.tm grid. :In ' addi t ion. a 100% scan was ' performed in each im by im-grid location. _The. location of'these measurements is'shown
- in the accompanying map.
Measurement and sampling. results for t he - 403. 6 survey unit -are. provided ~in 3 attached tables as follows: Table 403.6-1 Handrails on Concrete Pads Below Bldg 3 ) gamma exposure rate data t Table 403.6-2 Handrails on Concrete Pads Below Bldg 3 direct beta / gamma surface contamination data - Table 1403.6-3 Handrails on' Concrete Pads Below Bldg 3 1 direct alpha surface contaminatior, data
+]
h i 6 4 < SECTION 14 a
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'CINTICHEM FINAL STATUS SURVEY PLAN AND-REPORT.-
- n ,
;l} - ' AREA _403,6 g
Mer.s. Type: '
'. Gamma ~
Exposure. . Direct ' . Direct Rate (a) Beta.(b)- Alpha'(b) uRem/hr- "-:dpm/-
- Units "'
dpm/- , 100 cm2. 100 cm2: r r i
.-0 MDA 2- 386. 18 .- -Number-of' Meas:: 3 13 13' c::a======================___s___s===========ss___._===--------s_...== - , . Survey Unit Mean: 2.0: '333- 36' .
t a. True,Mean U alpha'95% C.L.: 3.8 416 46 Criteria- 5- 1273 5000 ,
-Acceptable.Y/N Y Y Y ss=======_-========____======.===_-===-----=m----=-- - - - - - = - =========_== ' Max'Orid Block Wt'. Mean 3. 574 58 l 'riteria . .
10 1273 .5000- :, cceptable:Y/N Y Y Y ,
= sus ==============================------------- ss___==== ! ' Max. Hot Spot Scans ~. NONE NONE NONE (affected areas only) ~
Criteria' NA. NA- NA Acceptable Y/N.' NA . NA NA
=========================================================---- ========= -(c) With a"mean site background of 6 uRem/hr subtracted (b) Without subtraction of radioactivity due'to natural radioactive material-content' s
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! RATA 8tEl403',Q ,
m _56 s CINTICHEM DEconMISS10NING PLAN. :12/l(/96J
- N FINAL SURVEY DATA SHECj , l j llD^iA FOR AffECTED AREA. DESCRIPTION:' ~' " HANDRAIL DN CONCRETE PADS BELON'8tD 3 RAMP.-
LARIA403.6FORuR/HR: 1RADIAT10NTYPE: 7 GAMMA SURVEY IN UREM/HR'
- COMPLETION
- DATE:;12/16/96 ~
ifCHNICIANS: PG . / MATERIAL CODE-AREA:^ :403.0. .1: CONCRETE- 5: PLASTIC Unit: --403,65 : 2: ROCK ~ ~6:$0!L
- MEDIA' TYPE: ' ' METAL- 3;W000 -7: ASPHALT
- I of POINTS: '
L3- '4:METALK '8:0THERfSPECIFY): NO MATERIAL 8ACKGROVHD USED-MI'CR0 RE'M - PERHOUR: LIMli:
- MAX:- :3.00 PASS. 10
- AVG: .2.00 PASS' 5.
~STDX: 1.00 'MV'SU8 ALPHA: 3.76 PASS- .- 5 ' MATER-INST. AREA AREA- : IAL . . NET ID I GRIDPOINT- 10 11 8KG READING CODE UREM/HR-UREM/ER UREM/HR I403.'6' Al LA 6 9- 8 3 403.6 B1 A- 6- 7 8- ! , [403,6 C1 -A' 6 8 8 2 G
A in
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H IABLE 403.6-2 -fflf f-{(-Q CINiiCHEM DECOMMISSIONING PLAN 12/16/96 3 f!hAL SURVEY DATA SHEft j DATA FOR AffECTED ARIA DESCRIPI!ON: HANDRAIL ON CONCRETE PADS BELON BLD 3 RAMP ARTA 403.6 TOR BETA RADIAi!0NTYPE: 1 BETA SCALING FACTOR : 0.975 COMPLEll0N DATE: 12/16/96 IECHNICIANS: PG MATERIAL CODE AREA: 403.0 1: CONCRETE 5:PLASilC UNIT: 403.6 2: ROCK 6:50!L MEDIA TYPE: METAL 3:W00D 7:ASPHAli 8 of POINTS: 13 4: METAL 8:0TNER(SPECIFYl: CT IN MINUTES: 1 NO MATERIAL BACKGROV O USED DPM/100CM'2 REM.+flXED: LIMIT MAX FOR IND GR!D 574 PASS 1273 AVG - SURVEY tali 333 PASS 1273
-STD X 169 MU SU8 ALPNA 416 PASS 1273 MAX NOT SPOT NONE PASS 3818 NEIGHTED BETA BETA SCAN TOTAL AVG.
