Text

Semiannual Radiological Effluent Release Rept,Jul-Dec 1987
	ML20147C566
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Site:	Fermi
Issue date:	12/31/1987
From:	; DETROIT EDISON CO.
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SEYI-ANNUAL RADIOLOGICAL EFFLUEXT RELEAS3 REPORT u

JULY 1,1987 to DECEMBER 31, 1987 j

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Prepared by:

Radiological Engineering Group 0803030108 880220 PDR ADOCK05000341 DCD i

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i DETROIT. EDISON COMPANY FERMI-2 NUCLEAtt POWER PLANT OPERATING LICENSE NO. NPF - 43 SEMIANNUAL RADIOACTIVE EFFLUENT RELEASE REPORT for the period of July 1,1987 through December 31,1987 I,

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Effluent R:l:aso R:p: rt

- Fcbruary 1988 Page 2 TABLE OF CONTENTS Page 3

1.

Introduction 4

2.

Regulatory Limits 5

3 Maximum Permissible Concentration 5

4 Average Energy 6

5.

Measurements and Approximations of Total Activity 9

6.

Batch Releases 9

7.

Abnormal Releases 10 8.

Batch Release Data 11 9.

Liquid Effluent Summary 13 10.

Gaseous Effluent Summary 15 11.

Solid Waste and Irradiated Fuel Shipments 22 12.

Radiological impact on Man 26 13.

Meteorological Data 97 14.

Changes to the Process Control Proy.am (PCP) 101 15.

Changes to tiie Offsite Dose Calculation Manual (ODCM) 122 16.

40CFR100 Total Dose Analysis 123 17.

Dose to Visitors 123 18.

Radiation instrumentation t

Effluent R: lease R:p3rt FC.bruary 1988 Page 3 1.

INTRODUCTION Fermi 2 is designed and operated to strictly control the release of radioactive affluents to the environment in accordance with Nuclear Regulatory Commission (NRC) regulations.

This Semlannual Radioactive Effluent Release Report provides the following information:

1.

Summation of the quantities of radioactive material (in the form of gases and liquids) released from the plant 2.

Summation of the quantitles of radioactive material contained in solid waste packaged and shipped for off-site disposal at federally approved sites 3.

Chant,es to the Process Control Program (PCP) 4.

Changes to the Offsite Dose Calculation Manual (ODCM)

During the reporting year, the total gaseous and liquid effluent releases and resulting potential dose to the public were maintained As Low As Reasonably Achievable (ALARA). A silmmary of radioactive effluents released and potential dose in comparison to NRC limits are shown below:

NRC Limits Fermi 2 Potential Dose Gaseous Effluents Noble gases (Unrestricted Area)

$ 10 mrad gamma / year 0.00 mrad gamma / year i 20 mrad bets / year 0.00 mrad beia/ycar Dose to an individual from I-131,133, Tritium, and Particulates

$,15 mram/yr - Any Organ 0.00 mrem /yr - Any Organ l

Liquid Effluents S 3 rr. rem /yr - Total Body 0.00148 mrom/yr - Total Body 510 mram/yr - Any organ 0.00388 mrem /yr - GI-LLI This report contains the pertinent data in support of the above summation.

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Efflu:nt Release Rep:;rt F bruary 1988 Paga 4 2.

REGULATORY LIMITS A.

Gaseous Effluents 1.

Dose rate due to radioactive materials released in gaseous effluents from the site to areas at and beyond the site boundary shall be limited to the following:

a.

Noble gases Less than or equal to 500 mrom/ year to the total body Less than or equal to 3000 mrom/ year to the skin b.

lodine 131,133. Tritium, and for all radionuclides in particulate form with half-lives greater than 8 days Less than or equal to 1500 mrom/ year to any organ 2.

Air dose due to noble gases released in gaseous effluents, from each reactor unit, to areas at and beyond the site boundary shall be limited to the following:

a.

Less than or equal to 5 mrads for gamma radiation Less than or equal to 10 mrads for beta radiation

- During any calendar quarter b.

Less than or equal to 10 mrads for gamma radiation Less than or equal to 20 mrads for beta radiation 6

- During any calendar year 3.

Dose to a member of the public from lodine - 131,133, Tritium, and all radionuclides in particulate form with half-lives greater than 8 days in gaseous effluents released, from each reactor unit, to areas at and beyond the site boundary sh&ll be limited to the following:

a.

Less than or equal to 7.5 mrams to any organ

- During any calendar quarter b.

Less than or equal to 15 mrems to any organ

- During any calendar year B.

Liquid Effluents 1.

The concentration of radioactive materia: released in liquid effluents to unrestricted areas shall be limited to the concentrations specified in Title 10 of the Code of Federal Regulations Part 20 (Standards for Protection Against FLdiation), Appendix B. Table 11, Column 2 for radionuclides other than dissolved or entrained noble gases. For diss

.the concentration shall be limited to 2 X 10-gived or entrained noble gases,

(.0002) microcuries/mi total activity.

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Effluent Rel:sse R:p:::rt i

F bruary 1098 i

P:ge 5 i

2.

The dose oc dose commitment to a membo of the public from radioactive materials in liquid effluents released, from each reactor unit, to unrestricted areas shall 'us limited:

a.

Less than or equal to 1.5 mrom to the total body Less than or equal to 5 mrom to any organ

- During any calendar quarter b.

Less than or equal to 3 mrom to the total body less than or equal to 10 mrom to any organ

- During any calendar year 3.

MAXIMUM PERMISSIBLE CONCENTRATION A.

Liquids 1.

The maximum permissible concentrations (MPC) for liquids are those listed in 10CFR20, Appendix B, Table ll, Column 2, with the most restrictive MPC b used in all cases. For dissolved and entrained gases the MPC of 2 x 10-ging microcuries/mi is opplied. This MPC is based on Xo-135 MPC in air (submersion dose) converted to an equivalent concentration in water as discussed in the international Commission on Radiological Protection (ICRP)

Publication 2.

B.

Gaseous 1.

The sampling anil p% sis required by the Fermi-2 Technical Specification is used to evaluate the rate at which radioactive material is released. The approved Offsite Dose Calculation Manual (ODCM) provides the calculational methodologies to determine the maximum permissible dose rate.

2.

The maximum permissible dose rates for gaseous releases are defined in plant Technical Specifications.

a.

Technical Specification 3.11.2.1.s (Dose rate at site boundary from gaseous effluents in the form o! noble gases):

- Less than or equal to 500 mrem /yaar to total body

- Less than or equal to 3000 mrom/ year to skin b.

Technical Specification 3.11.2.1.b (lodine - 131.133. Tritium, and particulates with half-lives greater than 8 days):

- Less than of equal to 1500 mrem /yr to any organ 4.

AVERAGE ENERGY The Fermi 2 Technical Specifications ilmit the release rates for fiolon and activation gasos to less than or equal to 500 mrem /yr to the total body and los*: than or equal to 3000 mrem /yr to the skin. Therefore, the average beta and gamma energies (E) for gaseous effluents as describedJn Regulatory Guide 1.21 "Measuring, Evaluating and i

Reporting Radioactivity in Solid V. 'stes and Releases of Radioactive Materials in Liquid

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Efflu:nt R: lease Rep::rt February 1988 -

Page 6 and Gaseous Effluents from Light-Water-Cooled Nuclear Power Plants

are not applicable.

5.

MEASUREMIENTS AND APPROXIMATIONS OF TOTAL ACTIVITY A.

Gaseous Effluents 1.

-Fission and Activation Gases a.

Samples are obtained from each of the seven plant effluent radiation monitors, which monitor the six ventilation exhaust points. The fission and activation gases are qua.ntified by gamma spectroscopy analysis.

Those radionuclides that are quantified for dose calculations due to fission and activation gases are typical of the following:

Kr-87 Kr-88 Xe-133 Xe-133m Xe-135 Xe-138 The value reported is the sum of all fission and actisstion gases quantified at all monitored release points.

Considering the random nature of radioactive decay and the inherent variability in radiation measurement along with sample v 71ume, flow rate, and pressure mtasurements, the total fission and activatl3n gases measurement of uncertainties may be :ess than 7.4 percent low and 50.3 percent high.

1 Radiolodines 0.

Samples are obtained from each of the seven plant effluent radiation monitors, which monitor the six ventilation exhaust points. The rsdiolodines are entrained on a charcoal media, then quantified by gamma spectroscopy analysis. For each sample, the duration of sampling and continuous flow rate through the media are used in determining the concentration. In each case the flow rate of the ventilation system is known such that a rate of release can be determined. The radiolodines that are quantified for dose calculations are typical of the following:

1-131

!-133 1-135 The value reported is the sum of all radiolodines quantified at all monitored release points.

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Effluent Release Repsrt February 1988 Page 7 3.

Particulates a.

Samples are obtained from each of the seven plant effluent radiation monitors, which monitor the six ventilation exhaust points. The particulates are collected on a filter media, then quantified by gamma spectroscopy analysis. For each sample, the duration of sampling and continuous flow rate through the filter are used in determining the concentration, in each case the flow rate of the ventilation system is known such that a rate of release can be determined. The particulates that are quantified for dose calculations are typical of the following:

Mn-54 Fe-59 Co-58 Co-60 Zn-65 Mo-99 Cs-134 Cs-137 Co-141 Co-144 (Also other quantlfled radlonuclides with half-lives greater than 8 day A composite of the filters obtained from each ventilation release point are analyzed monthly for gross alpha radioactivity, by proportional counting.

Quarterly, the filters are radiochemically seperated and analyzed for Strontium (Sr) 89/90 by gas proportional counting. If quantified, these totals are reported as total particulate activity.

The value reported is the sum of all particulate quantified at all monitored release points.

Considering the random natu t, of radioactive decay and the inherer.

variability in radiation measureraant along with sample volume, dee rate, and pressure measurements, tho tal radiolodine and particult.n measurement of uncertainties may be less than 22.9 percent low and 54.? percent high.

4.

Tritium a.

Samples are obtained from each of the seven plant effluent radiation monitors which mon % the six ventilation exhaust points. The sample ir passed through a bottle containing water, While the sample is being i

l passed through the bottle the Tritium is

washed

out to the collect'ng l

water. Portions of the collecting water are analyzed for Tritium usl.'.o llquid scintillation counting techniques. For each sample, the duration of sampling and sample flow rate is used to determine the concentration.

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The value reported is the sum of all Tritium quantified at all monitored release points.

Considering the random nature of radioactive decay and the inherent variability in radiation measurement along with sample volume, flow rate, and pressure measurements, total Tritium measurement of uncertainties may be less than 12.3 percent low and 51.2 percent high.

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Efflu:nt Release Rei> ;rt February 1988 Page 8 B.

Liquid Effluents 1.

Fission and activation prohets a.

Prior to releasing ilquid radioactive waste to the environment a sample is taken from the stadweste Holding Tank. This sample is representativt of the tanks rar%oactive contents. The sample not only allows for the determination of radioactive material but also establishes the rate at which the radioactive material can be discharged to the environment.

Radioactive activation and fission products that are typically quantified are the following:

Mn-54 Fe-59 Co-58 Co-60 7.n-65 Mo-99 Cs-134 Cs-137 Co-141 Co-144 (Other radionuclides as quantified)

For each holding tank that is discharged to the environment a representative sample of the tanks contents is retained. At the end of the calendar quarter a composite sample is made of all discharges occuring during the quarter. A composite is defined as a quantity of sample that is proportional to the total discharged during the quarterly period. The composite sample is analyzed for Iron (Fe)-55 and Strontium (Sr) 89/90.

Both analytical methods involved radiochemical seperation and quantification by liquid scintillation and gas proportional counting respectively.

The value reported is the sum of all fission and activation products quantified in all batch releases.

Considering the random nature of radioactive decay and the inherent variability in radiation measurement along with flow rate and volume measurements, total fission and activation product measurement of uncertainties may be less than 14.3 percent.

2.

Tritium a.

For each holding tank that is discharged to the environment a representative sample of the tanks contents is retained. M. the end of the calendar month a composite sample is made of all discharges occuring during the month. A composite is defined as a quantity of sample that is proportional to the total discharged during the calendar month. The composite sample is analyzed for Hydrogen (ii)-3 (Tritium) by Liquid scintillation counting.

The value reported is the sum of all Tritium quantified from all batch releases.

Considering the random nature of radioactive decay and the inherent variability in radiation measurement along with flow rate and volume

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-Efflunnt R:l:ase Repart.

Fcbruary 1988 Page 9 measurements, total fission and activation product measurement of uncertainties may be less than 14.3 percent.

3.

Dissolved and Entrained Gases a.

Dissolved and entrained gases are quantified by gamma spectroscopy for each batch release. The following radiogases are typical of those considered when quantified:

Kr-85m Xe-131 Kr-85 Xe-133 Xe-137 Kr-88 Kr-89 Xe-138 The value reported is the sum of all radiogases qua'ntified for all batch j

sample tank reported releases.

Considering the random nature of radioactive decay and the inherent variability in radiation measurement along with flow rate and volume measurements, total dissolved and entrained gases measurement of uncertainties may be less than 15 percent.

4.

Gross Alpha a.

For each holding tank that is discharged to the environment a representative sample of tho tanks contents is retained. At the end of the calendar month a composite sample is made of all discharges occurring

';ur.1g the month. A composite is defined as a quantity of sample that is proportional to the total discharged during the calendar month. The composite sample is analyzed for Gross Alpha radioactivity by gas proportional counting.

The value reported is the sum of Gross Alpha radioactivity quantified from all batch releases.

Considering the random nature of radioactive decay and the inherent variability in radiation measurement along with flow rate, volume and measurements, and compositing measurements, total gross alpha measurement of uncertainties may be less than 22.5 percent.

6.

BATCH RELEASES A summary of data for batch releases is provided in Section 8. Included are the number of releases, total time period for batch retsases, and the maximum, average, and minimum time period of release.

7.

ABNORMAL RELEASES No abnortnal releases of radioactive material to the environment have occurred during this reporting period.

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Efflu:nt R:l:asa Rep;rt February 1988 i

Page 10 8.

BATCH RELEASE DATA i

REPORT CATEGORY

BATCH RELEASE

SUMMARY

RELEASE POINT

CIRCULATING WATER DECANT LINE

-TYPE OF RELEASE

BATCH LIQUID FROM RADWASTE PERIOD START TIME

4344:00 HR3 = 12:00AM JULY 1,1987 PERIOD END TIME

8759:59 HRS = 11:59PM DECEMBER 31,1987 LIQUID RELEASES NUMBER OF RELEASES

31 TOTAL TIME FOR ALL RELEASES

14601 MINUTES MAXIMUM TIME FOR A RELEASE

550 MINUTES AVERAGE TIME FOR A RELEASE

471 MINUTES MINIMUM TIME FOR A RELEASE

154 MINUTES e

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Efflu:nt R:l:sse R:ptrt F;bruary 1986 Page 11

9. LIQUID EFFLUENT

SUMMARY

REPORT CATEGORY

SEMIANNUAL SUMMMATION OF ALL RELEASES BY QUARTER TYPE OF ACTIVITY

ALL LIQUID EFFLUENTS REPORTING PERIOD

QUARTER 3 AND QUARTER 4

UNIT

QUARTER 3

QUARTER 4

HOURS

HOURS TYPE OF EFFLUENT

4345-6552

6553-8760 A. FISSION AND ACTIVATION PRODUCTS

1. TOTAL RELEASE (NOT INCLUDING TRITIUM, GASES, ALPHA)

CURIES

3.96E-03 1.11 E-02

2. AVERAGE DILUTED CONCENTRATION DURING PERIOD uCl/ml 5.48E-09 4.78E-08 B. TRITIUM

1. TOTAL RELEASE CURIES 3.91 E-01 1.59E-01

2. AVERAGE DILUTED CONCENTRATION DURING PERIOD

uCl/mi 5.41E-07 6.75 E-07 C. DISSOLVED AND ENTRAINED GASES

1. TOTAL RELEASE

CURIES 1.46E-03 2.26E-05

2. AVERAGE DILUTED CONCENTRATION DURING PERIOD uCl/mi 2.02E-09 9.60E-11 D. GROSS ALPHA RADIOACTIVITY

1. TOTAL RELEASE CURIES 0.00E-01 0.00E-01 E. WASTE VOL RELEASED (PRE-DlLUTION)

LITERS 1.64E+ 06 5.41E+05 F. VOLUME OF DILUTION WATER USED LITERS 7.23E+08 2.35E+08 G. TOTAL VOLUME DILUTION WATER DISCHARGE LITERS 3.22 E+ 10 3.54 E+ 10

Efflu:nt R: lease Rep rt F;bruary 1988 Page 12

9. LIQUID EFFLUENT

SUMMARY

(continued)

. REPORT CATEGORY

SEMIANNUAL LIQUlO BATCH RELEASES TYPE OF ACTIVITY

TOTALS FOR EACH NUCLIDE RELEASED

ALL RADIONUCUDES REPORTING PERIOD

QUARTER 3 AND OUARTER 4 BATCH RELEASES

UNIT

QUARTER 3

QUARTER 4

HOURS

HOURS NUCLIDE

4345-6552

6553-8760 ALL NUCLIDES H-3

CURIES

3.91F-01

1.59E-01 NA-24

CURIES

1.18E-03 CR-51

CURIEP.

5.80E-04 MN-54

CURIES

9.85E-04

2.34E-04 FE-59

CURIES

* <0.5E-07

* <0.5E-07 CO-58

CURIES

1.67E-03

2.39E-04 CO-60

CURIES

3.05E-04

3.16E-05 CU-64

CURIES

2.07E-04

2.79E-04 ZN-65

CURIES

7.94E-04

* < 0.5E-07 BR-83 CURIES

4.39E-03 MO-99

CURIES

* < 1.4E-07

* < 1.4E-07 TC-99M

CURIES

1.24E-04 l-133 CURIES

7.36E-05 CS-134

CURIES

* < 0.1 E-07

* < 0.1 E-07 CS-137

CURIES

* < 0.2E-07

* < 0.2E-07 CE-141

CURIES

* < 0.2E-07

* < 0.2E-07 CE-144

CURIES

40.4E-07

* <0.4E-07 XE-133

CURIES

2.26E-05

(

KR-85

CURIES

1.46E-03 3.97E-03 OTHER CURIES TOTAL FOR PERIOD CURIES 3.97E-01 1.71 E-01

Less than lower limit of detection (LLD), i.e., the maximum sensitivity of measurement, in units of microcuries per milliliter (uCl/ml)

r r-Efflu:nt R;l:sio R: port F;bruary 1988 Pag 3 13

10. GASEOUS EFFLUENT

SUMMARY

REPORT CATEOORY

SEMIANNUAL SUMMATION OF ALL RELEASES BY OUARTER TYPE OF ACTIVITY

ALL AIRBORNE EFFLUENTS REPORTING PERIOD

QUARTER 3 AND QUARTER 4

UNIT

QUARTER 3

QUARTER 4

HOURS

HOURS TYPE OF EFFLUENT

4345-6552

6553-8760 A. FISSION AND ACTIVATION *RODUCTS

1. TOTAL RELEASE

CURIES

0.00E-01 0.00E-01

2. AVERAGE RELEASE RATE FOR PERIOD

uCl/sec 0.00E-01 0.00E-01 S. RADIOIODINES

1. TOTAL IODINE - 131

CURIES

0.00E-01 0.00E-01

2. AVERAGE RELEASE RATE FOR PERIOD

uCl/sec

0.00E-01 0.00E-01 C. PARTICULATES

1. PARTICULATES (HALF-LIVES >8 DAYS)

CURIES 7.43 E-03

5.83E-05

2. AVERAGE RELEASE RATE FOR PERIOD

uCl/sec 9.35 E-04 7.34E-06

3. GROSS ALPHA RADIOACTIVITY

CURIES

2.37E-07

3.69E-07 D. TRITIUM

1. TOTAL RELEASE CURIES 0.00E-01 0.00E-01

2. AVERAGE RELEASE RATE FOR PERIOD uCi/sec 0.00E-01

0_00,E-01

Efflu:nt Rel:ase R: port F;bruary 1988 Page 14

10. GASEOUS EFFLUENT

SUMMARY

(continued)

REPORT CATEGORY

SEMIANNUAL AIRBORNE CONTINUOUS RELEASES TYPE OF ACTIVITY

FISSION GASES, IODINES, AND PARTICULATES REPORTING PERIOD

QUARTER 3 AND OUARTER 4 OROUND RELEASES

UNIT

QUARTER 3

QUARTER 4

HOURS

4345-6552 6553-8760 NUCLIDE PARTICULATES AND IODINES MO-99

CURIES

* < 0.1 E-11

* < 0.1 E-11 TC-99M

CURIES

3.11E-06

4.22E-06 l-131

CURIES

* < 0.1 E-11

* < 0.1 E-11 CS-134

CURIES

* < 0.1 E-11

* < 0.1 E-11 CO-58

CURIES

* < 0.1 E-11

* < 0.1 E-11 CR-51

CURIES

9.97E-05 MN-54

CURIES

1.12E-05

* < 0.1 E-11 FE-59

CURIES

* < 0.1 E-11

* < 0.1 E-11 CO-6'J

CURIES

* < 0.1 E-11

* <0.1 E-11 CU-64

CURIES

3.91E-04 ZN-65

CURIF.S

* <0.1 E-11

* < 0.1 E-11 l

SR-89

CURIES

2.74E-05

3.94E-05 CS-137

CURlES

* < 0.1 E-11

* < 0.1 E-11 BA-139

CURIES

6.84E-03 CE-141

CURIES

* < 0.1 E-11

* < 0.1 E-11 CE-144

CURIES

* <0.1 E-11

* < 0.1 E-11 SR-90

CURIES

3.02E-05

1.41E-05 0 ALPHA

CURIES 2.71 E-02

5.51E-07 TOTAL FOR PERIOD

CURIES 7.43E-03 5.83E-05 FISSION GASES KR-87

CURIES

* < 0.1 E-04

* < 0.1 E-04 KR-88

CURIES

* < 0.1 E-04

* < 0.1 E-04 XE-133M

CURIES

* < 0.1 E-04

,XE-133

CURIES

* < 0.1 E-04

* < 0.1 E-04 XE-135

CURIES

< 0.1 E-04

"<0.1E-04 XE-138 CURIES

< 0.1 E-04

< 0.1 E-04 TOTAL FOR PERIOD

CURIES

.<0.1E-04

<0.1E-04

Less than lower limit of detection (LLD), i.e., the maximum sensitivity of measurement, in units of microcuries per milliliter (uCi/ml)

Effluent Releas] Rep:rt F;bruary 1988 Pag] 15 11.

SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A.

Solid Waste Shipped Othite for Burial or Disposal (Not irradiated fuel) 1.

Type of Waste Unit 6-Month Est. Total Period Error, %

3 a.

Spent resins, filter sludges, m

8.49 El

+ 25%

evaporator bottoms, etc.

Ci 6.38 E1 3

b.

Dry compressible waste, m

1.35 El

+ 25%

contaminated equip, etc.

Cl 1.38 El 3

c.

Irradiated components, control m

E rods, etc.

Ci E

E 3

d.

Other (describe) m E

Cl E

E 2.

Estimate of major nuclide composition (by type of waste)

/

a.

See Attachment #1 E

E E

b.

'See Attachment 02 E

E E

c.

None E

E E

d.

None E

E E

3.

Solid Waste Disposition Number of Shipments Mode of Transportation Destination 11 Truck Barnwell, S.C.

B.

Irradlated Fuel Shipments (Disposition)

Number of Shipments Mode of Transportation Destination None None None 2 /S.(,M Approved by bd Date g

F

-N Efflu:nt R: leas] R: port February 1988 Page 16 11.

SOLID WASTE AND IRRADIATED FUEL SHIPMENTS (continued)

ATTACHMENT 1: ESTIMATE OF MAJOR NUCLIDE COMPOSITION (BY TYPE OF WASTE) 2a.

Spent resins, filter sludges, evaporator bottoms, etc.

Percent Abundance Total Curles Cr-51 13.4 8.55 Mn-54 20.5 13.06 Fe-59 1.8 1.15 Co-57

< 0.1 3.19 E-2 Co-60 10.6 6.79 Co-58 35.6 22.73 Zn-65 12.4 7.91 C-14 0.9 5.59E-1 Ni-63 0.2 9.86E-2 H-3 0.2 1.98E-1 Sn-113

< 0.1 6.01 E-2 l

Sb-124 0.1 4.70E-2 l

l-131

<0.1 5.20E-3 La-140

< 0.1 2.25E-4 Ba-140

< 0.1 2.06 E-2 Cs-137

<0.1 2.94 E-2 Cd-109

< 0.1 1.54 E-2 Fe-55 4.2 2.70 l

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Sheet I of 2 Solid Weste Cate9ery (e) Spent Restn. Pttter Studees. Ewap Bottoms, etc.

Reportin9 Perled: 1 July 1987 throu9h 31 December 1987 Parameter Sh t l> men t Number Total 3

i I

1 2

3 4

5 i

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$1 Date 7-8-87 7-24-87 8-12-87 8-26-87 9-28-87 (mo/Da/vr) 3

12. voiume (m )

.. weste s.4 s.07 8.8 8.46 8.7 42.43 l

b. 8urtal 9.3 9.3 9.3 9.3 9.3 46.5 0

4

3. Radioacttwity Content (Cl)

a. Cr51 3.090 5.004E-1 6.799E-2 1.519E-t 1.28 5.09 b.

un54 2.944 4.377E-t 1.44tE-1 5.317E-t 2.66 6.69 c.

Fe59 6.846E-t 3.208E-1 8.86tE-2 2.063E-2 2.83E-t 8.82 d.

CoS7 9.582E-2 7.436E-4 1.79tE-4 9.8E-3 2.65E-2 l

e.

Co60 2.052 2.290E-9 4,038E-2 t.709E-t s.25 3.70 f.

CoS8 7.960 1.192 2.538E-t 4.238 4.40 9.50Et l

n.

2n65 1.209 1.540E-t 2.420E-2 8.27tt-2 9.03 2.50 l

l n.

Cl4 9.7565-;

e,028t-2 5.537E-3 9.501E-3 0.35E-2 5.63E-2 4 Mt63 4.304E-U 4.009E-3 8.477E-4 3.549E-3 2.54E-2 7.77E-2

j. H3 l' 777E-4 8.194E-4 8.908E-4 8.807E-4 8.92E-4 4.39E-3 i.014E-3 6.0tE-3 h.

intt3 d

8.

50524 0.078E-2 2.997E-3 8.32E-2 4.70E-2 l

m.

1931 1.168E-3 2.087E-4 1.37E-3 l

n.

Le840 2.245E-4 2.25E-4 l

l

o. est40 6.97tE-3 6.97E-3 l

p, Cet37 8.267E-3 1.27E-3 l

l4 Total Redlo-l acttwity (C1) 1.905El 2.662 5.208E-1 2.203 10.9 3.StEl 5.

Type of STC STC l STC STC l STC Container 6.

Source of Powdered Condensate Condensate Condensate Cond/RwCU waste Cond & RwCU l & 8ead l Seed 13 71 pt eet

7. Procesetn9 Demetered Dewatered l Dewatered i Dewetered Demetered E! 5( CI C,e imployed IB Q **

l8. Solidtftcetton Mone None More None None 7g

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Agent Approved by Date A

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SUMMARY

If0ftMSHEET I

Sheet 2 of 2 Solid weste Cate9ery (e) Spent meetn. Ptitor Studoes. Evap Bottoms. etc.

i Reporting Ported:

1 July 1987 throu9h 31 December 3987 Peremeter Shipment Number Total 1

2 3

4 1

5 l

1. Date 10-28-87 15-18-87 12-9-87 12-21-87 l 12-29-87 (me/De/Yr)

2. Volume (m3)

'i

s. weste 8.6 8.5 8.5 4.4 3.0 33 f

b.

Burtal 9.3 9.3 9.3 5.5 5.0 38.4 i

I 3. Radioectivity l

Content (Ct) l s.

Cr51 9.78E-2 1.78E-2 5.16E-2 2.49 2.66 I

b.

un54 1.25 s.2tE-t 3.03E-2 4.97 s.ItE-6 6.37 E~~Fe59 2.45E-2 2.80E-3 2.55E-3 2.99E-2 d.

CoS7 5.44E-3 2.93E-6 5.44E-3 e.

Co60 1.00 5.97E-2 8.64E-2 2.01 1.43E-5 3,09 f.

Cos8 2.4R l.73E-9 3.70E-2 5.06 7.73 s zr.65 2.26 U.20E-2 2.33E-2 3.09 5.41 h.

Ct4 s.780-2

.95E-2_,

3.80E-3 4.62E-l 1.55E-4 5.03E-l j

9 nee 3 2.09E-2 2.09E-2 J. H3 t.82E'3

4. TOE-3 7.99E-4 9.77E-2 2.20E-5 1.04E-t k.

Sntt3 l

S.

Sbt24 m.

1931 1.06E-3 2.77E-3 3.83E-3 n.

Le140 o.

Set 40 9.44E-3 4.13E-3 7.99E-3 1.16E-2 p.

Ces37 2.8tE-2 1.20E-5 2.StE-2

a. CotO9 1.54E-2 t,54E-2 c.

Fe55 4.84E-2 1.33E-2 2.64 2.70

4. Total Redle-activity (C1) 7.11 5.62E-1 1.90E-1 20.8 l 2.05E-4 2.87El

5. Type of Steel Liner Steel Steel HIC Steel Container Liner l Liner Liner 5,,,,n

.g

6. Source of Powdered Powdered /

Powdered Powdered Activated

$[g l

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-e Efflu:nt R: lease R: port February 1988 Paga 21 11.

SOLID WASTE AND IRRADIATED FUEL SHIPMENTS (continued)

ATTACHMENT 2: ESTIMATE OF MAJOR NUCLIDE COMPOSITION (BY TYPE OF WASTE) 2 b.

Dry Compressible Weste, Contaminated Equipment, etc.

Mrcent Abundance Total Curies Cr-51 1.5 2.06 E-3 Fe-55 23.0 3.18E-2 Mn-54 20.0 2.78E-2 Co-58 18.3 2.53E-2 Zn-65 7.2 9.94E-3 Co-60 29.8 4.12E-2 C-14

.2 2.76E-4 l

l l

t l

l Approved by 6g4v / k Date M

i

Effluent R:leaso Report Fcbruary 1988 Page 22

12. RADIOLOGICAL IMPACT ON MAN Direct Radiation Exposure from the Operation of Fermi 2 The environmental thermoluminescent dosimetry (TLD) program for Fermi 2 is used in the evaluation of direct radiation dose resulting from the operation of Fermi 2. The environmental TLD program is an ongoing program that was established in 1978. This preoperational program provides a baseline of bacteround radiation levels prior to the operation of Formi 2. The following table provides the annual everage exposure rates in millirem per year for key locations:

==

=====.

.u

u........

u..

u.

u-.

u.

me u.

u.

u..

u.

u u..

u u.

u..

un u.

u..

u.

6...

u.

p u.

u..

u.

us u.

u.

m.

u.

A description of important TLD locations is provided below:

TLD-2 Station 2 is located 1.1 miles north-northeast (NNE)'of the Fermi 2 teactor at the termination of Brancheau Street. This is the closest TLD to the site boundary of Fermi 2 in this compass direction. This compass direction is the direction of thd most prevalent wind.

TLD-4 Station 4 is located 0.6 miles north-northwest (NNW) of the Fermi 2 reactor on the site boundary and Toll Rd. It is the closest TLD in this compass sector to the site boundary of Fermi 2. The location of the TLD allows for not only the measurement of gaseous releases but for the measurement of direct plant radiation. Direct plant radiation is the result of radiation contained within components (turbine, reheaters) detected at the site boundary.

TLD-5 Station 5 is located 0.6 miles northwest (NW) of the Fermi 2 reactor on the site boundary and Toll Rd. It is the closest TLD in this compass sector to the site boundary of Fermi-2. The location of the TLD allows for not only the measurement of gaseous releases but for the measurement of direct plant radiation.

TLD-6 Station 6 is located 0.6 miles west-northwest (WNW) of the Fermi 2 reactor on the site boundary and Toll Rd. It is the closest TLD in this compass sector to the site boundary of Fermi 2. The location of the TLD allows for not only the measurement of gaseous releases but for the measurement of direct plant radiation.

TLD-30 Station 30 is located 7.8 miles west-southwest (WSW) of the Fermi 2 reactor on the corner of Elm and Monroe Streets at Saint Mary's Park. The location of the TLD measures the direct radiation to the City of Monroe from Fermi 2.

TLD-7 Station 7 is located 14.2 miles west (W) of the Fermi 2 reactor at the Doty farm on North Custer Rd. This station is called the controlling location due to its distance and direction from the Fermi 2 reactor. This station has been the controlling location since the beginning of the program in 1978.

In the year 1987 there is no detectable direct radiation influence to any key locations as the result of the operation of Fermi 2.

Efflu:nt Release R: port Fcbruary 1988 Page 23

12. RADIOLOGICAL IMPACT ON MAN (continued)

DETROIT EDISON COMPANY FERMI 2 1988: 2: 4: 8:21:12 LlOUID RADIOACTIVE WASTE DATA FILE CUMULATIVE DOSE DATA UNIT 2: Quarter 1 of 1987 TOTAL DOSE (MREM) FOR BONE

3.2036E-06 TOTAL DOSE (MREM) FOR LIVER

5.8312E-05 TOTAL DOSE (MREM) FOR TOTAL BODY

2.4616E-05 TOTAL DOSE (MREM) FOR THYROID

5.9930E-06 TOTAL DOSE (MREM) FOR KlDNEY

1.8551E-05 TOTAL DOSE (MREM) FOR LUNG

3.8376E-06 TOTAL DOSE (MREM) FOR GI-LLI

2.6814E-04 UNIT 2: Quarter 2 of 1987 TOTAL DOSE (MREM) FOR BONE

4.6382E-04 TOTAL DOSE (MREM) FOR UVER

6.4391E-04 TOTAL DOSE (MREM) FOR TOTAL BODY

4.2106E-04 TOTAL DOSE (MREM) FOR THYROID

2.4602E-06 TOTAL DOSE (MREM) FOR KIDNEY

2.1968E-04 TOTAL DOSE (MREM) FOR LUNG

7.4017E-05 TOTAL DOSE (MREM) FOR GI-LU-

5.7688E-05 UNIT 2: Quarter 3 of 1987 TOTAL DOSE (MREM) FOR BONE

4.7416E-04 TOTAL DOSE (MREM) FOR LIVER

1.6198E-03 TOTAL DOSE (MREM) FOR TOTAL BODY

7.1534E-04 TOTAL DOSE (MREM) FOR THYROID

2.2340E-06 TOTAL DOSE (MREM) FOR KIDNEY

1.0394E-03 TOTAL DOSE (MREM) FOR LUNO

2.23.'0E-06 TOTAL DOSE (MREM) FOR GI-LLI

1.4118E-03 UNIT 2: Quarter 4 of 1987 TOTAL DOSE (MREM) FOR BONE

2.6362E-04 TOTAL DOSE (MREM) FOR LIVER

5.3822E-04 TOTAL DOSE (MREM) FOR TOTAL BODY

3.1939E-04 TOTAL DOSE (MREM) FOR THYROlO

6.2856E-04 TOTAL DOSE (MREM) FOR KIDNEY 2.8694E-04 TOTAL DOSE (MREM) FOR LUNO

1.5963E-04 TOTAL DOSE (MREM) FOR GI-LLI

2.1401E-03 UNIT 2: Totals for 1987 TOTAL DOSE (MREM) FOR BONE

1.2048E-03 TOTAL DOSE (MREM) FOR LIVER

2.8603E-03 TOTAL DOSE (MREM) FOR TOTAL BODY

1.4804 E-03 TOTAL DOSE (MREM) FOR THYROID

6.3925E-04 TOTAL DOSE (MREM) FC,R KIDNEY

1.5646E-03 TOTAL DOSE (MREM) FOR LUNG

2.3972E-04 TOTAL DOSE (MREM) FOR GI-LLI

3.8777E-03

Efflu;nt R: lease R:ptrt F bruary 1988 Pag) 24

12. RADIOLOGICAL IMPACT ON MAN (continued)

DETROIT EDISON COMPANY FERMI 2 1988: 2: 4: 8:50:38 OASEOUS RADIOACTIVE WASTE DATA FILE CUMULATIVE DOSE DATA UNIT 2: Quarter 1 of 1987 DOSE FROM RADIOlODINES, PARTICULATES, AND TRITIUM AT CONTROLLING LOCATION:

TOTAL DOSE (MREM) FOR BONE

0.0000E-01 TOTAL DOSE (MREM) FOR LIVER

0.0000E-01 TOTAL DOSE (MREM) FOR TOTAL BODY

0.0000E-01 TOTAL DOSE (MREM) FOR THYROID

0.0000E-01 TOTAL DOSE (MREM) FOR KIDNEY

0.0000E-01 TOTAL DOSE (MREM) FOR LUNG

0.0000E-01 TOTAL DOSE (MREM) FOR GI-LLI

0.0000E-01 NOBLE GAS DOSE AT SITE BOUNDARY:

TOTAL BODY DOSE TOTAL (MREM)

0.0000E-01 SKIN DOSE TOTAL (MREM)

0.0000E-01 NOBLE GAS AIRDOSE AT SITE BOUNDARY:

TOTAL GAMMA AIRDOSE

0.0000E-01 TOTAL BETA AIRDOSE

0.0000E-01 UNIT 2: Quarter 2 of 1987 DOSE FROM RADIOlODINES, PARTICULATES, AND TRITlUM AT CCNTROLLING LOCATION:

TOTAL DOSE (MREM) FOR BONE

0.0000E-01 TOTAL DOSE (MREM) FOR LIVER

0.0000E-01 TOTAL DOSE (MREM) FOR TOTAL BODY

0.0000E-01 TOTAL DOSE (MREM) FOR THYROID

0.0000E-01 TOTAL DOSE (MREM) FOR KIDNEY

0.0000E-01 TOTAL DOSE (MREM) FOR LUNO

0.0000E-01 TOTAL DOSE (MREM) FOR GI-LLI

0.0000E-01 NOBLE GAS DOSE AT SITE BOUNDARY:

TOTAL BODY DOSE TOTAL (MREM)

0.0000E-01 SKIN DOSE TOTAL (MREM)

0.0000E-01 i

NOBLE GAS AIRDOSE AT SITE BOUNDARY:

TOTAL GAMMA AIRDOSE

0.0000E-01 TOTAL BETA A'RDOSE

0.0000E-01

~-

Efflu:nt R:l:sse Report February 1988

'Page 25

12. RADIOLOGICAL IMPACT ON MAN (continued)

UNIT 2: Quarter 3 of 1947 DOSE FROM RADIOlODINES, PARTICULATES, AND TRITlUM AT CONTROLLING LOCATION:

TOTAL DOSE (MREM) FOR BONE

0.0000E-01 TOTAL DOSE (MREM) FOR LIVER

0.0000E-01 TOTAL DOSE (MREM) FOR TOTAL BODY

0.0000E-01 TOTAL DOSE (MREM) FOR THYROID

0.0000E-01 TOTAL DOSE (MREM) FOR KIDNEY

0.0000E-01 TOTAL DOSE (MREM) FOR LUNG

.0.0000E-01 TOTAL DOSE (MREM) FOR GI-LU

0.0000E-01 NOBLE GAS DOSE AT SITE BOUNDARY:

TOTAL BODY DOSE TOTAL (MREM)

0.0000E-01 SKIN DOSE TOTAL (MREM)

0.0000E-01 NOBLE GAS AIRDOSE AT SITE BOUNDARY:

TOTAL GAMMA AIRDOSE

0.0000E-01 TOTAL BETA AIRDOSE

0.0000E-01 UNIT 2: Quarter 4 of 1947 DOSE FROM RADIOIODINES, PARTICULATES, AND TRITIUM AT CONTROLLING LOCATION:

TOTAL DOSE (MREM) FOR BONE

0.0000E-01 TOTAL DOSE (MREM) FOR LIVER

0.0000E-01 TOTAL DOSE (MREM) FOR TOTAL BODY

0.0000E-01 TOTAL DOSE (MREM) FOR THYROID

0.0000E-01 TOTAL DOSE (MREM) FOR KIDNEY

0.0000E-01 TOTAL DOSE (MREM) FOR LUNG

0.0000E-01 TOTAL DOSE (MREM) FOR GI-LLI

0.0000E-01 NOBLE GAS DOSE AT SITE BOUNDARY:

TOTAL BODY DOSE TOTAL (MREM)

0.0000E-01 SKIN DOSE TOTAL (MREM)

0.0000E-01 NOBLE GAS AIRDOSE AT SITE BOUNDARY:

TOTAL GAMMA AIRDOSE

0.0000E-01 TOTAL BETA AIRDOSE

0.0000E-01 UNIT 2: Totals for 1947 DOSE FROM RADIOlODINES, PARTICULATES, AND TRITIUM AT CONTROLLING LOCATION:

TOTAL DOSE (MREM) FOR BONE

0.0000E-01 TOTAL DOSE (MREM) FOR LIVER 0.0000E-01 TOTAL DOSE (MREM) FOR TOTAL BODY

0.0000E-01 TOTAL DOSE (MREM) FOR THYROID

0.0000E-01 TOTAL DOSE (MREM) FOR KIDNEY

0.0000E-01 TOTAL DOSE (MREM) FOR LUNG

0.0000E-01 TOTAL DOSE (MREM) FOR GI-LLI

0.0000E-01 NOBLE GAS DOSE AT SITE BOUNDARY:

TOTAL BODY DOSE TOTAL (MREM)

0.0000E-01 SKIN DOSE TOTAL (MREM)

0.0000E-01 NOBLE GAS AIPDOSE AT SITE BOUNDARY:

TOTAL GAMMA AIRDOSE

0.0000E-01 TOTAL BETA AIRDOSE 0.0000E-01

Efflu nt R:l:ase Rep;rt February 1988 Page 26

13. METEOROLOGICAL DATA N

I

Effluent'R;Ioase Rep:rt F;bruary 1988 Pag) 27 e

MINT FREQUENCY DISTRIBUTION (JFD) AT THE 10-METER LEVEL FIRST QUARTER 1987 b

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1 1

2 1

2.51-4.S.

2 3

3 2

3 1

4 24 3

3 3

j 4.51-S..S.

1 1

43 O.51-

.S.

S 2

1 3

3 1

2 3

2 0

8 4

3 3

3 S

S Se 3

1 1

j 8.51-11.5.

11 7

3 4

1.

2 22 1

1 1

2 1

1 5

8 2

11.51-14.S.

4 1

3 14.51-10.5.

1 2

13.

3 5.

4 2

1 3.3.51-2...51.3..S.

1 2

1-3 1!

I!

8 1

$.AL 1.

i i

l STA.II.ITY CLASS 9

e STASILITY.ASE 7=.

Utsee utASUItt.D SIE 1-A 2=.....ES j

AT:

14.. sETE J

UIse fleIESMOLD AT:

.75 trM J.lsef FIIE.IE9 ICY DISTRI.UTICII.F WI18 SPEES AIS DlHECTIcel IN HOURS AT 13.

GETERS I

fartet N

past 3E Ett E

ESE SE SSE S

S$s SW WSW W

WW 15 33 5 Igig, S.EE.

2 1

1 13 1

Catu 2

i O.76-2.9.

1 2

1 3

8 1

1 7

S 4

S

2..

11.1 l

2.St-4.S.

5 1

2 2

S S

11 8

7 3

4 3

8 12 7

11 11 4.51-4. 5 1.7 1

S 14 8

153 2

8.51-

.S 7

3 22 7

2 S

3 12 7

21 1.

S 3.

11 265 3

38 23 27 12 15 12 12 5

1.8 0.51-11.5.

S 3

1 167 13 12 5

7 14 51 18 5

4 12 31.51-14.5.

3 3

S 1

?.

4 2.1 14.51-1..S.

S S

52 8

3 e n en 13.51-23.5.

7 2

3 1

1 1

5

: a

,c u..S -

.S.

3.S -=.S.

.i!

?!!A J

31 la 4 -d 3!

-A J -

3!

27 J

J 3!

.i-9 8

- l' D::

=

e Ea

/s

saue s etssea4 ww As te-est stees eves e>e teen swee SITE IDENTIFIC: FEftsl2 j

oATA P cles ExAsetNE3 1/ 1/87 - 3/31/87 eos

$1 OUARTE2 198T

- e

?

)

STABILITY CLASS E

i STASILITY SASES ON 1=A 2=0....,7=4 wise esEASURED AT: th.eRIETERS i

WIND TeetESHOLD AT: 9.75 IrM JOINT FHEGUENCY OBSTRIGI# TION OF WIIS SPEED Ate DIKCTION Ih NOURS AT 10.00 IKTERS

+

f j

SPEEo fareal N

seet 3E E3E g

ESE SE SSE S

SSW 35 WSW W

WW 85 ges IRIAL Cates 2

G.76-2.59 4

1 2

1 0

2 1

3 1

7 2

2 4

4 12 4

SG 1

2.51-4.50 7

2 1

2 8

11 4

3 7

8 7

18 13 12 19 13 127 4.51-S.Se S

5 0

2 2

5 7

4 5

7 8

21 15 8

12 S

111 S.St-S.Se 1

1 1

2 2

1 1

1 3

19 le a

4 s

3 S

83 8.51-11.50 0

4 7

S 9

1 e

2 8

14 10 6

1 S

S S

75 i

!.1.51-14.50 0

e.

1 2

.2 4

1 1

0 8

3 9

e 1

3 1

38 1

1.$

1 3

1 1..S 1

2 1

1

.i o

i

23. 51-3.. -.51-u.

.i 1

2

.S 9

30.55-39.S0 0

9 6

0 0

e e

e 9

0 0

9 9

9 e

I TO AL 1

2 2

2 i

I l

STABILITY CLASS F

i STASILITY SASED SIO t=A 2=S....ES 7=4 wise aEA9unto AT: 18.0 RETE WIND T9eESMOLO AT: 9.75 IrH Jelesi FIE0MENCY DISTRIOUTICII er W21W SPEED Ape DifECTIces IN hours AT' 10.001ETERS I

SPEED teres)

N peIE DE Ett E-ESE SE SSE S

SSW SW WSW W

WW 95 les IRIAL Cates 4

e.76-2.Se 4

1 e

1 1

1 2

1 9

9 9

3 5

9 29 2.51-4.Se S

3 2

1 e

e 2

1 1

1 7

8 8

S S

S S4 4.51-S.Se 3

1 e

9 3

4 1

3 2

2 3

2 0

2 3

7 38 S.51-S.Se 4

1 e

2 e

e 1

1 2

1 1

2 9

9 9

1 IS 8.S1-11.50 0

C e

e 3

1 e

1 1

9 4

1 1

1 9

9 13 11.51-14.58 0

e e

e 4

e e

1 S

e 0

9 G

S S

14.St-1s.Se e

1 e

e 1

1 1

1 e

e o

e S

2;g 10.51-23.50 9

0 8

G G

2 E

S e

S S

e G

G G

G 2

no cr -

23.51-30.50 9

8 9

0 e

e e

e S

S S

S e

e25 30.51-39.58 9

9 9

e 0

e e

e 9

0 0

9 9

e G

wez 23e_se

.,_,,_3 e __., g e

a e

e a

e e.,_,,_g a

_,,,,,,_g e

a e

q~

TOTAL 18 7

2 4-11 9

8 9

8 S

LS 11 9

12 13 23 184

,g E *:

=:e e

B 2

DECS FEAIB02 JF3 AT MitRS FOR ISI Cf3 1987

-m Sitt INNilFIO: FEnnfl2 SATA PCIOD ENAAll0E3

$/ 1/97 - 3/31/87

- - IST EWITE21987 ooo i

i STABILITY CLASS 0

sTASILit? SAStB GIS 1-A 24. N =4 7

"Im atAsumEO AT

$.9 RE

]

dless te8Esnote Ata e.75 arit I

j Jo?Nt IrditeutIEY 919tilEUTielt er sie SPEED ABEB DINECTICII IN H5vitS AT 1. 90 tsETrit$

I sette rient N

seat ut DE E

tst se sSt s

sse as use e

aNs. as sess -

cALas

. 7s-2.se.

S e

e e

1 e

e o

e 1

1 1

e.

e 1

11 2.st-4.S 4

e 1

2 s

2 4

2 e

e 11 3

s 2

1s se

.s.ss-.s.se 1

,e

.e t,

1 1

2 4.st-1 e

e 2

e e

1 2

e e

2 e

3 12

.se o

e e

3 s

e 2

1

.e e

e e

11.s,.-11.=

1 4

4 17 14.u-1.4.=

2

-1 I

1 2

18.11-23.34 S

9

?

1 0

0 0

0 e

e

.e 9

1 23.5n -38.SG 9

9 9

9 e

8 8

e e

9 9

0 0

Je.51-M.SG S

S 9

e S

t 0

e e

E e

e

-e e

e j

A 6

1 1

5 1

STABILITY CLASS ALL l

sTASILITYBASESONt=AteG....As=4 7

e wA:iismo AT: i&.e wic Wie T9EEtiOIBLD At J.75 8900 J.IIsf FIEr31EleCY DisTRIGUTICII er WIM sPtts AfG DIIEttleet IN B00Ulls AT 14.Ed IEEfths E

a seat sE tur r

est sc sse s

sse se use v

uNe W

seer %

cnu

. 76-2.s.

S 3

4 2

9 4

4 7

3 IS 4

5 6

3.9 17 14 185 2.51-4.50 22 3

4 6

21 33 17 a

17 23 32 38 31 22 38 348 4.51-6.Se 23 13 18 14 22 18 IS 12 to 21 lia -

40 24 28 41 28 3SS 4.51-S.SG 22 S

32 18 21 9

15 9

28 29 39 53 26 27 21 27 374 S.39-11.50 8

1.

79 44 45 27 31 2e 29 30 SS 29 19 29 44 26 SOS l

11.S1-14.50

.S 2

13 75 29 25 19 16 S

3 14 14 29 13 to 15 267 mmm t

i4.si-i.s 7

i 2

i 4

i e

i u2 r,a22,

.u.s.1-23.Se 1

.e S

2 4

e

.8 10.5 ft S

9 9

e e

1 3

8 4e e

i C

-=..

2 m==

l

. 1-2 9.=

y-11"

.4 J

n!

nf

.4 1J 1J J

A n!

.A l a n f -,st n l 14 mt g2 l

?,

Ea

. z

?

WECG FEtWII2 JFD AT~99-tKTEllS FOR IST ETR'1987-k SITE 30EstTIFIC: FENS 12

{

MTA PCISO EMAlfl8E): - 1/ 1/57 - 3/30/97

,i

- - 1ST GUARTER 1987 ese STASILITY MSES EIE 9=A 2=0....ES 7=0 j

wise avAsuste AT: SEe esETE CIse Tleb*1840LO AT:

8*.78 Irtt j

1STAL laamER OF aartamTIdIES: 2147 TOTAL teaWER OF WLSS SSSERVATIGIS: 2147 i

i' TOTAL BRAGER OF MISSIIS GSEENWATIGIES:

9 PERCDIT MTA IECWWENT FOR TWS PERIOS: 100.0 5 IEAfg WIIS SPEES FOR IIIIS PERIOS:

3.3 3806 f

TOTAL 8AAADt OF GSSDIVATIceIS WIT 90 SACIluP DATA:

e 1

i PDICDffAGE OCCUIWIDICE OF STASILITY CLASSES A

3 C

D E

F g

8.47 7.09 8.82 41.97 22.17 7.34 S.84' 1

DISTRIBUTISII 0F WI8eD DIltECTICII VS STABILITY

{

Is get IE DE E

ESE SE SSE S

SSW SW WSW W

WW IN 10 5 CAMI A

1 S

28 8

18 13 8

1 2

to 8

8 12 SS S

S e

a e

3 23 9

le 18 9

3 3

9 11 -

12

.12 9

%S 18 9

i C

to 4

24 12 12 15 15 4

4 9

8 11 18 13 11 IS 9

o 43 34 174 64 S3 35 42 24 36 21 7e 79 43 3e ryg.

SF 2

E 2e 14 21 16 32 24 13 IS 26 47 39 57 3S 42 63 30 2

i F

1.s 7

2 4

11 S

8 9

j s

8 1

4 s

1:

S S

IS 11 9

12 13 23 4

u it 7

5 e

2 is e

j 701AL 104 87 273 115 144 123 192 83 79 12e 174 183 132 138

'e58 184 0

a omm ESE W., 2 -

=2 a

WQ *:n 33 0

3 i

Effluent Release Report February 1988-Page 34 e

e JOINT FREWENCY DISTRIBUTION (JFD) AT THE 10-ETER LEVEL SECOND @ARTER 1987 e

l l

1 l

TIftt:

X CO FEftfit JFD AT le-K TERS FeII IIS CTR ISST SEGIl MTE:

87 4 9 9 l

Ese SATE:

L7 0 JS 24

=

OPTIest TO PRINT IISIffle,Y JFDS: IIS 1

SPfleet TO PRI88T waamnaa. JFOS: 81 0 l

SPflege To PftIIff STASILITY SY 81guR OF DAY: 88 9 1

SPTISII TO PLACE JFS III FILE FeIna4TTED FOR PAVAft: MS

}.

SPTIces TO USE 12 WIIS SPEED CLASSES

{

ItEPUTTED WISED SPEED CutSSFS IstIMG 9.75

.2.90 4.50 S.SG 8.50 11.50 14.30 18.30 23.30 33.30 30.Se 3.33 i

PRIGIAIIT anaesansaseS SISED GIIt i

W388 WEES MAGISES AT 99.9 WTERS III IMI t

BAD WIIS SPEED DATA CSSED: 998.98

]'

WRIS SPEEB TIGESSEILS: 0.75IMI k

WIIS DIMCTIGII IEASIMD AT 30.8 IETERS l

SAS WIIS DIIIECT3006 DATA CODED: 999.0 4

STABILITY BASES SII 1=A.2=S.... 7=8 i

SAO STABILITY CODED:

8.0 s

I i

AACK-4fP anneannmary3 34SEg geg:

1 NO BACMUP WIgG SPEED anaessansangS i

Ise BACMP WIIS DIIECTIGII GEASURDENTS IID BACMWP STASILITy anaenanmary$

Witt SPEED 90CIGHT 19 K USED FOR JFD 30.0e RETERS l

C00sWERSIces FACTelt TO ComENT SIceIA RAsigE TO SI0184 TIETA:

8.9 l

FelmeAT TO READ IISUT DATA: (452.FS.I.F3.9.1 git.Ft.S.27N.AS.Tll.A3.A3.T27.A1) 2'?

i FIRST DATA IIECOIB IEAD: FEIWBI2 87 1 1 1 2.8 183.0 4.0 as cr i

i

2 l

w=

~

k 1

E j

e,,

l l

1

}

l i

l

STYE E TIF[d:lE M I SATA PE*.;les EXAbileEJ: 4/ f/e7 - C/Je/07 ees 20e GUARTE3 1987 coe l

STASILITY CLASS A

i 7-6 STASILITYeASEDSIIt=A2-0....ES Wies adEASURES AT: SE.e IETE l

WIND itGIESHote AT: e.7S BIPM JeINT FHESUEIECY DISTRIguTIets GF WIge SPEED Ase DinECTION IN MOURS AT 19.00 adETERS SPEED fasput u

gSE gE EpE E, ESE SE SSE S

S$e SW WSW W

WIN 15 ges M Cates e

e.7e-2.Se o

e e

G e

o e

e e

2.St-4.Se e

e e

e 4.51-e.Se e

J e

e e

e.St-e.Se e

e e

o e

e.58-11.5e e

e e

e 1

1 e

e a

e e

e 1

e 3

St.St-14.Se e

e e

e 1

e e

2 14.51-18.5e e

1 e

e e

2 e

e e

G e

e 3

l 18.51-23.5e e

1 e

e e

e

.e e

e e

s l

23.St-3e.Se e

o e

e o

e e

o e

e o

e e

i 30.S1-39.5e e

e e

o e

e e

o e

l sie sa

_,,,,,,,,.3 e

a a

e a

a e

a a

a _,,,_,,,,,3 e

a awa l

TOTAL e

2 e

1 4

e e

1 e

e STASILITY CLASS S

STASILITY EASED SII 1=A 3=S....ES 7=8 Wise K ASENIES AT: t$.0 RETE Wits T95tESHOLO AT: 0.75tRe JeINT FIEOMENCY DISTRIsWTieg8 er WI88 SPEED AIS DIIECTIGII IN HOURS AT 10.e0 IIETERS SPEED facut N

ISE 3E EpE E

ESE SE SSE S

SSW SW WSW W

WW Im ges g CALu e

e.78-2.Se e

e e

e S

e e

i 2.51-4.54 e

e e

4.51-e.Se e

e e

e 1

e e

e 1

e e

1 3

4

.e.SI-e.Se

.51-11.54 4

e 1

1 1

e e

e 3

1 13 11.51-14.58 e

1 1

2 e

e e

9 1

1 3

e I

e to 14.St-te.Se e

e e

e a

e e

o e

e e

e 1

e 2

onm is.Si-23.Se e

2 e

e e

e 2

gaa 23.51-30.5e e

e e

e

.e

.e e

e e-e e

e e

c e

e e

ogg 3e.5i-39.5.

e e

e sia.sa a

e a _

_3 e

a a

e a

a e

1a a

a cn a -

total S

3 3

2 3

3 2

e e

e 1

1 1

e e

2 32 o

E!o Ea

1 m.,t,.,

m,..

.. i,

.f.

SITE tet::flFIE3 FElest2 i

SATA PE:::ICO EXAASINES: 4/ 1/07 - 8/30/07 e

2.e cuanTE2 i e7 i

1 STAelLITY CLASS C

7=0 STASILITY SASEO ON 1=A 2=S....ES 4

WIIe adEASueEO AT: 1E.e WTE 1

l WIIe THRESHetO AT: 9.75 trH JOISIT FKOUENCY DISTRIGIffl006 SF WIND M AIS DIIECTION IN HOWIS AT 14.00 KTERS S,

fasPeel N

8eIE E

EE E

ESE SE SSE S

SSW SW WSW W

WW 15 ISS M CAtas e

e.76-2.Se e

e S

e 9

9 e

e S

S 9

e 9

9 0

0 e

2.51-4.54 e

1 e

1 1

e e

1 e

e e

e 4

1 4.51-s.se 1

e 1

e.

e e

2 e

e o

e e

e o

e e

4

'1 e.St-S.Se e

1 1

e 4

1 e

e e

e 2

0 1

1 3

1 15 e

3 2

2 1

e e

8 3

9 3

5 31 O.51-11.50 e.

8 1

1 1

2 1

.e 1

1 2

2 2

3 i t.51-14.=

1 14.51-1 2

2 2

2 e

1.51-2 e

i

23. S i-3.3.

1 1

.se e

e e

e

}

3e.51-se.Se e

e e

I!?A t

1 i

-! -! --I

--d 1

STABILITY CLASS D

STASILITY BASED 000 t=A 2=S....ES 7=0 WIIIe W ASUNED AT: 10.8 MTE 1

Wits TeeIESR tB AT: 0.75 frH Jelsef FREQUENCY DISTRIstifl0N OF Wife SPEED AfD DIIIECTIO90 IN Moults AT te.es ETERS

~

I N

lee K

EK E

EK SE SSE 3

SSW SW WSW W

WW IN Iem CA

. 7.tte

- 2.

1 1

7 j

2.51-4.50 3

5 0

2 S

1 2

4 5

2 2

3 2

0 40 4.S1-S.Se 3

4 3

7 2

11 17 5

14 22 13 8

11 11 12 12 155 S.St-8.50 11 le IS 17 9

IS 26 13 11 14 28 27 7

le e

e 224 11.S1-14.54 16 9

IS IS 2e 14 3

2 S

S le 7

S 1.

S 11 203 S.51-11.Se 19 13 41 24 28 21 IS 23 8

18 13 29 25 7

1 7

142 14.51-18.Se 18 9

8 e

2 2

9 e

S e

4 6

4 1

2 1

79 pmm 18.51-23.Se S

S e

e e

9 9

e 9

9 9

e 12

- 2 23.S1-38.50 12 9

e S

e o

e e

o e

S 8

e S

e 9

12 E E c-30.51-39.50 0

0 e

e e

e G

G S

S S

e e

C

ya

>u se e

e e

a e

e e

a _____s __e ___s e

a TOTAL SS SS SS 74 47 64 44 46 46 44 SS 71 54 33 3S 41 955

.nz E!.

O

~

E 2

inte eteens A JDD ct IS-UTTERS FOR 20e (131987 SITE IsE TsrsE2: rEsati2 DATA PEGIOD EXA0030ED: 4/ 1/97 - 8/30/07

eo 298 CUARTER 1987 ese 4

STASILITY CLASS E

l STASILITY BASED SIS 1

24....ES 74 sise edEASURED AT: 9

')

.e ETE Wise TOWIESet0LO AT: 9.75 MPH j

JOINT F81EOMENCY DIS 1RIEUTIces SF WIIS SPEED Afe OlflECT!006 IN It0URS AT 10.00 IAETERS i

S EE.

i tai n

gag g

Eg E

ESE SE SSE S

SSW SW WSW W

WW IN 80 5 3

C 9.7.ALu M.

- 2.S.

1 1

0 1

9 3

1 9

1 3

2 1

5 2

j 2.St-4.S S

3 1

4.S1.S.S.e 2.4 1

1.1 2

2 10 12 19 7'

11 9

le 2

S 4

1 S

19 7

S 13 27

..S..

.S.

i.4 2

u.

u3

1.. S _,..

1, 4

4 i.

i 2

=

2.5 14 11 18 SS 198

.S -

S S

1 is 32,

.i 2.,

2 5

4.5..

.S.

2 i.,

1.

7 4

3.3 4

t 1

2

.S

.i 2

1 2

..S

.23 n.S -=. S 2-3o.Si-3..Se e

e e

TO AL 2

1 4

4 5

4 STABILITY CLASS F

STASILITY SASES SII 1=4 24....ES 74 i

.SE.8 KTE Lise edEASURED AT i

CIse iteESNOLD AT:

.75 MPH 1

Jelett FRESUENCY SISTRIEUTItet SF Wile SPEED AIS DIfECT%et If8 MOURS AT 19.90 RETERS I

SPEE9 imi N

ISE m

ESE E

ESE SE

$$E 5

SSW SW WSW W

WW IN IEW IllIAL CALu

. 7.- 2.58 8

3 1

4 ts 8

0 1

0 3

1 2

2 9

4 8

3 24 2.St-4 12 1

0 1

3 2

4 58-. 5 I

19 7

18 13 S

S 4

SS

.5 7

9 1

S 1

1 7

2 2

12 11 S

S S

d 4

..Si-s.S.0 3

.e

.e 3

3 s

4.S S

2

.S1-11.S.

9 4

e i

e e

1 11.51-14.5 3

3 2

11

)

.I

.e

.S 9

1 14.St-te.S 9

.O 1

1 S

21 2

2 G

S m ri m 1

.S

It G

9 e

0 e

S S

S 1

CTc 18.51-23.S.

.G l

23.51-30.50 0

O

.O O

O 9

0 0

9 0

ce G

8 0

0 l

so.St-3o.Se e

e e

e 0

0

4. -

S S

LJ * ?

e e

j 33e se a

ea e

e a

e e

a e

aa a

e a

2,.

l TOTAL 22 4

2 S

1.

to 23 8

4.

25 19 9

15 13 249 W.

m I

i

,g i

m*,

l e

B 2

i i

l.

3ECs FEsmesa den ca to-utstees test assu t:12 sees SITE leENTIFIER: FEmelt eATA PEOlce EXAnflE 3: 4/ 1/07 - 6/30/07

- - 288 ShatTE'219e7 oos STAetLITY CLASS O

g STASILITY 53SES sit 1=A 2=S....ES 7-8 seem aEASURES AT: GE.e KTE sine TsmESnote AT: e.7s Nen Jelaff FIE9tEICY DISTRIWTIGII er Wise SPEES Age DIMCTI006 IN HOWIS AT 10.00 RETERS t

SPEES feessi N

SeIE NE FE E

ESE SE SSE S

SSW SW WSW W

WW IN ISE IRT4 CAtu e

e.76-2.Se e

2 e

1 1

0 1

1 1

2 e

2 1

4 18 2.51-4.58 Se e

e e

1 1

8 7

7 12 4

0 4

15 7S 4.51-e.Se a

e e

2 S

1 2

3 2

5 e

2 32 s.St-e.Se 2

e e

e 2

3 7

2 2

2 e

e e

e G

e 2e s.St-11.Se e

e e

e 1

S e

2 1

e e

e IS 11.St-14.Se o

e e

e 1

e e

e 7

4 14.51-te.Se e

e e

e 1

e e

S e

e 1

i 10.51-2 e

e e

3.3.51-3.3.S.e e

e e

t e.

.e e

.e

.e 2.St-3..S.

e

.S e

G 9

2 Te AL 1

f STASILITY CLAS$ ALL j

STASILITY SASES 988 1=A 2=S.... 7=G i

slee REASURES AT: 10.8IETERS l

slee iteESMOLS AT: 9.75 trH

~

j JOIIST f fKelENCY SISTRInfTIGIS er Wits SPEES Ace tilECTIces IN la0URS AT 10.00 RETERS SPEEs fastat N

HK tee EIE E

ESE SE SSE S

SSW 35 WSs 3

gem Is see i

CALM i

S.76-2.Se 1

8 2

3 1

e 1

6 5

3 3

e 2

7 ft le 70 2.SI-4.50 3e 18 1

4 7

5 7

4 19 43 3e 32 3e to 22 29 301 l

4.51-S.Se 24 12 e

e 11 24 St 15 23 SG 53 42 32 32 31 33 450 I

S.St-S.50 28 IS 24 22 22 32 57 44 35 44 Se 45 17 28 27 19 Se2 l

s.St-11.Se 2e le s3 42 4s 37 2e s2 to 37 33 31 33 e

is 24 Sto i

11.S1-14.50 17 12 22 23 38 24 11 11 7

9 12 9

8 1

4 11 287 3,, m 14.S1-18.50 18 12 8

e 11 4

1 1

e e

4 e

4 3

3 3

SS ee2 1e.S3-23.58 S

9 e

e e

i e

e e

e 18 8 5[i~

j 3.3.,51-Ja..Se e.

e.