GRID INST. FIXED MAX CONT. MATER- BETA MAX C00RIDINATES INST. AREA COUNTS / BETA AREA IAL MDA FIXED PER INST Eff.
'D 8 GRID ID LOCATION ID 8 BKG 1 COUNTS CM"2 CODE DPM/ DPM/ AVG 100 MAX CPM /DPM ~ ') CPM MINUTES 100 CM'2 100 CM'2 TEST CM'2 TEST 403 6 A1 ! 9 331 337 0 0 8 386 27+/-224 NA 0.2322 403.6 Al 2 9 331 434 0 0 8 386 455+/-239 NA 0.2322 403.6 Al 3 9 331 387 0 0 8 386 247+/-232 NA 0.2322 403.6 81 1 9 331 361 0 0 8 386 133+/-228 NA 0.2322 403.6 81 2 9 331 433 0 0 8 386 451+/-239 NA 0.2322 403.6 81 3 9 331 385 0 0 8 386 239+/-232 NA 0.2322 403.6 81 4 9 331 395 0 0 8 386 283+/-233 NA 0.2322 403.6 81 5 9 331 419 0 0 8 386 389+/-237 NA 0.2322 403.6 C1 1 9 331 363 0 0 8 386 141+/-228 NA 0.2322 403.6 C1 2 9 331 448 0 0 8 386 587+/-242 NA 0.2322 403.6 C1 3 9 331 461 0 0 8 386 57' +/- 244 NA 0.2322 403.6 01 4 9 331 417 0 0 8 386 380 .f- 237 NA 0.2322 403.6 Cl 5 9 331 443 0 0 8 386 495+/-241 NA 0.2322 ,1
f.-fgp p.y _g" ' ' 4Eggyggg 4g3,4;3 7 : I 2.CINTICNEM DECOMMISSIONING PLAN .12/16/96'.- l f y .1 FINAL SURVEY DATA SHEff. L V DATA FOR_AFFECTED AREA DESCRIPi!0N':
~ ~ cHANDRA!L ON CONCRETE PADS BELOW BLO 3 RAMP - ARIA 403.6 FOR ALPHA-1RADIATIONTYPE: ;
1 COMPLETION. CATE: ~ 12/16/96- ,
) . TECHNICIANS: PG ' MATERIAL CODE. ' AREA: .403.0 1:00NCRETE 5:PLA$ilC-UNIT:- -403.6- 2: ROCK 6:50!L EMEDIATIPE:-- . METAL' 3:N000 7: ASPHALT '8 of POINIS: - 13 . 4: METAL 8:0THER(SPECIFYl: , CT IN MINUTEST-: -1 NO MATERIAL BACKGROUND USED DPM/100CM'2. . REM t FIXED: LIMIT.
tMAX FOR IND GRID 58 PASS 5000
- AVG - SURVEY Uh!T 36 PASS. 5000 STD X ; 20
' MU SU8 ALPHA 46 PASS 5000 ' MAX HOT SPOT NONE PASS 15000 ,
NEIGHTED ALPHA ALPHA SCAN TOTAL AVG. GRID. ' INST. FIXE 0/ MAX CONT. MATER- ALPNA MAX
.000RIDINATES. :lNST. AREA COUNTS / ALPHA AREA IAL MDA 'flXED PER . INST Eff. < !D I- GRID 10 LOCAi!0N.- 10 8 8KG 1-COUNTS' CM*2- CODE- :OPM/. DPM/- AVG 100 MAX CPM /0PM CPM' MINUTES 100 CM^2- 100 CM'2 TEST CM'2 TEST j 7
- 403.6 A1 1 9 0 0 0 8 18 0+/- 0 NA 0.1539
- 403.6 Al - 2. 9 0 9. 0 0 8 18 58 +/- 38 !!A 0.1539 403.6 Al 3 9 0 5 0 0- 8 18 32 +/- 28 NA 0.1539
'4034' B1 1- 9 0 1 0 0 8' 18 6+/- 13 NA 0.1539 403.6 81 9 0 8 0 0 8 18 52 +/- 36 NA 0.1539 403.6 81 3' 9 0 9 0. O. 8 18 58 +/- 38 NA 0.1539 .403.6 ~ 81 - 4 9 0 '4 0 0 8' 18 26 +/- 25 NA 0.1539 !403.6 81- 5 9 0 8 0 0 0 18 52 +/- 36 NA 0.1539 403.6 C1 l 9 0 1 0 0- 8 18 6 +/- 13 NA 0.1539 ~403.6 - Cl- 2 9 0 6 0 0 8 18 39 +/- 31 NA 0.1539 -403.6 .Cl- 3 -9 0- 8 0 0 8 18 52 +/- 36 NA 0.1539-403.6 C1 4 9 0 -7 0' -0 8 18 45 +/ 34 NA 0.1539 403.6 .Cl 5 9' 0 6 0 0 8 18 39 +/- 31 NA 0.1539 r
d ,:'
CINTICHEN FINAL STATUS SURVEY PLANL AND REPORT - W AI 1The 403~71 survey unit was-surveyed on.an. unaffected area basis. 30 ' measurement . locations were placed approximately evenly spaced
;and/or; atL ~ random; dependent upon availability of surf aces. 'The-
- location of these measurements is-shown-inEthe. accompanying map.
'The: measurements performed were as follows:
Direct exposure rate Direct. beta / gamma. surface contamination > L Direct.. alpha surface-contamination Measurement and; sampling results' for the 403.7 survey unit are
.provided in~3. attached tables as follows:
- Table 403.7-1 B-3 Metal Stairs - Handrails / Footings / Underside -
gamma exposure rate data Table 403.7 B-3 Metal Stairs - Handrails / Footings / Underside , direct beta / gamma surface. contamination data Table-403.7-3 B-3 Metal Stairs - Handrails / Footings / Underside-
' direct alpha surface contamination' data C:) i 1
I 1 l [)SECTION14
- N m e . -ms -___ _ _ _ _ _._i-< __m -__-..
FINAL SURVEY GRID MAP METAL STAIRS FROM BLDG, #3 RAILS.. SUPPORTS & CONCRETE PADS, UNAFFECTED
\, \aan UNIT 403.7 6
Qd \ .j A Ng N '
,/ '\1e$ '
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j / O UNT O 403.7 i'C O '
FINAL SURVEY GRID MAP METAL STAIRS FROM BLDG #3 UNDERSIDE STEPS, UNAFFECTED 1 UNIT 403.7 sh 5 !!,}
!!L .h $ll 24
\ TOP 30 gg 'N p? N p? 21 2: 26 N / \ N-29 u""
. r7 m m.
4/14 / 97 ..