9 2

12 e

e e

12 e e.

,-3

.S.

e e

~a i

T&"

n!

4 rA u!

iJ tJ iS?.

i41 la id --4 rd 14 1.1 sJ-m! *f r.

li t

8*1 oo,,

O Ea t

SECS FEAelf JF9 AT 16-E TERS FOR 2ND CTR 1997 l

S8ft IstuflFIER: FESII2 NFA PE.lec ElueIIIIE;): 4/ 1/97 - 4/30/87 000 299 OUAftTER 1987 coo 7=e STASILITY MSES 900 1=A 2=S....ES wise es[AsumED AT: 14.0 MTE WIIS TIGIESes0LD AT: e.751994 Telm amasmra er egg m AT3eleS 2183 TeTR IRAGER er VRIO OSSGMTIGIIB: 2183 TETE ImaWER OF IIISSIIS GOBEllVATIGIIB:

o PEREElft MTA IIECHEllY FWII TNIS PERISO: 100.0 2 MAII WIIS SPEtt FOR THIS PUtIOD:

8.e Irpt Teig asLasurit er GSSERVATISIIO WITH SACK 1F MTA:

o PEHCDffAGE " N OF STASILITY CLASSES A

O C

D E

F e

e.41 1.47 3.00 43.75 31.47 11.41 7.79

\\

DISTRIGUTISIE er 3809 DIRECTION VS STASILITY

(

N ISE IE EE E

EM SE SSE S

SSW SW WSW W

E3 IS IBM calif I

l A

e 2

e 1

1 4

e e

1 e

e l

e S

3 3

2 3

3 2

e o

e 1

1 1

e e

2 e

i c

1 s

a s

12 to 4

e e

2 e

3 3

3 e

a e

I o

se se as 7e e7 e4 e4 es 4s e4 es 71 S4 33 as 41 e

l E

31 22 21 19 37 22 45 87 49 SS 84 64 43 33 48 38 e

F 22 4

2 S

le le 18 23 8

4e 25 19 19 17 15 13 1

9 17 2

,e 1

S le 26 7

12 14 9

17 6

IS S

21 0

TeTR 144 96 117 let 136 127 157 143 115 198 193 175 126 1el 110 121 1

l Ze5 st r Sh* 5

$b Ea

6 Effluent Release Report February 1986 Page 41 s

e MINT FRE@ENCY DISTRIBUTION (JFD) AT THE 10-NETER LEVEL THIRD W ARTER 1937 9

e O

e 4

-e.,.--

---e-

TITLE:

DECe FElmelt JFD AT to-tETERS Felt 3RD CT3198T Gest'3 SATE:

ST 7 1 1 teID DATE:

CT 93824 SPfleet TO PRINT GIONHG,Y MSS: 81 0 SPTIces TO IMINT ernemanna Jrgg: gag SPTION TO PIIIIff STABILITY BT IllRNt er DAY: IIe

. OPiteel TO PLACE JFD $88 FILE FelteATTED FOR PAVAll: YES SPTIGII TO USE 12 Wits SPEES CLASSES 38 RUTTED Wise SPEES CLASSES IN trel :

9.75 2.50 4.50 S.90 S.90 11.54 14.50 18.50 23.98 30.90 30.30 0.00 PIIIsangy waeasurasrasTS 340E0 el:

WIIS SPEES REASINES AT 96.9 IETERS IN trN mas slee SPEED DATA COBEO: 900.90 WIIe SPEED TIGESNOLS: 0.75 trll WIIS DIIIECTION W ASI M S AT 19.0GETERS ene Wise SBIECTIcel DATA CSOES: 999.9 STABILITY BASES 800 t=A.2=0.... 7=0 SAO STASILITY COOED:

8.9 Sack-4p waeamrwasTS SASED SIO:

NO SACetWP WIIS SPggg waeumrasrasTS les SACetuP WIIe DINECTICII REASWHDENTS ND SacetWP STASILITy masasarwasyg Wits SPEED leEIGHT 19 K IMED Felt JFDs 19.00 IIETERS CesNERSIGIS FACTelt 19 COINUti S3804 RAIIDE TG S10184 TIETA:

6.9 F01BAAT 70 IIEAD IISUT DATA: (4I2.FS.1.F3.9.195.F1.8.27X.As.711.A3.A3.T27.A1) 2e$

FIRST DATA HECOND REAO: FEIRII2 87 1 1 1 2.8 103.0 4.0

$TE N

h:

1a

1 tat.e e tsmos t em As ee-entte.:;d tuot Jeep Ce3 see7 SITE ISENTIFI C FEmsI2

{

DATA PCISD EXAttiOE3: 7/ 1/e7 - t/3e/e7 4

000 3nD SUAftTE3 000 l

STASILITY CLASS A

STASILITYSAMDSII1=A2=0....ES 7=0 Wise asEASURES AT: TE.8 IETE I-j WIIe TNIESMOLD AT: 9.75 IdPM Jeleff FREGUEIECY DISTItteUTIGIS OF WIIS SPEED AfS DIMCTIGIS IN MeURS AT 10.00 IIETERS SPEED

~

fasPet)

N lek

$E EggE E

ESE ~

SE SSE S

SSW SW WSW W

WW lW 9e3 M CALM e

0.7e-2.58 e

e e

S e

e e

e G

e e

1 2.St-4.54 e

e e

e 8

1 e

e 1

4.51-e.Se e

e 9

1 2

e e

e 3

e.St-e.Se e

1 1

e e

e 1

e e

e 3

1 e.Si-11.Se e

e 1

e e

1 e

e e

2 2

e o

e e

i 11.51-14.Se e

e o

e e

o e

14.51-10.S0 e

e e

e

e e

e i

1e.51-23.50 e

o e

e e

i 23.S1-30.5e e

e e

o e

e e

l 30.51-39.56 O

e e

e e-e e

e e

G e

e e

33e se

---I aH a

e e

a e

e e

a e

a ee ---d l

vara 1

2 i

e e

e 2

e e

1 e

i STAetLITY CLASS e

STASILITY SASED 018 1=A *=S....ES 74 Wise asEASURES AT: 18.9 KETE 1

-l 5I08D TNIESHOLD AT: 9.75 MPH

{

JeletT FREstE9CY DISTRIeUTISH OF WIOS SPEED Ate DIMCTIGet Its NHRS AT 19.0e IETERS SPEED fasrea)

N seet gE EIE E

ESE SE SSE S

SSW SW WSW W

SIIB Im tem IglIg, cue e

0.7e-2.Se e

e e

G w

e e

l 2.51-4.Se e

e e

1 e

e e

1 e

1 3

1 4.51-e.Se e

e e

e 2

e e

2 1

e 1

2 e

e e

e.St-e.Se e

e 1

1 1

1 e

e S

9 1

e 1

9 9

e e

e.51-11.Se e

1 1

3 1

2 e

e e

1 3

e e

e 12 11.St-14.Se e

e e

e 1

1 e

e e

o e

e 2

i 14.St-le.Se e

e e

1 e

e e

9 1

ee3 y.vi m 1e.51-23.50 e

e e

e e-e e

to U -

j 23.51-30.50 8

e e

o e

0 0

e e

e S

2e Je.51-39.Se e

e e

S e

e o

e e

aes 23e_se e

a e

e a

e e

a e

e a

e e

e a

W Q ** '

wor =

0 i

2 4

S e

e 3

S e

2 3

e i

32

_. =

U i

a t:

e 2e 2

i

{

altu) FEImp82 JFe CT 1MMRs FOR Jae C1R 1987 SITE leENTIFIE3: FEletI2 DATA PCice EXAlfffEO: 7/ 1/87 - e/30/87 j

- o 3RD etAARTER ooo 1

2 j

STAetLITY CLASS C

l STAetLITY SASEs est 1-A 24....ES 7=0 else asEAsumEs AT: 1E.e IETE

{

else TieESMoLD AT: e.75 arts 4

l Jedati FIEelEICY DISTRIMfTISH OF WIIe SPtte Afe SIIECT:918 IN MototS AT 10.08 IETERS SPftB raemi a

sont ut ter E

ESE St S$t S

SSW se sSW e

une em son catu e.7e-2.Se e

e e

e S

e e

l 2.St 4.Se e

2 e

e 1

e e

e 2

e e

e S

l 4.51-e.50 e

e 1

2 e

1 e,

e 1

S 3

3 5

3 3

e 27 i

S.St <e.Se e

e 4

1 2

4 3

9 1

7 e

2 1

e 3

e 38 i

S.St-11.Se e

1 2

3 1

4 e

e e

4 3

2 2

3 2

1 2e l

11.51-14.Se e

1 e

o e

7 o

e e

t e

1 e

14.51-18.98

.e

.S

.e 9

e e

i 1.51-23..

2 o

e e

e o

e e

o e

e 3.3.51-se.Se

.o

.e

.o

.e

. S 1-39.=

e e

e

- i " ".

--l --l --f --l --l

,I

! --I I

it i

7 --l --l --I ul 1

t sfASILITY CLASS 0

STA.BLITY e4Ste en 1=A 2=5....ES 7=5 Wise urAsunte AT: 10.0 stit l

j slee ficIESMotD AT: e.7S trH J. INT FREGIEIECY SISTRBelfficII 0F WIIS SPEta AIS e!NECTION IN hours A{ 10.90 RETERS l

1 SPEED IMPui N

BoIE NE EIE E

ESE St

$$t 5

SSW SW TSW W

WW IN ass IRIAL 1

cates e.78-2.se e

e 1

e e

e 1

e e

e 1

1 e

1 S

e 2.S1-4.Se 4

e e

1 4

2 3

1 e

S 7

5 5

4 5

4 57 4.51-S.Se e

4 e

S 7

7 19 e

24 22 2e 13 e

11 11 e

17e i

s.St-S.Se e

e 11 11 e

12 28 le 33 39 3e 13 11 7~

e e

281 e.St-11.Se 3

7 14 le le to 37 2e 17 24 7

3 13 14 e

3 224 11.51-14.Se 1

4 e

1 4

18 4

e 1

e e

1 3

e 53 imm 14.S1-18.5e e

i 4

e 1

S 1

e e

o e

e e

32 gaa I

te.51-23.Se e

e e

23.Si-=.Se e

e e

e e-e e

e e

e

.e e

e c

e

.,gg 30.51-39.5e e

e e

a'~

-e-4:

,e 3;

e:

S:

i I

I 3;

=

a-ce.

"Il 0

3

,y 7_

Eftte FtRC; AO AT IN1ERS FOR JRO El3 lee 7 SITE IDEC:ifritar FEh832 DATA PE;300 EXA1818E3: 7/ 1/87 - 8/30/07 eoo 3RD eMARTE2 ***

STASILITY CLASS E

STASILITY SASES ON 1=A.2=S....ES 7=0 Wise IEASURED AT: 19.e IETE slee TpSESMotD AT: e.73 arH JeINT FREGUENCY DISTRISLITIcel er WIIW SPEED A8B DIRECTIcel IN HeURS AT 10.00 METERS SMED rasset si peK IE EIE E

ESE SE SSE S

SSW SW WSW W

WW IN IEW M Catu e

S.7e-2.Se 2

1 3

2 e

e 4

9 3

8 2

3 1

1 3

3 25 2.51-4.Se S

S e

4 2

1 e

14 27 2e 21 22 13 e

les 4.51-e.Se 7

4 e

e 7

11 e

e 34 51 45 31 to 14 14 to 297 s.St-S.Se e

le le 5

4 12 12 18 40 32 3e e

3 11

-7 12 250 S.51-11.5e 4

e 24 11 7

e 13 17 5

7 13 1

e 1

3 4

124 11.51-14.58 e

e 3

2 7

5 4

to e

4 1

e e

1 37 14.51-1s.Se e

e 1

9 f

1 e

3 e

1 e

e e

1s.51-23.80 e

e e

a e

e e

e e

e e

e 23.St-3e.Se e

e 9

e e

e o

e e

e 3e.S1-39.3e e

e e

e 4

4 e

e e

e 7 At 4

8 4

STASILITY CLASS F

STASILITY S49ES SII 1=A 2=0....ES 7=0 sIIe aEASURED AT: 1E.e RETE Wits TMESMOLD AT: 9.75 IEN JeINT FIEstEICY DISTRIeUTISH OF BIIW SPEES ABS DIMCTISM IN HOURS AT 19.00 IETERS SPEED rapui N

lese DE EHE E

ESE SE SSE S

SSW SW WSW W

WW IN Ie5 IRIAL CAtu e

e.7e-2.Se e

1 e

e 8

e e

1 1

2 3

2 2

9 1

2 15 2.51-4.Se 13 1

4 2

e 1

1 2

1 3

18 24 13 to le 13 14e 4.St-8.Se 7

3 1

e e

G 3

1 5

4 4

7 17 e

7e e.St-S.Se e

e 9

9 9

9 e

1 1

e e

1 9

e S

e.51-11.Se 1

e e

t 4

4 4

1 e

4 3

11.51-14.Se e

e e

e mym-i 14.51-te.Se e

e e

E o-3 1s.51-23.Se e

e e

epg 23.51 3e.Se.

o.

e.

e.,

e.

e e

w.:

3..S 39.S e

y-

ff -d I --!

I

?

,1 21 5! - d - - d - - d - d u

mi i.

Ea

etw e asmos e we, me ee-esteeL864 $ Ufa Jeep (l83 ige i SITE ISENTIFItar FEftst2 SATA PCles EMAAllM3r 7/ 1/07 - C/3e/07 i

e ooo 3ne etsutTE3 een STASILITY CLASS S

I sTASILITY zaSto est t=A 2-e....&S 7=e asse wArmEs AT: 14.0 ATE mIIe TieIEssele AT: e.75 I.'M JeINT FSEC WENCY DISTRISWTI.II er Wife SPEED AIS DilECTIcel IN HDINIS AT 10.00 IETEftS l

l SPEED j'

fasPtil

$1 SSE SE EBE E

ESE SE SSE SSE

$5 WSW W

WE) lE lSS g-t CALas l '.

e.7e-2.50 2

e e

e o.

e.

s e

3 2

1 0

1 3

3 18 2.St-4.5e 3

e e

e 2

3 7

14 22 20 11 13 tes 4.S1-e.Se 1

e e

e 2

1 9

8 2

4 e

S 2e e.St- 0.54 e

e e

e 1

0 e

e e

0-e-

e e

2 j

S.Si-St.Se e

e e

e o

j 11.Si-,4.Se e

e e

o e

e e

e e ~

e e

i 14.31-18.50 e

o e

e*

e e

e i

10.Si-23.Se e

e e

o e

e e

e o

e e

o e

e o

l' 23.Si-3e.Se e

e e

o e

e e

o e

e o

e e

l 30.51-3. 50 9

e e

e o

e 0

0 0

e e

10 AL 1

~'

3

'i i:

STASILITY CLASS ALL STASILITY SASES SII t=A 2=G..O=4 7

)

stee M ASURED AT: 14.0 IE j

else TieESMDLD AT: S.75 IrH Jelist FflEcutescY DISTRISUTIces SF WIIS SPEES Af8 OlfECTIces Its HOURS AT 10.0e IAETERS 1,

SPEre i

fasPM N

ISE IE EBE E

ESE SE SSE S

SSW SW WSW W

WIN Im ISIS ] RIAL CALas e.7e-2.Se 4

2 1

2 e

4 4

1 S

S 7

0 4

3 7

e ee e

2.53-4.Se 25 0

4 7

7 5

12 4

18 2o et 71 Si 32 40 37 47e a

j 4.S.- e.Se 23 11 14 14 10 28 1e 2e 82 e.

73 Se 47 42 45 30 SSS i

.e.Si-S.54 17 20-33 le 13 32 41 38 75 es 7e 24 17 10 1.

Il Se3 1

.St-i e

15 42 27 2S 35 SG 45 23 38 2e e

le 10 13 e

si.Si-il.Se

.Se i

5 3

12 as e

se i

4 387 y;'L i4.Si-i.Se e

i e

e e

3 5

3 e

i

.i

.e

.i to.Si-23.Se e

e e

o e

e o

e e

2.

i 3

e ii e

e e

is

,o u _.

23.5 e

e e

30.S1-30. 58

.e

.o

.e

.e e.

e.

.S e :s 4

e e

e.

O e

e

-3

.S.

i lif. "

,f - - d rd J,!

la

.4 iJ 14 24 24 n!

rd n!

nf iJ na a.L.

G o

2-

.t e"I R.,

i i

l i;

I

sitt i?dsiiiriki "itiiis'2

~ ~ ~ ' ~ ~ ' ' " ' ""

M T.s $ c. net Ex m I m o: 7/ 1/of - 8/3e/or

= 3no cuanTEa -

74 STASILITY MSES SII 1=A 2-0.EYEES wine m ASenEO AT: 1E.e I WIIe TMIE5NOLD AT: e 7S erH TeTR NUMBER OF GSEERVATISIIB: Stel 19fAL NieIEER OF VALIS OBSERVATIGIIS: 2299 19fAL InAIBER OF MISSIIIB SSSEHWATICIIB:

e PEIICENT MTA RECWWERT FOR THIS PERIGO: 100.8 I IEAft Wits SPEE9 FSR 19113 PERIOS:

8.7 trH TOTAL smaarR OF GSEERVATISIIS WITH SACutF MTA:

e PEACENTAGE SCCINWIENCE OF STASILITY CLASSES A

B C

D E

F G

e.50 1.4S 4.77 35.53 40.66 10.59 6.41 DISTRIOUTIGIS OF WIIe OlHECTIcel VS STABILITY N

ISE IE EN E

ESE SE SSE S

SSW SW WSW W

WNE IN 99 5 CALet A

e 1

2 1

e e

e 2

3 e

e 1

e e

e 1

2 4

S S

e e

e 3

S e

2 3

e 1

e C

e 4

7 6

4 16 3

0 2

16 10 7

e 6

e 2

e e

24 2S 42 2e 37 SS SS S3 92 91 72 34 36 30 36 31 e

E 27 2e 51 3e 27 38 47 57 99 129 11e 72 51 49 4e 42 e

F 21 S

S 2

e 4

1 S

S tl 25 3e 24 33 37 24 e

G S

S S

e e

1 e

1 4

7 9

29 24 34 14 21 0

TOTAL 78 et let 71 75 124 136 127 184 2S9 248 163 145 164 135 121 e

?e 17 C

b EB G

E

Effluent R;Isase Repsr1 February 1988 Page 48 l

9 JOINT MWENCY DISTRIBUTION (JFD) AT THE 10- E TER LEVEL FOURTH QUARTER 1987 l

1 m

ys

--w,-y w---,,

- -,-, -,..v-

-,.,--,-s,

.-nn,-

,,-n,-,

,,-.,,,n w,w

,m,--

,,---,------~.--n-------

- - ---- - ----->=- * ~*'

IITLE:

SECS FElmett JFS AT lo-eETERS Felt 4TH CT31987 SESIN SATE:

87 39 1 1 Ese SATE:

a712 38 23 SPTIce,8 Te PRINT IIOeff98.Y JFSS: IIS SPTIces TO PRIstt SEASSIIAL JF35: IID GPTIces Te PflIIsf STASILITY WY IIOUR OF SAY: IID GPTIest 79 PLACE JFS IN FILE Fele84TTED FeR PAVAII: TES OPTIest TO USE 12 Wise SPEES CLASSES IsrUTTED Wits SPEES CLASSES IIIIrtl 9.75 2.Se 4.30 6.38 S.Se 11.80 14.90 18.98 23.88 38.88 38.88 0.88 PRIstAltY waeneramsTS SAGES SII:

WIIS SPEED asraemwn AT 13.0 MTERS IN trH SAS Wise SPEES SATA CMD: 998.99 WIIS SPEES TieE30EBLS: 9.7S trH Wise SIIECTIGII waesarm W 30.9 IETERS SAS Wise SIIIECTIces SA?A CODES: 999.9 STABILITT SASES SII t=A.S=0.... 7=6 SAS STAmlLITY cones:

8.8 f

SACE-tr Mm SAMS WI:

IIS SACMuP WIgg pggs waeamrasrastS IIB SatstuP WIIS SIIIECTIGII waenassaarnsTS HD BACMUP STASILITy waessaramsTS Clee SPEED MEleeff it K WEES Felt JF9: 19.00 MTElts CONWEltSleSt FACTest TO CEIIWERT SletIA IIAISE To SletIA TIETA:

S.S FeISAAT TO IIEAS IsrUT SATA: (4I2.FS. S.F3.9.10E.F1.8.27X. AS.T t t. A3. A3.T27. Al) inm 2*:,3 FIRST SATA IIECcIID IEAO: FEIBII2 87 1 1 1 2.8 183.9 4.9 a2 3.53

-?

U=

=

eTa

SEC. FEml2 XO AT SG-4ETESS Fegt 4fH CTS 1987 SIFE bee ~f 8FItar FEfeff 2 l

enTA PE% Ice EXANIIE3 I g I/97 - t2/3I/97 f

eco 4TH 00AftTER 1987 000 STASILITY CLASS A

s STASILITY e4Ste 800 t=A 2 8....dS 7.e sies aEA3ustES AT: id.e IETE Wise TietESNOLD AT: 0.7b arts J0lati FfEQUENCY DISTRIOUTION OF elle SPEED AfD DIECTleft 108 MOWtt AT 1o.00 IETERS SPEED IMPMt N

9eE

$E (SE

[

[3(

gg 33[

3 330 3E[

330 g

WW 33 gele ]l((gg CALM e

e.78-2.se e

e o

e e

e o

e e

o e

e e

o e

e e

i 2.St-4.Se 1

e e

e 1

e e

2 4

{

4.51-e.Se e

e e

e t

e e

e 1

1 3

e.St-e.Se e

e e

1 e

2 e

2 ft I

.e.51-1,4.5e 1

4 2,e 1.

e e

1 1

9 2

12 e

7 1.St-e e

e e

3 3

2 S

i i4.Si-se.S.

e e

i so.St-23.Se o

e o

e e

e o

e o.

o.

.o.

.e e

e e

23.St 3..S.

e.

e e

e.