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f~Y LCINTICHEM FINAL STATUS SURVEY. PLAN AND REPORT
},_)
. l AREA 403.7 i
- Meas. Type:- Gamma Exposure . Direct. Direct *
. Rate (a) Beta (b) Alpha'(b)
Units uRem/hr. dpm/. dpm/
-100 cm2 100 cm2 .MDA 2 429 46 i Number of Meas:- 30. 30 30 c======___=24===:======----==----=---- =---_ _ _ _ _ _ _ -- = __________===== -: Survey Unit Mean: 3.6 : 292 6 ,
True Mean:U alpha 95% C.L.: 4.4 390 8
- Criteria i 5- 1273 5000 Acceptable Y/N Y Y. Y-
==============================- -- __ __________ - - - - - - = - - - ---
Max-Ind.-Result: 10 768. - 31. O M riteria C 10 1273 5000 Acceptable Y/N Y Y Y o===============================___================_________s==========
~ Max. Hot Spot Scans NONE NONE NONE -(affected areas only)
Criteria NA NA NA _ Acceptable Y/N- NA NA NA
================================--- ==============mmm____==============
- .(a) with a mean site background of 6 uRem/hr subtracted
..(b)'Without. subtraction of radioactivity due to natural ^
radioactive material content i. sI "N , .
;;>; X.f > , :
e i +-
;flifiABLE 403.7 1- ,
f h-h f
*" C!NTICHEM DECOMMIS$10NING PLAN 04/14/97? l f!NAL' SURVEY DATA SHEET' - .r(f g -DATA FOR UNAFFECTED AREA DESCRIPTION:
BLDG 3METALSTAIRNAYHANDRAILS/f00ilNGS/UNDER$1DESTEPS- ' t AREA'403.7FORuR/HR . 8A01Ai!0N1YPE: GAMMASURVEY!NUREN/HR ; COMPLEi10N' DATE:04/08/97'
. TECHNICIANS:. DT~ MATERIALCODE AREA: 403.0' '1: CONCRETE 5: PLASTIC .UN!i: .403.7: 2: ROCK 6:$0ll-LMEDIA TYPE:- METAL- 3:N000 7:ASPHAli .-l of POINIS: 30 4: METAL 8:0THER(SPEClfY): - NO MATERIAL BACKGROUND USED , .n ,
MICR0 REM- ;
' PER HOUR: LIMIT MAX: 10.00 PASS 10 -AVG: '3.57 PASS '5 STD'X: 2.62 MU SUB ALPHA: 4.38 Pass 5 .. -MATER-INST. AREA AREA- .lAL NET 101 GRID POINI- ID I BKG READING CODE UREM/HR i , -UREM/HRUREM/HR '403.7 i A 6 4 8 -2 L '403.7. 2 A 6 8 8 2 1 403.7- 3 A 6 6 8 0 ]
403.7 4 4 6~ 8 8 2 l 403.7'- 5 A' 6 6 8 0 403.7~ 6' A 6: 6 8 0 l 403.7 7 A .6 .7 8- 1 ! 403.7 8 A 6 7 8 1 j
'403.7 9 A. 6 8 8 2 1 403.7 10 'A 6 7- 8 1
- 403.7 11 A 6 10 8 4 7403.7 12 A ~6 10 8 4 403.7- 13 A- 6 10 8 4 403.7 14 A 6 11 8 5 j 403.7' 15 - A- 6 12 8 6 j 403.? 16 - A 6 12 8 6
'403.7: ~ 17 L A 6, 15 8 9 !403.7 . 18 A- 6' . 12 8 6 403.7" 19 ' A. 6- 10 .8. 4 .403.7, 20 A 6 ' 10 -8' '4 -]
403.7 21 T A 6 11 8 5-1403.7 ~ ~22. < - A =6- 9 '8 3
'403.7 .A' .16 -- .9 8 -3 ! ~
3.7- ~A' 24 6 10 '8 4 ! 3.7 25. A 6- 12 8 6- l 03,7 ! 26 . ;A '6' 16 - -8 10 )
'403.7 . 27 - A- ~11 l8 5 I 1
403.7 - 28 - ~A' 16 "10: ~8- 4 403.7 . 29 - 'A' ;6 10' 4 8 4- I
'403.7-- -30' Aj , >6- ' 10 - 8- 4 l
KETABLE .403.7-2 . E CINilCNEM DECOMMIS$10NING PLAN -04/14/17 ; Al .f!NAL SURVEY DATA SHEET-i f ' DATA FOR UNAFFECTED AREA DESCRIPi!0N: . . 8tDG3METALSTAIRNATHANDRAILS/f00ilNGS/UNDERSIDESTEPS
. AREA 403.7.FOR BETA-PADIATIONifPE: != BEIA SCALING FACTOR : 0.975 COMPLEi10N -DATE:. 04/08/97.
l'ECHhlCIANS: . DT MATERIALCODE
, LOCATION: 403.0- 1:CONCREIE 5:PLA$ilC ' GRID 10: '403.7- 2: ROCK 6:$0!L' MEDIATYPE:. METAL 3:N000 7: ASPHALT.
8 of POINT 5: 130 4: METAL 8:0THER(SPEClff): Ci IN MINUTES: 1 NO MATERIAL BACKGROUND USED DPM/100CM'2-REM.+ flXED: LIMIT
. MAX: 768 PASS 1273 1'
AVG: 292 PASS 1273 STD X: 316-MU SUB ALPNA 390 PASS 1273 8 ETA BETA INST. FIXED MATER- BETA INSi
-GRID'!NSI. AREA COUNIS/ BETA lAL MDA flXED STAT Eff ID 8 8 ID 8 8KG 1 flXED CODE DPM/ DPM/ SIG ? CPM /DPM CPM. MIN GCPM' '100 CM'2 100 CM'2 03.7' ! 12 489 520 520 8 429 126 N 0.2523 '403.7- 2 12 489 678 678 8 429 768 Y 0.2523 403.7 3 12 489 630 630 8 429 573Y 0.2523 403.7 4 12 489 531 531 8 429 171 N 0.2523 403.7 5 12 489 407 407 8 429 -333 M 0.2523 403.7 6- 12 489. 449 449 8 429 -163 N 0.2523 403.7. 7 12 4C9 555- $55 , 429 268 N 0.2523
- 403.7 8 12 489 607 607 8 429 480 Y 0.2523 403.7 9 12 489 485 '485 8 429 -16 N 0.2523 403.7 to 12 489 532- 532 8 429 175 N 0.2523 403.7 11 12 489 459 459 8 429 -122 N 0.2523
- 403.7 12 12 489- 614 614 8 429 508 Y 0.2523 403.7 13 12 489 640 640 8 429 614 Y 0.2523 403.7 14 12 489 575 575 8 429 350 N 0.2523
'403.7 15 12 489 . 360- 360 8 429 -524 N 0.2523 403.7 16 12 489 511 511 8 429 89 N 0.2523 .403.7 17 . 12 489 668 668 8' 429 728 Y 0.2523 403.7; 18 -12 489- 626 626 8 429 557Y 0.2523~
403.7. '19 12 489 545 545 .8 429 228 N 0.2523
.403.7 20- 12 489- 562- 562 8 429 297 N 0.2523' '403.7.- 21 '- 489. 524- 524 8 429 142 N 0.2523
- 403.7 - >22 12 '489 .532 532. 8' 429 175 N '0.2523 403.7~ 23 ~- 12 . 489 526 526 8. 429 150 N 0.2523 403.7- .24 12 489 626 626 8 429 557 Y 0.2523
- ,2 403.7c :25' .12 489. 1618 618 8 429- 524Y 0,2523
,'3.7i 26 .12 ' 489 :592 592- 8 429 419 N 0.2523 ;(,~ 403.7 27 12 489 L674 674 8 429 752 Y 0.2523' - 403.7 - 28 12c 489 '635 635 8. '429 594 Y 0.2523 6403.7' 29- 12 489' 556 556 8 429 272 N 0.2523 L403.7 '30 ' 12. - 489. 590. 590 8- 429 All N ' O.2523 4
t
.- .~ . . , , - _ _ . , .-4 - . __ _ _ _ _ . - . . _ _ _ 'btfETABLE40.73?' .g -
[CI'NTICHEMD(COMMISSIONINGPLANL 04/14/97 [,/ I (FINAL SURVEY DATA !HEEli _ _ - if f 0ATA FOR UNAFFECTED AREA DESCRIPTION: .