3..S

>e..

e e

e i

te"J" -t

--t --l --l -t t

--t -t --t --t

,1 1: -d I

\\

a j

STAet?.ITY CLASS e

i STASILITY EASED est 1=A 2=e...E. 7-e 3888 m *

e AT: SE.e IET l'

j UIND TsetESHOLD AT: 9.75 trH JOI8tf FIESUEIICT stSTRIOUTISee GF WIIS SPEED Afe DIIECTISIG Ist HOURS AT 't9.00 RETERS SpEEe IMPM)

N 9eE gg (IE

[

($(

gg 33[

330 33 330 3

Wge

$3 pege ]lg]gg Catu e

e.78-2.54 e

e e

l' e

e e

e t

2.St-4.50 e

e e

e o

e 0

e e

e 1

2 4

1 1

e e

i 4.51-e.54 e

e e

I e

1 2

2 4

1 3

2 1e i

S.St-e.Se e

e e

e 1

2 1

3 2

1 4

e 15 i

s.St-st.Se 1

e e

e o

e 2

e t

7 7

7 e

4 4

8 42

{

11.St-te.Se e

e 4

e e

e 2

1 e

3 2

2 1

2 2

2 21 onm j

14.St-te.Se e

e 2

e e

0 1

1 e

2 e

e e

e e :t j

1a.51-23.50 e

e e

I e

e e

1 e 5{ c 1

23.51-30.54 e

e e

o e

e e

1 e

o e

e e

e 1

ce i

Jo.St-se.Se e

e e

e o

e e

o e

e o

e e.

m = :)

1 23e se a

ea a

_,_,3 e

a e

a a

a a w

,,,,_3,__3 e

a o2~

l total e

e e

S 2

2 15 to to 11 11 to 13 112

}

E :*

i co "El b

O

~3

KCe FEteelt JFS At 19-MTERS Felt 4fM OfR 1987 i

SITE IermTIFIt'h FEmsII j

DATA E IOD EMAAfl0Kj: 30/ 1/97 - 12/31/87 eeo 4TM OUAftTE21987 ooo I

il?ASSLITY CLASS C

STASILITY BASES SIG l=A 2=S....ES 7=0 stelp IIEASesES AT: th.e MTE j

mises TieIESecoLO AT: 0.75 IIPM JOINT FMeldtsCY DISTRISitTIGII er Wits SPEED Afe DIRECTIOff IN 900URS AT 19.00 MTERS 4

SPEES i

facui II lee E

EIE E

ESE SE SSE S

SSW SW WSW W

WW IN ISS M i

CALe1 0.7s-2.98 9

e 9

0 8

e 8

e S

S S

S 1

9 1

e 2.58-4.Se 2

e e

e 1

e t

s 1

1 2

1 1

3 4

2 19 4.Si-e.Se e

1 e

e e

e 1

a a

e 3

s 7

3 41 s.St-e.Se e

e e

1 2

e 2

1 2

S 4

7 4

1 4e e.51-11.Se 1

1 1

2 3

e 2

e 3

11 to 29 4

S S

S et 11.St-14.se 3

1 2

e 2

3 a

1 3

1 14 7

2 3

1 8

87

,14.st-te.S.e e

e 4

t e

1 1

e e

1 4

.1 5

1

.e 2,.e

..t-,3..

3 3

4 23.

1-3..

2 2

3

.1-=..

e e

7 TO AL le 49 t

a 1

STASILITY CLASS O

STASILITY SASES SII 1=A 2=S.ETEES 7=0 WBOS MAgiWED AT: 10.8 sl Wise TIGESNOLD 3T: 9.75 trH JOIIff FIEWIfEICY DISTRISifTIGII 0F WIIS SPEED Afe DIfECTIcel IN MOURS AT 19.90 ETEtts Il lee SE EE E

ESE SE SSE S

SSW 95 995 W

WIN IN 18 5 C

"'k

. 1.- 2.Se 2

1 1

1

.1 3

2 2

11 2.59-4.50 4

1 9

G S

e e

S 4

6 3

S S

S 3

4 42 4.51-4.Se 4

3 2

2 2

1 5

2 9

4 7

2S 13 11 6

1S 111 S.St-e.Se 5

2 S

4 4

8 5

7 7

17 29 44 12 14 14 13 19e e.St-11.50 le 4

ft 3

8 9

e 15 27 32 4e 44 19 13 29 3S Joe 11.S1-14.50 e

1 14 S

S 1

3 13 2

7 19 IS to 11 S

le 137 ee2

,.ra m -

{

14.51-18.23 2

e S

3 4

e 1

2 1

S 9

7 4

2 4

2 52 80 R E 1

18.51-23.50 1

9 9

0 3

e 1

e e

e 2

e S

e G

9 7

ce i

23.S t-Jo.m o

e o

e e

e 1

e e

o e

1 mga 30.51-39.58 8

9 9

9 e

e e

e 8

0 e

e e

S 9

e 9

-'*< g '

33e sa

_,, g aa aa a

a a

e a

aaa a

a a

a j

T3fAL 34 12 39 19 24 19 23 37 Se 73 117 148 57 S7 54 89 868

)

g ;;,

="

j O

g i

2 s

j

sace reasset JF7 ct to-esttets ress 412 C12 lost FEmelt

.SIfE ISE8st.IFIE.:

ATA PE%IO EXAGIROEOs 19/ 1/97 - 12/31/87 l

ese 4TH OMAfttra 13e7 eee j

l STA.ILITY CtASS E

T 7eg S ASILITV SAs.t. 018 1.A 3 3....ES i

AT: 14.e aETE 1

IIe WA9unt.

)

IIe TI M sMOL AT: 9.75eMt l

Jelen FMSEICY dis 1RIWfflet W Wite WEED Age DIMCTI0ld In letets AT 10.00 ICTERs sPtte I

resin u

aos a

tw e

Est se sse ses se use w

une em near i

CAtu l

. 76-2.30 0

.1 3

9 9

1 2

8 1

S 2

4 0

1 20 l

2.S1-4.30 2

1 2

e 1

3 4

1 S

S 1

17 35 7

to 2

9 I

4.51-S.S 2

4 1

S S

7 3

S 7

le 11 21 29 18 11 S

148 e.SS-e.Se 2

e 3

il 7

4 1

5 le as 27 li 37 le S

S 15 10.4 l

3.51-11.50 9

3 2

3 3

2 4

15 13 3S 7

2 6

4 1

I 11.SS-14.Se 1

e e

G 4

0 3

11 11 4

1 9

9 2

1 38

,1.4.S1-14.9e 1

9 9

1 2

0 1

9 1

2 0

0 1

1 8

1 0

13

. 51-u..

3.51-3..,.

2 3

i.t

.81-

$OAL 5

1 l

18 l

t j

STABILITY CLASS F

STASILITY Salt 7

.sles aEASIN.3 GIS 1=A 2=S....Es=0 AT: 18.0 Reft IIe TeeEsMOLD AT: 9.75AMG J.IIst FMeutflCY DISTRISIfflen SF WIIe WEES Age.IMCTIces 386 NOURs AT' 16.00 RETERs j

E a

ser ut est t

Est se sst s

sse su vos a

sur em ses m Cates I

w e.76-2.Se S

S S

6 1

0 2

3 1

7 2.51-4.50 1

9 9

8 9

9 3

9 9

13 11 14 3

1 S4 4.51-S.Se 1

9 9

1 3

5 1

2 7

8 2

8 14 2

S S7 S.SS-3.50 9

1 1

S.

.S 3

3 8

2 9

9 1

2 34 e.51-11.S.

e o

e 1

S 1

e.

.i 4

e o

e is 11.S1-14.50 9

9 O

S 0

0 1

0 8

9 1

u m r's 14.51-18.50 9

1 1

2

.G

.S 9

3 $ =E E 9

G 1

3 2

e S

e e

9 9

8 7 * * :t 18.51-e

.u.St-23.Se.S t-G 9

9 9

i

.S.

. qa

$o![

i!

2$

2$ d d d i

i le See

-f i

se

==

ia i

+--

I mECe FE8eelt JFE AT $$-ETEftS Felt 4TM CTR 1987 SITE leENTIFIER: FElefl2 SATA PE; Ice EllAlfl9ED: 12/ 1/07 - 12/31/07 000 47N OUMITER 19e7 eoe

~

STASILITY CLASS O

M l

STASILITY SASES 000 t=A 2-8....ES tIee WAsuste AT: 1E.8 WTE I

UIIe TMcESnete AT: 9.76 asPM

'l Jeleff F81E0utIICY SISTRISIffIc00 SF BION SPEED Alm OfflECTION IN It0URS AT 10.00 IIETERS SPEE9 fasreat N

get IE EBE E

ESE SE SSE S

SSW SW WSW W

S45 IN ISS M CALM e

0.7e-2.Se e

e e

e 1

1 2

e e

e 4

2.51-4.Se e

e e

1 e

3 2

2 1

3 e

14 e

e 2e 4.51-s.Se

-e e

e e

e 4

3 e

e 2

e e

e S.St-e.Se e

e e

3 S

1 3

i e

e e

15 e.51-11.Se e

e e

o e

e e

1 e

e o

e e

e o

e 1

11.51-14.Se e

e e

8 e

e e

14.st-18.Se e

e e

e o

e e

3 e

o e

e

,e e

e e

3 le.51-23.Se e

e e

o e

e e

e o

e e

23.51-30.30 e

e e

e o

e e

Jo.51-39.Se e

e e

o e

~

TO AL e

S t

STASILITY CLASS ALL STAeILITY GASES 888 1=A 2=e....ES M

clos aEASuste AT: SE.e aETE CIIe TDetESMeLD AT e.75 tru Jolesi FIE0ME01CY SISTRIOUTIcel 0F WIIS SPEES Af5 DIIECT3001 IN 000URS AT 10.00 IETERS l

Sette farea)

N IeE BE DE E

ESE SE SSE S

SSW SW WSW W

MIN IN ISIN M CALn e

0.78-2.30 2

2 3

1 e

e e

1 2

2 4

e le 7

4 3

Se 2.51-4.Se e

3 2

e 2

4 5

4 15 29 le 42 58 46 21 11 263 1

4.51-e.50 7

e 3

e e

15 17 le 19 35 34 Se S4 48 3e 32 385 l

S.51-e.Se 7

2 e

17 14 2e 22 le 32 83 63 e6 35 34 34 23 4S9 l

S.SI-11.Se 12 S

16 7

12 18 14 28 51 SS 109 e6 25 3e Se 57 SFS l

11.51-14.S8 12 2

2e 14 11 4

IS 13 18 25 43 26 13 18 to 34 283 1nm 14.51-18.50 2

1 17 7

8 1

3 e

4 11 13 13 S

e S

2 107

- 2 e

e 32

$Tc

3. 51- =.S.

1 2

e.

2 1

13.St-23.Se 0

S e

1 2

3 S

.S e.

.e

=.

u 3

qa

. 51 -3...

S e.

I!i."

J 21

,! - d 4 --d 4

I!

1J n!

24 n!

iJ m!,A

.42.4

- i:'

u::

=.

Ea

g.g.., g, g, g. _.

e SATA PERIOS EXAABI8E.; 14/ 1/07 - 12/31/97 oos 4TN SuaIITE21997 oes STASILITY SASES WI $=A 2=0....ES 74B stas aKASURED AT: 1E.8 RETE sise TNnESMote AT: e.75 IrM TOTAL InasER W eggERVATIeIIS: 2184 TOTAL manera y yetgG GSSERVATIONS: 2164 TOTAL paamra W HISSION OBOERVATICIIB S

PENCENT DATA MCSUENT FOII TIIIS PERIOD: 100.0 5 IIEA00 WIIS SPEES FWII TIIIS PEIIIOD:

8.6 IrH TOTAL amaare y amaravATIONB WITH SACIRF GATA:

9 PEACOSTAGE 8er u arMCE W STASILITY CLASSES A

B C

D E

F S

2.98 S.18 13.49 40.02 26.94 S.73 2.00 DISTRIOUTION W WIIe DIRECTIGII VS STASILITY N

IeE IE EIE E

ESE SE SSE S

SSW SW WSW W

WIN IN ISM CALII A

1 9

1 0

0 0

1 e

S.

4 5

S S

S 24 14 e

5 1

e S

e e

e 5

2 2

IS 14 18 11 11 to 13 e

C S

3 11 15 14 4

13 2

le 25 49 51 IS 28 27 to e

e 38 12 30 19 24 19 23 37 SS 73 117 148 87 57 SS 39 e

E 7

8 17 21 22 17 14 17 S1 SS S1 83 82 42 32 16 e

F 1

2 1

12 14 19 IS 2S 23 15 21 31 7

s e

G S

e G

9 9

8 8

9 3

7 3

4 2

14 e

e e

TOTAL S2 23 75 57 61 00 78 77 141 234 292 305 198 189 100 162 e

t sr $ -

Se a

~

Th5 5=.

=

Ea

- Effluent Release Report February 1988 Page 55 l.

e JOINT FREWENCY DISTRIBUTION (JFD) AT THE ED-PETER LEVEL j

FIRST @ARTER 1987 7

e O

in.

..e v i....

TITLE:

hECG FEMII2 X9 AT 90-mTERS Felt IST CTR 1997

'l stein MTE:

C7 1 1 I i

EIS SAVE:

07 33924 SPTIGII Te PRIIIT teNIT90.Y JF98: 10 0 ePTIGII Te PIIIIIT eraemmas JFeS: IIe 3.

ePTION Te PIIIIIT STAsILITY WF 11012 SF DAY: IIS i

SPTIGII TO PLACE JFW IN fit.E FSMIATTED FeR PAVAII: IID GPTIGII 19 USE 12 WIIS SPEED CLASSES IsrWTTED W!Im SPEED CLASSES IN BRI :

0.75 2.50 4.50 e.Se 0.50 11.80 14.80 10.00 23.30 30.00 30.00 0.00 PRIIIAgy aseenansmg3 angEg SII:

WIIS SPEES REAeteIES AT 00.0 RETEIts III IIPII ene WIIS SPEED e4TA CMS: 900.00 WIIe SPEES TeeESIIBLS: 9.75 1981 WIIS SImCTIGII amanaam AT 08.0 bETERS ens WIIe SIIECTIGII SATA CesED: 000.0 STABILITY EASES SII 1*A.2=0.... 7=4 ene STASILITY CODED:

0.0 BICK-ty wassensmg3 enete GII:

Ne SACuur WIIe SPEEg araenenansyS IIB SACEUP WIIS SIIIECTIGII eraeannanstS IIB RACMUP STASILITy waeannansTS

~

CIIS SPEES BEleIIT 10 K USED Fem JF9: es.es IETERS CSIIERSteII FAC'lelt TO CeHWERT SIGAA RAIM 19 SIGIA TIETA:

e.0 l

Felet4T 70 K AS IsrWT DATA: (4I2.T30 FS.I.F2 0.727.F1.8.TSS.Ae.T40.A3.A3.727.Al)

[G.

??

rIRST e4TA u Cone mAe: rEnnt er i, i 7.e m..

g

!Q R l

$=

=.

E

. :2

k

. vsw e *sen4 aes C3 es-etiILees f cet 13T CT.~2 19eT j

SITE 30EnlIFILRt FEleft2 DA(A PERIOD EXAMINED: 1/ 1/97 - 5/31/07

- - 1ST GUARTER 1887 ***

STASILITY CLASS A

ST4SILITY CSED est 1=A 2=4....ES 7-0 WIND KtS#It' ATs ed.e ETE Wits TNftESHOLD AT2 0.7J MPH JOINT e VMENCY DIS'.RIGUTION OF WIND SPEED AND DIRECTION IN 610UPs %T 90.00 i TRS t q.

N M

SE M

E ESE SE SSE S

SSW SW WSW W

WNW 80 5 Deft S.78-i eY e

e e

f 8

e e

e 1

e 0

0 18 2.S1-4.a C

I e

e e

2 9

e 9

9 9

e 1

8 9

1 4

4.51-S.Se 2

9 2

2 e

e e

e 2

1 le 8.51-3.50 1

.e e

1 3

e e

1 1

e 2

2 3

e 15 0.51-11.50 4

4 0

2 e

e e

4 2

3 1

4 3

1 39 11.51 14.58

~

S 1

1 1

1 e

e 1

3 3

3 e

e 24 14.51-10.50 7

0 3

0 1

4 2

0 4

1 9

e 23 10.51-23.50 1

e 2

1 e

e e

1 1

9 1

2 e

9 12 23.51-30.58 W

e e

e 3

e e

e 3

30.51-39.50 4

i e

e e

e 2

33e Me

,,, r _ 3 Ji 4

le S

S 1

1 18 7

e 18 12 e

3 iJs g

e a

e e

e a

e ea e

e a

e aQ TOTAL l

STASILITY CLASS e

l STASILITY SASED OL.4 se....ES 7=0 UIMD MEASURED AT: SE.e ETE CIND THRESMDLU AT: S.75 MPH l

JOINT FREQUENCY DISTRIGUTION OF WIND SPEED AND DIMCT:C IN HOURS AT 90.00 K TERS SPEED (MPM)

N 900E DE ENE E

ESE SE SSE S

SSW SC WSW W

WNW

$15 Seer TOTAL CAtu e

0.78-2 50 9

e 2

e e

e 1

e e

e 3

2.51-4.Se e

e e

e 2

1 2

t e

e e

e 4

4.51-S.Se 1

e 3

2 S

1 3

e e

2 17 S.S'- 9.54 e

e 1

1 2

0 4

2 C

e 2

1 1

1 8

2 13 S.51-11.54 3

1 3

3 2

1

=

0 1

5 1

4 9

2 7

3 41

1.51-14.50 e

e 4

2 1

8 9

e 2

e 4

e 2

2 2e ee2 14.51-10.54 e

e 2

3 4

4

-3 9

8 2

4 e

1 5

4 2

34 ao cr -

10.51-23.54 e

9 7

e 1

1 e

e e

1 1

9 1

1 9

9 13

2e 23.51-30.54 e

e 1

2 0

2 e

e e

e 4

e e

m*3 30.51-39.54 e

1 e

e e

C e

e e

e 1

1 3

9~

>39_"1 e

3 e

e a

e e

,g TOTAL 4

2 23 le 17 12 7

3 1

e to 17 11 9

14 17 185 to g

E.

"D O

3

t g i g ;; p g, w

" ~ ~ ~ ~

j, SATA PERIe9 EXAlflE D: 1/ 1/her - 3/3f/97 000 IST GUARTE3 teF7 000 STAsILITY CLASS C

3fAstLITYGASE3ENt=A2=S....E3 h4 CIIe K AsuM O AT: GE.e IETE Cile TOWESMDLD AT: 0.73 arH JeltfT FMGEICY DISTRISUTIGIt GF 1r:19 SPEED Ale DieECTION IN HOURS AT 00.00 KTERS 1

i SPEED reena)

N lest Int EK E

ESE SE SSE S

SSW Se Ens W

met Im see' IRIN, I'

CALet e

O.7e-2.90 e

e 2

e 1

e e

e S

e e

e 3

i 2.31-4.50 e

e 1

e e

e 1

e e

1 e

e 3

J' 4.Si-e.Se i

e w

1 i

3 e

e e

e 2

e 4

e e

i 13 e.St-e.Se S

e 3

2 2

2 1

1 1

e e

1 0

1 to J

I; 8.S1-11.58 S

e 2

3 1

4 3

1 2

2 e

1 1

e 4

1 3e I

11.S1-14.50 e

e 2

7 7

4 4

9 2

2 1

e S

4 e

4 4e

'i 14.St-1s.se e

e 7

1 3

S e

e e

3 2

S S

3 e

S 45 I;!

1s.S1-23.Se i

e 3

e e

1 1

e o

e 2

e e

4 1

e 12 h1 23.S t-30.. Se.

1

.e

.e 2

e.

e 4

1 e

e e

e A

ze.St-3.S 1

1 e

e 2

S P

7"#

rf a

,1

,8 a

J -d -d

,1 4

n!

l

(

l 1

STASILITY CLASS O

e i

STAsILITY BASEE 801 t=A 9=0....ES 7=8 CIse eEASURED AT: 4E.8 RETE Cite T15ESMOLO AT: e.75 IIPM JOINT FMGENCY SIST1t*SETION OF Wits SPEED Ate DIfECTION IN HOURS AT 84.0e METERS i-J-

SPEED faenti 18 ISE DE E9E E

ESE SE SSE S

SSW SW WSW W

W8W IW ieS M i

CALM e

i O.7e-2.Se e

e e

e 1

8 9

e e

e G

e 4

1 2

l 2.51-4.Se e

6 1

1 3

1 1

3 1

e e

e 1

e e

e 12 l

4.51-e.Se 8

0 1

2 4

1 3

S S

4 4

2 1

1 e

1 37 i

4.51-e.Se 4

e 2

3 e

e 3

3 2

2 2

5 1

e 1

e 52 l

s.St-11.Se e

4 le 14 e

a 12 e

3 2

2 e

11 14 e

137 11.51-14.Se 4

2 24 25 le 11 11 4

12 S

11 15 4

A 7

12 See 2mm 14.51-1s.Se 4

1 34 38 14 7

7 e

le 5

23 2e a

1d 27 14 224 16.51-23.50 3

2 Se 31 12 3

e e

1 1

21 23 e

e le 14 2ee

$T*

c I

23.51-30. 50 3

1 e.

e.

1 1

Se.

2 11 2

S 13 tr, 2

7 ce

3. 51-3.S 1

2 2

e 2

3 1

1

-fJf--

J,!

iJ 14 71 J

J 2:

A a

J J

d58 J

J

.4 2,a

s i

==

r 3

s O

i 3'

l l

i L

E M FM: FEIBilt DATA PERIOD EXAAllNED: 1/ 1/87 - 3/31/07 o**

1ST OLWITE2 1907 oes STASILITY CLASS E

STASILITY SASED ON 1=A.2=W....ES 7=0 CIldD RAEAS M O AT: 60.9 ETE CIND TWIESNOLD AT: 0.75 MPN JOINT FROUEIN DISTRISt#TIO90 0F Wits SPEED Afe DIEC130N IN HOURS AT 00,90 RETERS SPEED farH1 N

ggE SE EME E

ESE SE SSE S

SSW SW WSW W

WIN 18 pes 1914 CAus e

S.78-2.50 e

e 0

0 1

1 2

1 8

9 0

1 4

9 0

e e

2.51-4.50 3

3 9

0 1

2 3

3 3

e S

8 1

e 1

15 4.51-6.50 0

1 1

2 2

1 3

3 4

2 5

2 2

1 7

6 42 S.51-S.50 6

3 2

4 3

8 1

8 3

4 4

2 1

3 4

7 53 S.51-11.50 9

8 5

S S

8 1

4 S

S 11 3

S S

94 11.51-14.50 4

8 9

7 2

1 1

0 2

5 4

29 19 12 9

4 81 14.51-19.50 9

1 4

3 4

3 e

e 3

5 15 10 8

1e S

3 81

3. 51-3.3.54.e

.t 9

18.51-2 3

11 8

2 1

7 1e 14 8

3 7

3 79 1

u.Si-3..S.

1 2

3 1

7 4

3 2

23

.S 2

4 2

A4.

~

It 1

3 I?

1 4

2 3

5 5

~

STASILITY CLASS F

STASILITY BASED 018 1=A 2eS....ES 7=0

+

s CIND eEASURED AT: SE.9 KTE CIND TWIESMOLD AT: 9.75 frN j

j JOINT FREQUENCY DISTRIBUTIC88 0F WlIS SPEED AMP DIflECTION IN HOURS AT $0.00 RAETERS

)

SPEED j

inani N

8est BE E9E E

ESE SE SSE S

S$W SW WSW W

WNW IN 8005 TDT 4 CAus e

S.76-2.54 e

t 9

8 1

1 0

S S

9 2

i 2.51-4.50 e

4 8

0 2

3 8

0 9

2 8

0 0

0 9

e 17 1

4.51-S.se 1

1 e

2 S

1 2

e e

2 e

e 1

1 14 f

S.51-S.Se e

1 1

1 5

1 2

9 2

0 9

e 2

e 3

2 29 5.51-11.50 5

4 2

1 2

3 1

1 1

1 2

e 2

1 3

3 32 11.51-14.58 S

2 1

3 9

1 1

9 8

1 9

8 5

4 1

2 34 imm j

14.51-15.50 5

1 S

S 1

9 0

0 8

1 6

4 3

e e

1 22 e e :::

18.51-23.54 0

9 9

9 3

0 1

3 1

1 2

2 e

t e

e 14 eRE 23.51-30.54 e

1 0

0 3

3 1

8 8

e S

e e

e S

ce

)

30.51-39.50 9

w e

S

'1 0

9 8

8 8

9 8

9 9

9 e

1

- 3 i

33e_se a

e a

e e

2 TOTAL IS to 19 7

IS 13 8

S S

S te le 12 S

S 9

184

.J p

= ::.

l g

1 2

l w

=

iiist 'I65iffriN:'Veiiil2 SATA PE led EXAstIM D 1/ f/e7 - 3/3f/07 ese IST QUARTER 19e7 ***

STASILITY CLASS e

STASILITYGASESelfleA3-8....ES 7=e WIND WASURES AT: SE. aETE WIND TMmESMeLO AT: 0.7S trH JOINT FIIEGUENCY DISTRIWTIeH er Wife SPEED Afe DIRECTION IN MOURS AT es.se IEETERS SPEED fupeen N

ISE 18E EE E

ESE SC SSE S

SSW Se WSW W

GNW 9e less M CALM e

0.79-2.Se e

e 1

1 e

e 1

e e

e 3

2.51-4.54 e

e e

e 2

e e

e 1

2 e

e e

e-e e

S 4.51-S.Se e

1 1

0 1

1 1

1 e

G e

0 0

1 s

0.51-e.Se e

e e

1 1

2 8

1 1

1 e

1 1

e e

S 9

e.SS-11.Se 2

1 e

e e

1 2

3 1

3 S

1 29 11.S1-14.50 4

2 1

e e

2 1

O e

1 2

3 2

e e

le 14.St-10.50 3

e G

e e

2 1

1 1

1 5

15 1

8 9

1 31 1G.51-23.50 2

e e

e 1

1 5

0 1

e 2

2 e

e 2

IS 2J.51-30.S4 e

e e

e 1

4 1

e e

1 7

30.51-39.30 e

e e

e 2

e e

G e

e 2

sie se a

g aw e

a e

e aw e

a e

TOTAL la 4

3 J

e 12 te 3

4 6

le 23 6

5 5

8 118 i

STASILITY CLASS ALL STASILITY GASED 018 t=A 2=9....ES 7=0 WIce tEASUnte AT: ed.e IETE Wilm Te#IESMOLS AT: e.75 arts j

J0lesi FitteUENCY DISTRIGUTIcet er WIIS SPEED AND DiflECTIced IN MOURS AT.0.00 NETERS SPEED input N

ISE E

EK E

ESE SE SSE S

SSW SW WSW W

GNW Sgt lege M l

CALM e

e.78-2.50 e

e 14 1

3 2

S 1

e e

1 1

0 0

1 29 l

2.51-4.Se 4

e 2

9 e

S 7

5 7

9 e

2 2

9 2

82 4.Si-S.Se 4

S e

9 iS s.

32 1.

11 7

si 8

7 2

i.

13 i4

{

S.51-e.Se le S

to 12 22 21 le 7.

9 9

le 9

e 7

11 le 17e j

e.SI-11.Se 32 IS 35 2A 27 28 24 19 e

19 17 2S 22 to 44 3e 39e I

11.51-14.50 17 6

36 44 29 22 20 D

14 19 26 ee 34 29 19 24 400 gmm i

14.51-18.50 12 3

54 34 29 21 0

1 15 21 S1 77 20 38 43 26 400

- 2 l

10.51-23.Se S

3 75 42 27 9

7 4

le 14 43 35 14 21 29 17 348 y T is 23.51-30.50 2

16 8

4 18

-15 2

e 2

3 3

18 19 3

1 e

118 C*

i l

3e.51-39.Se e

S 1

e 7

e e

e o

e e

2 e

2 2

6 2S

$ " ?.

sse_se a

e e

a e

e a

e e

a e

e a

e 2[

~

l 101AL 32 64 4

174 184 134 95 45 76 99 168 231 135 12S 15e 14S 2147 g

E!-

l E

2

Drto FEntf 2 JFs &T OS-et1ERS Fem ISI CC assi SITE IstuisFIEA: FERMI 2 MD PE,.leS EMAdflIED: 1/ 1/87

3/31/B7 een IST GWRTER IM7 000 7=0 STASILITY MSES ON t=A 2=S....ES Line aKAsunte AT: eE.e aETE I

CIsse TMSMOLD AT: 8.75 asPM TOTAL BRAGER er SSOEWATISNS: 2147 TOTAL naamarn er yg33 gegEWATISIIS: 2147 TOTA 4. IRASER OF WISSIGIB eggERmTIONS:

8 l

PERENT MTA SECWWERY FSA TNIS PERIce 100.0 5 IEAft WIIIB SPEES F918 19883 PEIIIGO: 14.1 IMI l

TOTAL teutEER er SSSEHVATIGIIB WITN SACRWP MTA:

9 PERCEllTAGE SCCENWKMCC er STABILITY CLASSES A

B C

D E

F S

8.47 7.09 S.52 41.97 22.17 7.84 S.54 i

1 l

DISTRIWWTIcel er WIND DIfECTICII VS STASILITY a

see mE Enc E

Est SE SSE S

SS.

Se use e

sNs ist meer Cgu i

I A

1 3

31 4

14 9

S 1

1 16 7

6 16 12 8

3 e

S 4

2 23 le 17 12 7

3

'1 8

le 17 11 e

14 17 e

C 8

5 22 to 15 to to 2

S S

S 12 17 13 12 to e

j O

25 24 142 les 76 41 3e 2i 34 IS S4 98 4e 37 es es e

E 19 12 le 28 34 27 17 8

25 3e S2 SS 33 43 37 3e e

i F

16 14 le 7

18 13 3

S 8

le 16 12 8

8 9

e 9

11 4

3 3

8 12 le 3

4 8

le 23 S

S S

S e

l TOTAL 82 84 247 174 184 134 95 45 76 99 161 231 13S IIS 130 145 g

tu

$h m:

4

=

"D O

t 3

1 i

~

1 1

Effluent Re! ease Repsrt February 1988 Page 62 -

i i

JOINT FREQUENCY 0!$TRIBUTION (JFD) AT THE 60-ETER LEVEL SECOND QUARTER 1987 9

4 P

W d

...m_._-,

~

IllLE:

DLCe f test 2 Jt3 Al es-attLc3 7 oft Jeep CT31981 GESIN IBATE:

07 4 1 1 Ese DATE:

87 83074 SPTIcet 79 PRIsti MY JF99: les SPTIces 79 PR30ff SEASSIIAL #95: 80 0 SPTIcet 19 PUtleff STASILITY WY MOUR OF DAY: see ePTIces 79 PLACE JFW 888 FILE FOIBAATTES Fest PAVAft: DIO SPTIGE TO USE 12 Wife SPEED CLASSLS lemrTTts WISW SPEE9 CLASSES Ted IIPM 8.75 2.Se 4.Se S.Se S.Se 1t.Se 14.30 10.90 23.30 30.98 30.80 0.00 Pettenasty waeamrwurg gagge ges:

Wise SPtt3 IEASMS AT 90.9 REftWS IN IIPM SAS WIIS SPEED DATA COSED:

99.98 Wies SPEES TeWESISLS: S.7SeMG Wise SIMCTIGel IEASIM AT se G IEffets SAS Rise SIMciteel DATA CSOEE: 999.9 4TASILITY RAGES est 14.2=S.... 74B Sa0 STASILITY C00ED:

8.0 k

SACK-y enraanserwants gaggg ges:

NO SACMWP 5808 SPEE5 azaeamrasruTS IID SA:eWP Wise DINECTIges waenserwurs les SACsF.7 STASILITY REASUIEREfrFS WIIS SPERS DEIE ff 19 K Ifets FOR JFO: 99.98 IKTEsts 1

CesNtstSI638 FACTWII 19 CWINEltf SIGleA ftAfet To SIGI04 TIETA:

S.e rolesAT To IEAD 38Mff SATA: (4 I 2.736.FS.1.F3.8.727.F t.e.TSS. AG.T4e. A3. A3.T27. A 1 )

inm rInsi ATA nEcono MAe: rtiesI2 s7 i i 7.e i.e.e 4.e 3

-2 03 3 5=

=.

9 Ea

. c......, _.

7 Effluent fieleast Report Fcbruary 1988 Page 64 l

f....._...

g............

g...........-

i g............

g...........-

t R ************

R *******-**"-

g a

. _ _ m..

e e

3 w

v g

.......o....

g 9

3 3

[

l.

l 4

4 g............

y............

l C

C a

a g

g............

9 y.....-.....~

=

3 a

g y.......n....

g g.....u.....~

w m

E E

g g

e

ge.

g g............

g E............

n ig >

a a

g E

.T.g E

y

].wl,

] w l,

.=

.g

.e t3-a a

y z

g............

al_g

p. e e

agg g

,gg g ja!

al y

E R.

E g==g

a::s:.::s::;:s:es Cggg g

a lSg tg y.- =w s s.

w c54w_ =sess.:ssages!

a g5 insEEg 34;,;,;,vviv??,

i,ne !

gI 3t..vviv,;.

-2 9_9;;;;;;;; 8 a

.sg g

,. _.:: egg

a

.::en

~.... _ _

ggc. Ptmit M (T M.ft2ftWS F.R SE.IR 1 87 Fts

. SITE INN.T.IF3t.:

nfa ret;s tuassasEs: c/ 1/.7 -./3./.7 ese 309.MARTE3 1 7 ooo STA.ILITY CLASS C

LITY WW M

no Ti.EASU.E

.II 9=A 2.=.....ES STA.I

. 75.IEft see a AT:

KSn.L AT-ru J.Issi FM.IEICY.891 185T8901.F.IIS SFtt. ABS DIMCTic88188 DIOtsts AT IETERS Sett.

insent N

I.E DE EI.:

E EM M

SSE S

SS.

S.

WSW W

WW W

I.E

. 7.LM MIM.,

CA

- 2.9.

j 2.51-4.St-.4.S.

1 1

1

.s

.t 6

.s 2

.S

..St_,..S i

.S.

4 3

2 S,

i

.i.i. S - s.4. =

4 2

... S n...

.i 2

2 S

2

.S 4

u.S-=.&

2 2

7

m. S -=..

i."2 -! --l --I

,1

,1 -4

,1 --! --t --! --I ---f s!

STA.ILITY CLASS O

.So.nm W

=.h

....E~S IIS EM AT:

.. M.'96 it

.Ise TD.KSM.L. AT:

.75 0 J.18tf FMSENCY BISTRlWTIGI & WIIS W'EE. Age.lMCTI.N IN B00tRS AT RETERS N

I.E IE EBE E

ESE St SSE S

SS.

S.

WS.

W WW W

I.IB Ca

. 7.tu

- 2.9 1

2.S 2.51-4.S 1

1 2

1.2 1

1 3

1 2

2 1

1 2

4.St...S 2

5 1

4 2

1.

7 S

2 1

3 2

72

..S!-..S.

1 4

3 3

3 17 5

11 4

11 S

7

..St-11.S 9.7 4

3.5 1

1S 21 2

13 15 28 1.

11 17 14 S

1.

1 11.51-1 14.St-l.4.5.

23 1

21 4

4 13 23 7

gmm 3.4 7

i.3 g*3

.S.

15 13 23 21 13 3

1 1.5 2

7 1

15 S

1.

1.59-23.S.

1.2

.S 2

4 12 12 S

19 1

Il 3

i.s 4

3 2,

3 C

9.t ou.::

u.S -=.S e

3

,2

.S.-=.

.2 7"#

y-

~

4 St if if i! ~ J si J

4:

if 4

il il J - si 39 nf d

=5 e

E

2

g

, g, g / 1/87 -

SATJ ISS ERAHfMS: 4 0/30/07 ees 218 GUARTER 1987 000 i

i

{

STABILITY CLASS E

i STASILITY BASED GN l=A 9=S....ES 7=0 CIfe MEASUK 0 AT: 88.8 IETE j

CIpe TW CSMOLD AT: e.7S SEPM i

j JOINT FMEufENCY DISTRIsWTION 0F Wipe SPEED AND DIRECTION IN NOURS AT 80.00 METERS SPEED l

IMPM1 N

. eg 3E

[33"

[

[SE SC

$8tE SSW SW WSir W

WNW IN 18 5 191 3, j

i CALM a

i O.78-2.Se e

1 e

e e

1 1

1 e

e e

1 e

2.51-4.54 1

e 1

1 e

e 1

2 2

1 1

2 1

e e

e

'13 l

4.51-S.54 4

2 1

1 1

e e

14 1

2 4

2 e

3 2

e 43

}

0.51-e.50 1

2 2

5 13 7

12 2

e 3

1 7

1 4

72 e.51-11.5e 3

5 e

e 4

13 7

18 1e e

17 5

11 a

11 e

15e l

11.51-14.5e e~

s 11 4

s S

5 12 7

12 24 25 le e

s is 185 to.st-le.se 1

e o

e 3

2 i

1 s

24 31 2e le e

11 e

152 17.st-23.s o

11 1

2 3

12 14 3

3 s

23.5 -=..e e.

e.

3 to.

1 se.

e 1

.i

.i 2

1 1

1

=.31-=..

e e

e 4!

TO AL 2

2 S

5 6

e STASILITY CLASS F

STABILITY SA*ED GN t=A 3=S....ES 7=0 CIIe SEAEi.1tED AT: SE.eIETE l

CIND T11 test M AT: 9.75 trN Jeltff FIIEGUEPCY DISTRIsut'IGo! GF WIIe SPEED Age BIIIECTION IN MOURS AT 90.00 METERS SPEED faeu)

N Ist IE DE E

ESE SE SSE S

SSW SW WSW W

SNW 85 Best IRIAL Catu O.76-2.Se 1

e 1

e e

1 e

e 1

e e

e 4

e 2.51-4.50 e

e 2

1 2

1 0

1 1

0 8

1 2

e 2

e 13 4

4.51-s.Se 1

2 2

3 1

e 2

3 1

e e

1 e

e e

1 17 l

s.51-S.50 2

1 2

1 e

2 e

2 3

1 1

4 2

1 e

2 24 e.51-tt.5e 1

4 S

4 2

2 1

e 5

3 7

2 1

4 1

2 52 11.51-11.54 3

2 1

e e

3 4

4 s

7 1e e

11 4

s 1

7e y,g 14.51-tes.5e e

2 e

e 3

2 3

3 3

e 12 8

4 4

e 1

51 ao cr -

le.51-23.Se e

e e

e 3

2 e

e e

3 3

e e

1 12 e25 23.51-30.5e e

e e

e 2

4 e

e e

aea 30.51-39.5e e

e e

mq.*

33e.se e

a e

e a

e e

a e

as TOTAL e

il 13 e

13 17 10 21 2e 22 33 22 2e 13 e

e 24e G *-

E!.

1 N

B 2

i

I h

F mt.3 see EmmesteEJ

</ f/87 - 8/38/87 Se emurta test STABILITY CLASE S

.ST.A. SOL.IT.Y E.SES W he I

c.

r.

l WIS. TREESNBLS ATs 9.

Jeleff NW 98813WWF3011 SF 99W WEES AM 99=CTIGII III IntAS AT 80.08 158 N

Inst

=

EuE E

ESE SE SEE S

SSE SW SON W

IN ISS Cat.

"'k i

S.79-2.00 0

0 1

9 1

9 9

9 8

9 1

A G

S S

1 4

2.51-4.00 1

e e

1 e

e 9

9 1

8 1

0 9

9 9

1 3

1 4.81-G.00 1

e 5

4 e

9 9

9 1

1 3

1 9

e e

e le j

e.SS-S.so e

2 c

2 1

e 1

e e

2 2

e e

e 1

1 se a

S.Sf-11.00 1

2 e

e e

3 1

1 4

8 3

4 4

2 3

3 33 L

19.91-14.00 0

1 2

e 1

3 3

1 3

6 7

4 8

4 1

3 40 i

24.89-18.00 9

3 e

e 1

2 7

2 1

2 2

3 58.89-33.00 0

e e

e 3

1 8

9 9

1 1

9 9

4 4

e 9

as 1

23c.St-3e.se e

e e

e 1

3 S

e e

e 0

0 e

e e

e s

30.09-30.90 e

e e

e S

9 9

f c aL I

STASILITY CLASS ALL I.

....M i

.1, JDOIN PWS!ZIET 988333p79W1 SF W303 NEED AIS 980ECTless IN I.ests AT es.es ETEM i

2

=

==

a

==

=

.=

8 S.

=

8.

C j

.. ALaf

- 2.

1 1

2 3

1 2,

2.81-4.98 3

1 4

S S

2 4

8 4

1 4

4 4

1 4

1 34 1

4.81-S.Se 3

3 13 tg 12 10 Se te le 8

10 S

e 4

3 3

135 l

S.St-S.Se S

S to to S

le 31 17 20 14 15 13 ft IS S

13 238 l

S.81-11.98 14 15 41 33 22 34 17 40 30 27 43 28 SS 30 34 17 400 2,i m j

11.51-14.80 23 ft 38 35 26 41 to 17 20 34 SS se 35 23 22 29 498 eo cr g eg 14.88-18.90 16 27 32 34 42 24 14 8

12 42 SS 48 34 22 le 23 449

2.

18.81-23.98 12 i7 1

4 13 31 13 7

2 3

27 29 33 IS S

4 10 u. 51-=.

3..S - =..S.e 1

.S 1

.S 4

1 222 14 moa S

S i

11 y-i u

a

-YOOOOOOOOOO O

h*

10 nL O

E 2

I

.w-m

.m

+-

sEOS FEMBit #9 M SD MNRS FOR SIS 41R 198F SITE IWWilFIER: NItst2 SAT 3 PERIGS EMAIIIIEDs 4/ 1/87 - 8/30/97 see See enMitTER 1987 ***

7=0 STASILITY BASE 3 SIC t=A 3-0....ES Lise eEASURES AT: SE.8 IKTE CIIS 799ESMOLS AT: e.75 aret 19fAL IRASER OF GSSEIIWATIGIS: 2183 TOTAL SEASER OF VEIS SSEDOWAT! SIS: 2183 MTAL emnara er unSSIsat eSeERWATleIIB:

e PENCENT SATA IECOWUtf Fen Tests PERs48: 100.9 s REAfl Wits SPEES FOR THIS P01100: 13.2 tref TOTAL BEASUt OF GSWOIVAf teIS WITH SACIWP SATA:

8 MIICDITAGE SCCMSE90CE OF STASILITY CLASKS O

E F

G A

B C

0.41 1.47 3.M 43.75 31.47 18.41 7.79 l

~

SISTIIIOUTIGII er WIte SIIECTI0st VS STASILITY If ISE DE DE E

ESE SE SSE S

SM N

WSS W

ISE IS ISE CALII A

9 e

2 2

8 9

9 8

8 8

9 9

1 0

0 3

S S

S 2

2 e

e 9

1 1

S 1

0 C

1 4

e e

15 to 1

e e

1 10 3

4 3

8 7

e O

72 51 82 97 SS 87 4e de 4e S7 84 M

SS 38 38 37 e

E 18 24 32 23 36 29 3e S7 S2 63 95

<3 37 38 32 42 9

F S

11 13 9

13 17 to 21 2e 22 33 22 29 13 3

S e

O 3

8 16 7

5 12 22 S

10 17 19 12 13 16 4

5 0

19fAR.

107 98 1H 144 141 143 117 123 122 1M 222 291 130 101 M

100 8

mmm E Ir 3

as l

aja 4

gg

==.