< !6LDG3METALSTAIRWAYHANDRAILS/F00i!NGS/UNDERSIDESTEPS l AREA'403.7FORALPHA" iRADIAi!0NTYPE: -2 > , , , 1 COMPLETION (DATE: 04/08/97'
.' TECHNICIANS: JDiv ~ MATERIAL CODE-
- LOCA110N: :403.0' 1: CONCRETE 5: PLASTIC .t GRID..!D: (403.7 2: ROCK 6:$0!L1 1MEDIATYPE: 1 METAL 3:N000 7:ASPHAli.
Et of POINIS: 230 4: METAL-- 8:0iHER(SPECIFY): '
!CiINMINUTES: 1- NOMATERIALBACKGROUNDUSED ,DPM/100CM*2-REM.+ FIXED: :LIMii l MAX: 31 PASS- 5000 AVG: 6 PASS. 5000 ,. . 1STDX: -9 MUSUBALPHA 8 PASS. 5000 1 .
ALPHA ALPHA ~ INST. FIXED ~ MATER- ' ALPHA INST j GRIDilNST.. AREA COUNTS / ALPHA . IAL. MDA: FIXED STAT EFF LID I 8' 'l08 8KG 1 FIXED = CODE DPM/ DPM/ . SIG ? CPM /DPM-CPM MIN. GCPM 100 CM'2 100 CM^2 M h403.7 l< 12- 1 -3 31 '8 46 12 N 0.1609
,403.7' '2 12 .~ .l. 2 2. 8 46 6N 0.1609 =403.7. .3 -12 1 l' l- 8 46 - 0N 0.1609
- 403.7; 4 12 - -1_ '2_ 2 8 46 6N 0.1609 ,
~403.7 '5 12 ' l' 2. 2~ .8 46 6N 0.1609 :
403.7 6 12 1 4 4 8 46 19 N 0.1609 1403.7- 71 12 1 '. 0 0- 8 46 -6 N 0.1609
-403.7 8 12 . 1- 3 3 '8 46 12 N 0.1609 403.7 9 12 1- 2 2- 8 46 6N 0.1609 ~403.7 10 12 1. 'l 1 8 46 0N -0.1609 j 403.7; 11 12 I 6 6 8' 46 31 N 0.1609 ;
403.7 ' 12 12 1 1 1 8 46 0N -0.1609 I
.403.7- 13. 12 1. I 1 '8 46 0h 0.1609 '403.7 14 : 12 . ~l ~ 2' 2 8 -46 6N 0.1609 1 403.7.; 15 - '12 '1- 1- I' :8 46 0N 0.1609 .; ' 403.7 : : 16 12 1 .2 '2 '8 46 6N 0.1609 ;
L403.7L ' 17 ' " 12 ' ;2- 2 8 46 6N- 0.1609 l 1403.7 .10 > 12 - I -2 2 .8 ' 46 ' 6N 0.1609 l 2403.7; :19 12 - :l' 2 2 8 ~ 46. 6N 0.1609
;403.7; 20' 12 -1 ' 0L 0- 8' 46 6N 0.1609 403.7 L214 12? il .4 .4 8 46 - 19 N 0.1609. i f403.7' V22: J12+ 17 ;2 i 2" '8' 46 ,.6N 0.{609 -1 ;403.7- 123 12 1:~ :Or >0- 8 '46 - -6 N 0.1609 ~403.7? 24 - 122 :1. :2 _ -2; 8 '46 6' N z 0.1609 95;4403.7 3 :254 ' 12 - : li .21 2: 8- 46 - 6.N - 0.1609' :!
M '03.72 -26; 12 l l- ;0; 0; 8 -46 -6 N 0.1609 - ) M 1: '0. 8- .46 -6 N - 0.1609 403.1- f 27 l12l [07 I L403.73 9F -12, 11. ' 4 ' 4 .- L8 .46 - 19 N 0.1609 t403171 '4 '12 '2h '8-
- 11. 2L 46 6N 0.1609 l403.7c ? 30 1 12 1 L1E 2 ,21 l8l 46 -- - 6Nr 0.1609.
I.
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