O E

a

~

Effluent Release Report February 1988 Page 69 i

6 9

J0 INT FREQUENCY DISTRIBUTION (JFD) AT THE 60-PETER LEVEL THIRD QUARTER 1987 l

l I

I l

l i

h e

6 l

t

. - _. _. - _... ~ _ _ _. _.. _,. _.., _.. _..,,. - -..,.. _..,, _ _ _ -.. _ _ _ _ _ - -. _. - _ _ _ _ -,, - _.. - _ - - - -. - - - -. - - - - -. - -

it?tta etCO FrmpI2 JF3 AT SD-MTERS FOR Jnp Sta 1987 M99N Mft:

ST 7 1 1 fee Mft:

87 93023 l

SPT30st 79 PittWT ISImEY XN: se t

M958 71 PRINT N #99: le

GPfleet 79 PIlleff STASILITY 97 Hetet OF DAY: les SPTIGII M PLACE JFB Ist FILE Felet4TTES Felt PAVAft: BIO SPfleil M If5E 12 5888 SPEES CLASSES

~

sertrTTED Wiles SPERS CLASSES M BF91 :

9.75 2.M 4.30 9.S0 8.Se 11.30 14.50 19.30 23.M 30.M 39.M 9.00 i

PRIMagi Maeuuiraumg3 gegE3 gg:

)

Wies SPEES IEAst m AT 00.9 RETEMS IN Ret i

SAS 3813 SPEES SATA CeKS: 999.9e l

Wies SPEED TIGESISLS: 9.75 IIPM Wies 988ECTIGI WActMS AT 08.0 RETERS i

SAS WIIS DIM CTIest BATA C00t9: 990.9 STASILITY 34SES SIE 9-A.S=S.... 7=4

~

)

See STASILITY Cests:

0.9 l

SACK-4r NN BASES SII:

IIB AmtsRP WIIS SPEES IEAttNSENTS IIe AACitWP WIIS SIfECTleII REASUIEM9ffS no SAnar STASILITY wamumswagf5

)

l Clos SPEE3 DEleeff TW K IIett Felt JF9 90.00 MTERS l

cesstestest FACTelt 79 COWWERT SIGAA flAIIGE TO SIGRAA THETA:

0.9 l

l refusAT Te MAS IIRff SATA: (4I2.734 FS.I.F3.9.727 Ft.9.TSS.AS.T49.A3.A3.T27.A1) i h

FiftST SATA MCeRD FLEAS: FERII2 87 1 1 1 7.9 190.0 4.0 a23 53 3

-?

85

= ::.

E l

3 l

l l

l

ette Flineff JFo Af ee-4ftes Fen JHe ein tso?

337E 3etNf8FIE.Js FEfefft enraeriseEmmem:

7/ t/or - e/se/e7 oce sne euantra seer...

srAe:LITY CLA5s A

staestery anste su s-a 2-e....is e 7

csmo w asuere at: e4.e wir l

time visitsnote at: e.7s isru Je wr rateuracy otsinseurten er stus spero ase sintetten su nouns At ee.se witas seres rwun a

soit a

tiet t

tst st sst s

sse se use a

suo ser seer cnu O.7e 2.se e

e e

e 2.s - 4.se e

e e

e o

e e

6 e

e e

1 i

o.si-e.se o

e e

e i

e e

s i

o.s - e.se e

e e

i e

e e

o e

e e

e i

e.s -si.se e

i e

o e

e a

e e

e a

r si.si-i4.se e

e i

e e

e i

e e

o e

e s

i is.s -se.se e

e e

e e-e 4

o e

e e

e 4

n.si-rs.se e

e e

o e

e e

23.si-se.se e

e e

o e

e o

e e

e se.s -se.se e

o e

e e

e a

e e

e o

e e

I!fd"

--I t--f--I I

--l --!

i

---l --t

--l

,1 l

4 srassury ctass s

l stas Ltry easte est 14,2-8,_... M use w==re a es.e sur case 7 sitsace.e AI::

e.7s een Joswr racewuct onstateuries: er stie sPtre Ate sintCTieN IN Mouns AT se.oo Err.3 J

sette

_ twun a

soit a

tut t

tst st sst s

sse se ess a

sur se seer inial e.S4tu e-s.se e

e e

o e

I e

o e

e e

e 2.si-4.se e

e e

e i

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i 4.s - e.se e

e e

e o

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0.si-e.se e

e e

e p

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I i

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}

i e

I l

t I

e a

e o.si-si.se e

I E

e i

is.s -se.se e

4 e

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e se se.s -se.se e

e e

i e

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u==

se.s -se.se e

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= lll*

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esce etas42 Jre At ee-eKates see Jeep Cs 3 see7 SIFE tatuftriter rtaul2 e4T.3 PE les EluestsC: 7/ t/e7 - 9/30/e7 l

see Joe eunftTER tee 7 coe STADILITY CLASS C

STADILITY SAMs est t=A 2=S....ES M

CIIe K Asuste AT: SE.8 WTE j

PleE3 TestEsMete AT: e.75 MPH Jelaff FIIESKMCY eISTItteWTIces er Wits SPEte Afe elRECTlelf I;; MOURS AT 99.00 IsETERS SPEtt fasput N

pet IE ENE E

ESE SE SSE S

SSW SW WSW 3

ess se seg ]ggg i

CALu 9

l O.78-2.e9 e

e e

4 e

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9 e

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i 2.58-4.se e

2 e

e e

s e

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1' 4.31-e.se e

e e

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c e

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e s

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3 e

e 4

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2 3

2 e

21 s.St-Is.se e

e 5

5 2

3 e

e e

4 4

3 4

2 1

e 33 i

ts.31-1 e

e e

2 1

e e

e 2

5 2

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e e

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8 e

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e e

e e.

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t-3e.

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STADILITY CLASS D

STAetLETy maera egg 3.A 3-3....ES7-e CIND M Atun[9 AT: eE.eIETE ClfG TleKSMeLe AT: 0.75 AMI Jelati FIESMEFJ elSTRiettfleet er W!se SPEES AfS SIIIECTIeft IN HOURS AT 08.00 METERS l

SPtte raen)

N poet IIE Eng E

Est SE SSE 3

SSW SW WSW W

Weer Im gear ZeIE CAte i

O.78-2.Se e

e e

e t

e e

i e

e e

e 1

e 3

e 2.Ss-4.se a

e e

e 1

4 3

3 e

1 e

2 1

2 to c.st-e.Se e

2 1

2 e

4 e

7 3

12 5

4 3

3 3

3 74 0.51-e.se 4

1 e

5 4

5 17 14 se e

e 7

3 S

e 7

128 e.st-Is.se 3

2 to 13 5

25 25 to 32 25 to is to e

a e

22s 1s.st-14.se s

e 4

to le 7

13 e

13 2e 32 12 e

e e

2 17e o vi m to.st-te.se 2

4 7

s to it e

e 2

23 e

7 to 12 4

1 127

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e a

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4 1

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o e

e o

e e

o e

e e

j *t '.

>3n se e

s. w a ___a e

e a

e e

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TOTAL to to 37 4s 5:

44 76

$s se se 73 44 3e 39 4e 2s 702 g e_

EE, e

O 3

i

WLce Fteelt JFe At ee-4Eftes FeII Ja. Cf3 198F SEit IN W18WEERs ftteelt enra e Rsee Esmeare: 7/1/or - 9/se/e7 e

3eo SunRTrn leer...

STAeILITY CLASS E

STAelLITY e4KS SIS t=A 9=S....ES M

t' Ise aEAeWI AT: eE.e IETE Clee iteIc5MIts 8.0 AT: 0.78 Int Jeltif FKetEBICY DISTRfWilele er Wits SPtts AIS DIMCTISIt IN 800WIS AT 00.00 MTcRS SetES faena)

N get M

EM E

EM M

SM S

SSe Se SSW W

SNe IN pas g Cates e

0.70- 2.98 e

e e

e 1

2 e

e 1

e e

e 4

2.st-4.Se 2

3 e

e 1

2 1

4 9

1 1

e 2

2 25 i

4.51 s.se e

1 2

2 1

4 4

s S

3 2

e 2

5 e

2 30

)

s.st-..se 3

3 4

4 e

e 5

14 S

7 3

s 3

e 7

4 82 e.51-11.50 e

4 to le 4

to e

te el 29 32 de is 15 e

12 271

{

11.st-14.se 4

e 22 7

e 4

S 14 2e 47 54 28 18 15 e

e 269 to.st-te.se 1

4 7

s 7

5 e

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32 Je 17 7

7 7

7 13e 1

to.st-23.se e

e 2

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1 1

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3.3.s t-30. D.e

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e

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41 s!

.:-d nl,51,1

,I si 51-si-nt i

l STASILITV CLASS F

STAetLI1Y BASES sis lea S-e..

7

)

Clee IEAenett0 AT: Sh.eIEftks.3 Cates TIGIE9000LS AT: 0.7S IIPpt 4

j Jeltff FilEglENCY DISTRieUTISIS er Wtte SPtte Ase SterCTleft IN leURS AT 80.00 MritRS i

SPftS j

faenal y

get pg EM E

EM M

SK S

SSS

W WSW W

SIN 15 tem i

N O.7s-2.Se e

e e

e S

9 e

2.51-4.Se e

8 1

1 e

I e

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1 e

1 s

o.ss-s.se e

1 3

1 2

1 e

1 3

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e s

4 2

1 2

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1 2

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3 2e l

C.58-11.5e 8

5 1e 1

e e

2 e

2 4

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S e

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1 9

9 e

2 e

e e

2 e

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17 73 imm fo.st-te.se 1

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e 1

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le 3

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3 a.J g 13.51-23.Se e

e e

e e.

e.

e 2

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1

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e e

o e

e m.si-n.se e

e e

a y-r s3e _ se __

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a e

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j 10fAL te 7

29 7

4 S

4 2

s

$3 J2 87 2e 36 17 33 233 g*_

l g*

aa 1

i i

l l

ette FEAul2 JFe CT es-eETERS FOR Jne et] 1987 SITE IM wilFitJr FERME2 SATA PL.Ise EXAAflEO 7/ 1/07 - 9/30/97 000 3RD SuaRTE3 1987 000 i

STASILITY CLASS e

7=4 STASILITY SASES Set 14 24....ES I;ING tEASURED AT: SE.e WTE I

CINo 7981ESMete AT: e.7S arts f

JeInf FHESUENCY DISTRISWTISIG OF Wlle SPEED Age SIMCTICII IN MOURS AT M,M METERS 1

setto raemi a

som er Ent t

Est st - Sst S

Sss se use a

sus ser esar n I

CALn 6

j o.n-2.Se e

e e

a e

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e o

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2.51-4.Se e

e e

e

.e e

e e

1 e

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1 2

4 4

2 2

1 e

e 2

e e

1 e

2 22 l

C.SI-S.58 1

2 1

2 e

e e

4 e

1 e

e e

3 1S O.S8-11.94 J

3 1

e e

1 e

e 2

e 4

3 5

8 1

4 33 1

11.51-14.Se 4

e e

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1 10 3

8 14 9

1e SS j

10.51-le.Se e

G e

e e

9 e

1 1

2 7

3 e

e 14

.e

.e I

I

.I

.e e

e G

9 e

e g

1 10.S1-*3.50 e

3e.51-3..M u.51->e e

g

.M e

l ufA

-l I---!

i-!

1

,l,1 rf

,1

,1 rd j

STAtiLITY class ALL STASILITY SASED SII l=A $=G....ES 7-8 Lise etASunto AT: eE.e IETE i

j CIMO 7951ESNeLD AT: 9.75 trH

]

JelNT FIIESUENCY 'JISTRIOUTIcet OF Wise SetES AND SIsECTlatt IN HOURS AT M.M IETERS l

T'tE9 raemi a

sost est tw E

Est st Sst S

Sss se use a

sus se seer IRIS, CALM e

i O.74-2.50 e

e e

e 2

2 e

1 1

e 9

e 1

e 7

)

2.St-4.50 3

S 1

1 3

7 4

e 1

2 1

2 2

3 3

S S2 4.St-S.Se 9

5 e

9 16 11 14 15 e

16 16 4

7 11 S

7 let i

S.51-S.Se le S

IS 18 17 le 2S 28 24 25 13 17 11 1e 18 17 203 0.5h-11.50 18 15 13 31 12 45 33 37 77 83 75 48 44 35 24 31 643 11.St-14.Se 7

17 27 21 31 15 18 22 35 78 113 S4 3e 54 36 38 004 14.51-10.Se 4

9 to 17 23 24 14 S

12 SS S2 31 Je 34 17 12 345 mmm t

13.58-23.50 e

1 7

8 7

1 3

7 9

4 S

le S

S se g*3 l

23.51-30.Se e

e e

S e

o e

e e

e S

-c

.C

i 30.51-36.50 e

e 9

9 e

e e

a e

e

'3 3 a __ig see 7 leg a

e e

a e

i no se a

e a

e e

a e

109 its 22e1 o

totat st 58 13e se ses 320 is7 118 see 243

= ::.

33 0

l o

l 3

l l

\\

l

O r2 YmIIFOR:~f E tt esta PE_see Emmsefute: 7/ t/97 - 9/Je/97 ees JnB euteTEA 1997

- S 7"O SfASSLITY SASES SS 184 9"G....ES eae estAsunte AT: e4.e atTE C se IAoE9Moto AT: 8.73 esPM 19fAL O M M WON Ynfl#fSt 22Gf TeTAL amaserW W VALIO Ob5EftvATIceas: 2301 TOTAL - W MISSIpW GSSERVATIONS:

9 PEntXWT SATA Igr@WWEllY Felt TMt3 PERISS: 100.0 E IEAsl WIIS SPEES FSIt THIS PERISS: 11.5 tRI TOTAL ImmeER GF t=MTIceeS WITN SACitWP DATA:

9 PUCDITAGE SCCENSEseCE W STASILITY CLASSES A

B C

D E

F S

9.S9 1.45 4.77 35.53 40.04 19.59 8.41 DISTRIOUTIcel 0F WIIID DIRECTIcel VS STASILITY N

SeE DE DE E

ESE SE SSE S

350 Se WSe E

WIEN BIE Isef CALas A

e 1

1 2

3 9

e e

S e

e 1

0 9

e C

e 4

6 7

e to 1

e e

15 15 11 8

5 e.

O e

e 4

1 1

8 7

4 e

e

.e 1

7 e

4 1

1 e

e i

e 19 18 37 48 58 ee 7e Si se 99 75 44 3e 3e 4e 25 e

i l

E IS 21 81 3e 34 42 34 se es 129 13e 79 48 SS 33 3e e

l F

to 7

29 7

4 S

4 2

8 13 32 17 to 34 17 33 e

l C

S S

4 8

4 3

2 t

s e

IS 9

18 24 se 29 3

TOTAL St SS 130 SS til its 117 tis See 263 200 100 137 195 let lie e

l 1

2: E

st r u2*

aq -

==.

3B b

O 3

l

Effluent Rel:ase Report February 1988 Page 76 e

JOINT FRE@ENCY DISTRIBUTION (JFD) AT THE 60-lETER LEVEL FOURTH @ARTER 1987 1

9 4

I l

e f

~

,--.s, e-

--,a-,-w,e---,-r-

n-v.

-~

e a.a r

TITLE:

MCG FE8mpf t JFS AT 06-41ETERS FOR 4TN STR 1987 I

stet 7 MTE:

C7 SG 1 1 1,

t e SATE:

87 12 33 24 l

ePfleet 79 PIllNT IsWNTMLY JF30: IIe SPfleet TO Petterf waansaas Jrger seg i

SPfices Te Pelleff STABILITY SY leguR er SAY: NO i

j GPTIces TO PLACE JFS IN FILE FestaATTES Feft PAVAft: NO

}

SPileet 79 USE 12 3518 SPEES CLASSES IIIPUTTES W3te SPEES CLASSES IN IIPN's 0.75 2.50 4.50 0.58 e.Se 11.54 14.Se 10.50 23.Se 33.53 33.93 g 3e i

4 l

PItteeAftY KASWIIKKIffS SASES SIO:

t WItap SPEEg naramuary AT es,g egyEttS get IIPH I

1 SAS Wise SPEES SATA Of8 SED: 809.90 WIIe SPEES TeeKSeeLS: e.78 trN I'

Wise SIECTlet Em AT 08.9' IETEftS SAS WIIe SI8ECTleII SATA C00ES: 999.e STABILITY SASES set f=A.2=5.... 7=0 BMs STABILITY CoeES:

e.9 l

BACK-4F N SASES 90:

see SACstuP vise SPEgg naaeumrasrarTS MS SAC 8tWP WIOS SIRECTleet narasserartfTS l

l 400 SAC 3 tup STABILtTY IEAetNEREstTS I

WISS SPEES MEleNT 19 SE USES Felt JF9: 90.00 E TERS i

l l

COWWEltSICet FACTOR 79 CesNERT SletIA RAIGC TO SIChl4 THETA:

0.9 FesteAT TO IEAS 199UT SATA: (412.130.FS. I.F3.9.T17.F1.e.TSS. AG. 74e. A3. A3.T27 A f )

?e5 Tc

$c.

FIRST SATA RECONS LEAS: FElati2 37 1 1 1 7.e 190.3 4.s moo N ~.,

i

~

G i

05 "

e

II '

,e i

o l

l l

en w e n suse s s e As so-at stas t ems o s s e s:: swer sitt forsersFster Ftmel2 Mrs PE 83e tarAAsilOs te/ f/07 - 12/3f/07 see CTM cuselit31M7 ose 1

STASILITY CLASS A

STASILITY MSED Sul 9=A S.=0....&S 74 am wAsunto Ar d. w it Cffe DetESNOLo AT: 0.7e trH JefNT FMteutteCT eISTRiguiless GF WIIS SPEED Afe eINECTIOff IN HOURS AT G4.00 KTERS SPtte fwnal N

9eE gE EM E

ESE SE SSE S

SSW SW 39W W

30s 33 ges g catu 0.7s-2.Se e

e e

e 2.51-4.Se s

e e

e 1

.e e

e e

1 3

4.ss-e.Se e

o e

e e

s e

i e

e e

e 1

2 0.st-e.Se e

e e

e a

2 2

0.51-11.5e e

e e

e S

e e

e 2

1 3

1 e

e e

1 e

s 4

14 1.1.51-14.Se

.e

.e 2

.. -l.S e

1 i

i 18 e

u. 1-n.

.e 3

2 i

u.

3 e

1-...

e.

3 1

Je.S -30..

e e

e I!?A

--!--I--f

--?

--I I --I f -d

,f l

1 STASILITY CLASS e

.i STAoILITY eeste est 1.A 34....ES 7-9

.jge; agaesare AT: th.eIEft LIIID TleltSMOLe AT: 9.75 arts Jeletf FilteutICY elSTRISUTIces GF Wits SPEED Age eISECT!ael IN HOURS AT 00.00 bETERS i

SPtt$

t rapua N

gee IE EE E

ESE St SSE S

SSW SW WSW W

WIN IW tes M i

CAtte O.76-2.Se e

e e

e 1

e e

e e

e 1

e 2.59-4.50 e

e e

e S

e e

1 e

e 2

4.S1-e.50 e

e e

e 1

1 9

e 1

1 3

e 1

1 9

}

e.51-e.Se e

e e

e 9

e 2

2 1

0 1

1 7

e.51-11.Se 1

e e

1 4

e 9

1 e

1 1

1 3

1 le 11.51-14.50 3

e e

J e

e 1

1 0

4 2

4 3

3 4

2 27 go'$

I 13.55-10.*4 2

e 2

1 e

S 2

9 9

9 3

9 e

3 3

4 30 10.51-23.5e e

e 3

e e

e 9

e e

1 8

2 1

1 2

e le e25 m3 tr -

1 23.SI-39.50 e

e e

e S

S e

e 2

2 e

e s

y=

3 l

30.51-38.Se e

e e

3 e

e e

e 1

sq -

sme_se a __,__,3 a a a

e a

t e

ea e

e e

i m

totAt e

e S

1 e

1 4

2 e

is 1:

23 s

11 s4 s

1:2 ii" *.

1 w=

.m I

V O

i i

l

we sw e a sens e e e me ee-am esso e em eu we

- =*

ss9E estet#Ffter Ffouff l

esta PELise (NAnfleE.h 90/ f/07 - 12/3f/07 see 4TN eMAflTE3 f eet ***

STASILITY CLASS C

4 STAetLITY EASES sel $=A 24....ES 7*e clos es[A9URED AT: SE.e WTE i

Clas TestESMote AT: 8.75 to'98 Jolsti FREeWNCY etSTRIstfTleII GF WIIS SPEED Age etAECTI0st IN MOURS AT es.se IETERS i

SPEEe j

faenan N

lost pg ENE E

ESE SC SSE S

SSW SW WSW W

WW IN ges M I'

CAtas e

e.7s-2.Se e

e e

.l 2.Si-4.Se e

e o

1 e

e 1

e e

e 2

e e

1 7

e.Ss-e.se 2

e o

e e

e o

e 2

e e

1 1

2 1

1 to 0.51-e.53 e

e

.e e

e 2

e e

2 2

3 1

3 S

e to 8.51-11.50 3

e e

9 3

e 2

1 1

3 6

8 8

3 e

2 43

$8.51-14.9e 2

e 2

3 1

9 4

1 1

4 5

.e 3

e 4

1 es 1

to.51-18.Se S

I e

4 1

3 4

e S

e s

13 2

g e

4 se I

it.Si-23.se 2

e si e

i e

a e

e S

si ii i

3 i

2 s2 j

23.58-38.98 e

e e

1 3

e e

e 2

7 1

7 e

e 23 30.SS-3e.Se e

e e

e 2

e e

S e

e e

e 4

AL I

l I

t STAeILITY CLASS D

i STASILITY SASte est l=A 2=0....ES 7=0 Else NEASueto AT: 80.9 IEETE CIDED THRESMOLD AT: e.75 MPH i

{

Jeleff FREGUENCY elSTIllelffisel SF WIIS SPEED AND DlHECTIces IN HOURS AT 00.00 NETERS mE.

i faenal a

seg pg Egg E

ESE SE SSE S

SSW Se 39s W

SUN IW sem 3g3, i

Catu O.76-2.Se 1

e 1

1 e

e e

e 1

e e

1 e

1 s

e 2.Si-4.Se 3

1 e

e e

e o

e s

2 1

1 2

1 e

13 c.Ss-e.Se e

3 e

e i

e 3

4 2

3 1

2 3

s 2e 1

s.St-e.Se s

2 s

e 2

1 3

s S

3 1

e s

e 3

4 47 e.SI-II.Se le 2

4 S

2 4

8 e

7 4

S 23 7

e 2

11 Ste 11.51-14.54 e

4 7

2 4

11 2

10 19 12 22 28 14 11 13 17 17s 10.51-18.54 14 3

e 3

3 e

e 6

12 25 32 53 14 12 25 25 240 umm 13.St-23.Se e

1 te e

5 e

4 2

5 le 27 45 13 13 6

7 173

- 2 2

e S

11 le II s

3 Se

$Tc 3.3.51-33.50 3

.e 4

.e e.

.o

.e 6

1

.S -3e.S 3

4 4

2 c-

fd'

- d a -d J

J J

if A

J J

ia u!--d J -d a'

4i l

E:-

"D

. ~

O

.'I I

r

NE IMfIFIE3r"EEIliff 2

~ * ~ * * " ' * " * ~ ~

SATA PELles (NAIB$NES: 13/ 1/97 - 12/31/e7 ees 4T96 GuaitTE:31997 000 STASILITY CLASS E

STABILITY MSES Get 1=A 2=S....ES 7=4 ein waSmEs AT: d.e wTE close 71stESeco<e AT: e.75 ane JelM F11EGWesLT DISTRIGUTIcel er 3RIS SPEES Ace SINECTIOet IN MOURS AT 00. 0 IETERS SPEES fasunal N

test M

Egg E

ESE SE SE S

SW 95 WSW W

WW IN 13 5 M Ca

. 1.tu

.e 2.51-.2.S e

.S e

1 2

1 1

2 1

1 12 4.51-S.Se 1

1 1

3 8

9 1

4 9

1 1

3 1

2 2

e 21 S.51-S.Se 1

1 3

^2 9

e 1

5 4

1 2

4 1

1 4

1 31 S.SS-ft.Se 2

3 1

7 2

2 2

9 9

2 8

13 22 e

7 e

se 11.51-14.30 2

e 2

8 13 5

1 e

19 le e

1S 29 1) 9 e

141 14.51-19.Se 3

2 e

1 e

3 4

e 14 2S 43 29 2S 11 3

1 See 18.51-23.90 1

e 1

1 e

1 4

4 5

11 29 11 9

4 2

1 7e 23.51-30.94 9

8 4

1 S

S I

e 11 12 7

1 8

9 9

0 42 30.51-39.5e e

e e

9 3

4 2

0 O

e e

7 TO AL 1

1 18 i

STASILITY CLASS F

STASILITY MSE3 0881=A 2=0...EES 7-6 Clee NASmEO AT: SE.8 MT com TmESuoi.e AT: e.7S is N JDieff FntgKescY DISTRIstpflest.F WI83 SPEES Age SIIECTIces IN 000URS AT 00.00 RETERS N

Iest IE EBE E

EN SE SM S

SSW SW WSW W

WW 98 5 Ism =6 CA<m i

o.2.- 2.S.

e 1

1 i

2.51-4.Se S

e e

e G

9 e

e e

e 9

2 9

9 9

1 2

4.Si-e.Se 1

e e

e 1

1 e

o e

4 o.51-9.Se e

e e

5 4

e e

i 2

e e

le 4

9.31-11.50 2

e e

e S

1 3

1 1

1 7

9 4

4 9

2 41 I

11.51-14.Se 3

1 8

9 e

1 4

2 9

S S

4 7

6 4

0 42 l

14.51-1s.50 3

1 e

9 2

1 3

3 4

4 7

1 4

19 2

3 46 2."" Q 19.S1-23.8e e

1 e

e e

1 3

2 12 e

t 9

0 e

25 ao cr -

3.51-30.50 1

e.

.e

.e 4

3 2

.S

.e 9

9 1.e e25 2

9 e

e S

.51-3.S I!?."

--I

!H 3 --I 1:

1:

it if 5!-d-d nf

,1 2;

1 1.

g*

l ce$

1 e

Ea

Sift 80Ew11 RIES: FEmisIt SATA PE% ISO ENAsetNC: 10/ 1/97 - 12/31/07 l

ooo 4TH GUMtTER 1997 000 i

STABILITY CLASS S

STASILITY SAMS ON t=A 2=4...ES 7=6 LIND asEASURED AT: es.S TE CIND TMRESNOLO AT: 0.75 MPH JOINT FRESUENCY DISTRIOUTIGII er WIIS SPEE9 ABID DIIIECTION IN HOURS AT 00.00 as[TERS SPEED faspent N

last E

EE E

ESE SE SSE S

S$5 SW WSW W

WW 11 5 pas IgIAL CALM S

O.76-2.90 0

1 e

e e

8 9

9 8

8 8

9 9

e 1

2.59-4.54 1

e G

e e

e 9

9 9

e e

S 9

1 1

e.

3 4.51-S.Se 1

e e

e G

e e

I e

e 8

1 2

e S

6.St-S.50 e

e e

S e

9 e

1 1

0 0

2 4

1 1

1 11 i

S.S1-19.50 e

e e

e 9

1 2

1 1

1 e

9 9

9 e

j 11.S1-14.50 e

e S

e e

2 3

1 1

0 9

9 e

e 3

j 13.St-te.se e

e o

e.

2 4

2 1

2 e

e o

e e

11 i

18.51-23.50 e

e S

e e

2 1

1 1

5 e

e e

9 e

le i

2 e

e e

e S

e e

e 3.3.51-38..,.90 9

.e e.

2

.e

.e 2

.51-3 S

e

?!? 2 - - I - -t - 1

--I

?

1; f

I -f

--f --t -

sl i

j STASILITY CLASS ALL i

c.m.iu.TY a.nsEs su s-a 2 e...as.e Si 7

E.

.1, es..

w 4

1 cINo rNRESnoto AT: e.7S isen Jeleti FREQU[9ECT SISTRIGUTISH OF WIIe SPEER Afe DIRECTICII IN HOURS AT 00.00 asETERS i

SPEED faspeen N

geK E

EE E

ESE SE SSE S

SSW SW WSW 3

WIN 95 tem IRIAL Ca 1

c.1.tu e.

-2..

i 1

1 i

2 2.51-4.54 S

1 0

1 1

e, 1

S.

4 3

1 S

3 5

4 5

44

.S -..S.

4 2

3 3

S 1

7 8.S1-S.Se 4

4' 4

2 3

1 4

17 14 c

7 12 16 13 14 9

133 S.51-11.54 18 S

S

$3 7

8 13 12 24 12 2S se

- 3e 22 29 23 set 11.S1-14.5e 24 S

41 11 18 to 15 23 22 44 44 81 47 45 4e 3e 455 16.51-18.50 27 7

12 e

14 15 IS 13 37 74 84 97 45 44 52 38 S9S Tmm 23.St-3.3.50 13.59-2 12 2

2S 10 7

7 10 4

14 38 SS 80 15 22 IS 13 368 E*3 i

30.Si-3..Sw 14e.

3 3

e S

S 13 e

1 6

14 23 23 21 7

14 3

1 e'Co

.i

.S.

e e

e S

1 0

1 4

e is e

e e

e 2

133_58 e

eJ e

7 e

e e

e 4

4 3Q e

A 11 q-TOTAL 97 29

$4 49 St SS

$2

$35 212 341 4

100 175 164 128 2164

,g U::

=

I Ba l

a

Mt7 Flauf f 'JF7 AT co-mLIERS fur 412 Ctm geeF satt sernver: Ear rEaus2 MTA PE les EIMapleC 19/ f/97 - 12/3t/s?

coe 4TM OLWITE2 fee 7 000 STASILITY MSES SIB 9=A 2=S... AS 7=8 no w asumEs AT: es.e wTE ine TMRESNeLe AT: e.?S SMS

~

MTAL amasarst y seggggflGNB: 2194 MTAL nam y ut3g eggEnv4TIGIIB: 2964 MTAL gamSER W NISSIEW GEEERmileNB:

e j:

PEACDef MTA MCWWEIN FOR 19 TIS PEltISD: 100.9 5 at l'

misell Wits SPEES FSIR THIS PERIGO: 15.3 WM

>3TAL anaEER W eggEINLTISII5 WITH SACERN' MTA:

0 PERCDITAGE SCCMWIENCE W STABILITY CLASSES p

{:

A B

C D

E F

e 2.98 S.18 13.49 4e.e2 26.94 8.73 2.00 DISTRIOUTIODI 0F WIIe DIRECTIcel VS STABILITY 88 8eE IE EM E

ESE SE SSE 3

SSs Se 33s 3

gas em som CALM A

2 4

4 7

1 23 18 S

e e

5 1

e 1

4 2

e le Il 23 e

il 14 e

e c

14 2

13 17 13 3

13 2

e 25 se 83 to 39 24 11 e

i o

54 to 33 2S 25 25 17 33 43 77 tee see et se SI 73 e

E 19 7

12 21 2e 18 to te se 74 es se 73 41 34 le e

F s

3 S

2 9

le to to 12 34 15 29 22 IS S

e l

8 2

1 e

e e

2 7

Il 7

4 9

3 5

4 2

1 e

TOTAL 97 29 SS S4 49 51 98 82 131 212 301 347 100 178 SS4 328 9

2e 5 '

see Sf 5

-?

U*

w O

a

2

.~

Emu nt Release Repsrt F;bruary 1988 1

-Page 83 s

9 0

JOINT FRE@ENCY DISTRIBUTION (JFD) AT THE 10-lETER LEVEL IM7 P

b i

9 4

9 t

l m

en

,e,n-a,,_

Effluent R lease Report February 1988 Page 84

~

8 4

a g.

d 2

i a

e a

2-2 E

i.

i ed

,n [

e 4

5 J

i m

n!

E.i 1

lil :s -

~

y i

e e

u i

l=.=

- e.g.

i 1

' R,I

,,[

R 41 2'4 nge-

=:litllg

_i

'*lil

1lja l

?i s

I g y le

'e l l

=

aI

=

ac t._

12.,

-_ e gla I:Ellij"!

' E g

a l

!!e!El lll!Ii I g

..in I

iricus

,is;ig

% a s n l

n. =

r e i gcessesE s

s a

==,iss=isg i I

8 cinsiss l-l.

e a

e

MCs Ftfatti JFS AT S M tells FOR 1987 Sitt leENTIFIEn Frault DATA PERICO EXANIES: 1/ 1/97 - 12/31/97

... Asesunt...

STASILITY CLASS A

7=S STASILITY S49ES 818 t=A 2=G....ES LIsso aEA9unts AT: SE.e IEft CIse T18tESee0LD ATt 9.75 trH Jetsfi FMcMEsICY SISTRIEUTIest GF Wlte SPtts AsIB DIMCTICII IN HOURS AT 10.90 ETERS fMPM)

N ISC DE EE E

EK W

SM S

SSW SW WSW W

WW 35 ges ]g]g, SPEtt e

8.76-2.90 9

9 9

0 S

S C

S 8

8 8

G S

1 S.

e 1

CALu 2.51-4.Se 1

1 e

e e

3 1

e e

e 1

e e

2 e

3 12 4.51-S.38 1

1 4

1 3

1 2

9 1

4 3

8 2

3 7

3 3e S.SI-S.Se 9

1 7

2 8

S 2

8 1

S 2

7 S

S S

4 se S.51-11.Se 9

9 19 4

2 S

1 1

8 9

5 4

3 5

13 6

SS 11.51-14.30 9

1 7

1 2

2 1

9 9

3 3

1 2

S S

S 38 14.51-19.9e e

1 3

8 9

2 8

0 9

9 9

9 8

1 0

9 7

18.S1-23.30 9

3 0

9 9

3 j

9 9

9

. 51-

3. 51-u TO AL 5

8 2

14 2

STAetLITY CLASS B

7=S STASILITY BASES et! 1=A 2=S....ES UItse aEASunED ATs SE.e sETE Cite THRESMOLO AT: 9.7S frH Jeltsf FREiAENCY DISTRISWTIost OF Wile SPEES Afe DISECTIdel IN HOURS AT 19.08 IETERS fasPM)

N SSE 3C EK E

ESC K

SK

$$5 SW WSW W

WW BE B305 ]g])[,

SPEED e

G.78-2.Se e

S S

e 9

8 1

8 8

1 9

9 0

8 9

9 2

CALM g a's m m

e 1

1 7

4 8

9 1

1 2

4 2

1 3

23 s

1 2.51-4.50 1

S 2

4 1

3 2

2 4

s S

S 4

s 3

6 e -* C 4.Si_..S i

1.9

.gg S.St-S.58 5

9 3

2 4

2 1

2 2

4 S

11 S

3 9

5 S

s.Si-n.S.

S i

a e

3 S

4 e

i 32 13 e

1 1.

is 34 11.51-14.58 e

2 7

1 5

7 3

1 8

4 3

3 4

2 4

2 48 ui ' --

4 14.St-18.Se e

e 9

9 1

3 e

S 9

9 1

1 3

2 1

e 21 y

18.51-23.Se e

2 2

9 9

8 9

0 8

8 9

1 8

9 1

1 7

e 23.51-30.Se 9

1 e

e S

S S

9 8

1 0

0 8

9 9

0 2

m*~

w ;*

30.S1-39.50 e

e e

S 9

8 9

9 9

9 e

o e

sse se e

e a

e_a e

e a

e ea ea TOIAL 12 7

34 1S 18 2S

.S S

S 27 31 38 26 23 3S 31 341 S

O

'l

~. _ _.. _ _

etce rSus2 JrO ct to-enec3 eest awea SItt 88EN13FICJ FlasI2 GATA PEGlee tumseteED: t/ 1/97 - 12/31/97 ooo Assesat ooo STAelLITY CLASS C

STASILIT 7=4 Wise sE.Y 9 49E S G.H ie A M....&S sunte r: 14.e seTr WIIe 19eESMete AT: e.75 arn Jeltif FHESIEICY DISTRISUTlest er Wife M AfG SIIECTleN IN 98WIS AT 10.00 RETERS SPEtt faenal u

gag a

gag E

EK St SM S

SSW W

W95 5

35 35 ges ]ggg e

cALas e.7s-2.se e

e e

e 1

4 2.St-4.50 2

3 e

1 S

3 1

e 2

4 S

2 3

4 4

3 42 4.St-e.Se 1

2 S

S 3

2 2

e 2

13 11 13 11 e

14 3

et s.S1-e.Se S

1 7

3 11 S

S 2

S IS to 97 12 12 to 3

134 S.51-11.Se 1

2 17 14 9

14 13 3

4 17 20 23 10 14 19 to 200 11.S1-14.90 3

4 e

11 6

22 11 1

3 1

17 7

S 4

4 11 Its 14.91-1s.s0 e

2 11 4

3 2

e e

1 e

1 7

1 e

3e e

e 1

2 2e

~

18.St-23.se 4

2 e

e 3

1 e

e e

e 3

4 1

e.

2 e.

e.

.e e

2 e

e e

3 e

e e

23.51-30.90

=.SS-=.S.

TO AL 4

4 i

h STABILITY CLASS e

f f

Bi 7e ei.a.eIL.ITY.G.M.ES e.st 9.A 3=e.,m3 r.

14..

4 I

elte iteIESMete AT: e.75 taPM 1

JeIIff FREstENCY DISTRIeWTIces GF WIIe SPEtt Ass eleECT1000 IN 98UstS AT 10.00 RETERS 1

artte a-mi a

nur a

as t

tw st SSE S

Ss=

so was e

uns as

== zana 2

l CALas 9.78-2.Se 2

2 4

2 e

e 1

S 1

2 2

e S

2 3

4 42 l

2.S1-4.Se is 7

e 3

le 11 7

4 to 21 21 22 17 17 15 le 21e 4.S1. e.Se 24 18 17 21 22 25 39 18 St S1 48 Se 37 44 4e 44 Ses 4

8.St- 0.50 31 24 SS 42 26 37 82 42 83 77 197 103 35 30 M

30 e2e 0.51-11.Se 30 Je Se4 SS 77 02 76 70 84 77 Se 91 S7 42 67 Se 1991 j

11.51-14.50 28 24 e9 39 34 37 22 22 0

15 39 35 27 13 17 4S 430 14.S1-18.94 2S IS Se 29 9

4 s

J 7

S 13 17 31 3

e ft 225 le.St-23.Se 14 s

3 e

4 e

i e

e e

2 e

e 1

1 S

so 27Q

]

=. S 1-=..e e.

e.

1 6

e.

23.51-30.S 12 e

8 0

e e

e 13 e.n a.

a s.

th" nf 54 nf 1.1 11:

21: - n!

21:

24:

55!

551 n !

nl ut at:

nd 25 A j

E!.!

3 e?

O 3!

i l

l

l gEc. F.E.utt JFS AT.10-4ETERS Fest 19 7 MTA PE.u.f.IFIE. FE Ist2 SITE 3 E I

EXAffl0ED 1/ 1/.7 - 12/31/.7 ese As nhL ***

STA.ILITY CLASS E

.STA.lLITY.4S.ES Get 14 24....ES 74 1E.. RETE fm. I AT:

.Its it.EASU.E.

ESM.L AT:

7StRe J.11tf FREttE9EY DISfRB.UTION.F WIIS SPEE. AM. SIMCTI.I6 IN le0MRS AT 3..

BETERS SPEES 1

N 1.E IE EDE E

ESE SE SSE S

SS.

S.

5 EIN IW It

. 7.- 2.9.

7 4

5 4

1.2 8

S 7

7 7

13 19 2.

1.

2.51-4.51-.4.S.

9.

91 4

14.1.

11 1.

2.7 31 42 54 71

' S.

43 23

.S.

29 Il 1

15 23 33 35 41

.S 1 11.7 4

1 9

77 82 4

13

.St-..S.

23 15 1

9 4.

32 4

29 3.3 2

17 27 32 45 3.2

.St-11.S 13 42 r

I 13 2

49 JS S4 7'

24 1

14 1

11 442 11.51-14 5 13 1.4. 51-1..

.I 1

1 3

1 11 1!

1,7 i

141 7

P 3

1 S

4 S

2 2

1 I

.S t-u.

1 3

2 3

m.S - =..S.

4 2

1 I

.I 2

u. S 1-=.

13 I

I"e --d

,8 nl,I ni,d i4,d nf 5d 5d nl nf,A u!,A nd STA.ILITY CLASS F

.STA.ILITY.

Fs88 T0.EASU.4S.E. Gel 14 2=S....ES 74 DW B E

ATs SE.. IETE E SM.L.

AT: 9.75 GMt J. INT FIEGRENCY DISTRI.UTIGIf GF Wits SPEE. ABS.INECTI.et IN 90.URS AT 1..

BETERS

- E.

.m raenal 88 I.IE SE EIE E

ESE SE SSE S

SS.

Sir WS.

W EII.

85 8.e5 IRIAL e2 CA

. 7.tes

- 2.S.

34 S.

1 S

1 1

1 2

4 4

4 1.

12 to 7S NQ o.

2.51-4 4.51-. 5.

4 14 S

3 S.3 32 41 54 45 33 24 34.

.S.

1 4

.31-11.5.

1 2

13 7

2 2

231 24 14 2

2 25 51-..S.

7 4

4 15 12 1

7 2

2 11.51-14.5 1

1 4

5 co 3

7 13 7

1 1

1 9

2 2

53 op I

1 3

1 S

12 14.51-1

.S 2

1 4

2

.u. 51-=. 5.

1 2

2 1.51-23.

13 2

2 S

.S1-=..

1:12 E

a --n a

s A

a a

a

,1 s-1-

1 a

at

SECS Feast 2 #9 AT 1MTERS FOR 1997 SITE ISENTIFIER: FElef t 2 SATA PERIOS EMAAfitKS3 1/ 1/97 - 12/31/87 eee AnnanL ***

STASILITY CLASS S

STAStLITY SAMS SIS 14 34....ES 7=4 Llee utAsumES AT: 1E.0 MTE Cite TestESMOLS AT: S.75BRt JOINT F11EGUENCY DISTRISUTION OF BIOS SPEES AfS OINECTION IN NOURS AT 19.00 IEETERS t

fasant 30 peIE IIE ENE E

ESE SE SSE S

SSW SW WSe W

EIN IE

.Iem 2314L Cats e

0.7s-2.Se 2

2 e

1 1

11 4

S 3

3 4

8 48 2.51-4.58 17 9

1 2

1 3

S S

19 14 26 32 29 S7 17 30 263 C.St-S.Se 7

0 0

2 9

8 8

2 4

7 4

8 4

11 9

le 73 S.51-5.50 3

9 8

2 7

15 t

3 S

2 2

1 9

9 9

46 S.51-11.98 8

8 9

9 2

9 ft 4

1 8

4 1

8 9

9

.2 33 11.51-14.50 2

S S

S 2

2 4

e S

e 0

0 0

9 9

9 12 14.31-18.50 9

9 9

8 4

1 0

3 9

9 9

9 8

2 19

(

19.51-23.58 8

0 9

9 9

1 e

e e

9 8

9 9

8 1

3.3.S1-30.98 9

9

.O

.O 2

8 9

0 8

9 e

e e

e G

8 e

S

.51-=.S.

l!

TO AL I

4 4

S STASILITY CLASS ALL STASILITY BASES SIS l=A S=S....ES 7-6 CIts es[ASumte AT: 1E.9 IKTE Case TesIESMDLS AT: 9.75BRI J011rf FREGUEIECY DISTWielfflGIS OF WilS SPEES AIS DIfEC1 Met Ill HOURS AT 19.00 RIETERS SPEED fasesi N

lEEE SE EDE E

ESE SE

$$E S

$$W SS WSW W

WHS 95 ISE ] RIAL Cum 9

o cr @-

2."

0.7s-2.98 15 13 10 8

1 4

9 15 15 2S IS 28 22 26 48 38 2e5 2.58-4.Se M

29 11 17 37 47 41 2e 89 fle 149 183 17e ISS 113 tes 13ee 4.St-S.Se 77 44 44 47 SS 77 192 SF 110 192 109 196 157 148 147 131 1783

2, 0.S1-S.54 74 42 98 75 79 93 135 199 183 235 23e SM SS 199 191 SS 1998 co e 3 0.51-11.Se 54 49 181 12e 128 115 124 148 112 179 22e 152 93 SS 128 115 1998 co.2 **

11.51-14.5e 35 32 124 SS M

7s 51 45 27 44 79 49 48 33 33 SS SGS 37 13.51-18.50 26 22 SS 25 25 17 ft 14 13 12 17 2S IS 13 8

15 353 13.31-23.5 18 15 n.S -=. 0 u.

.i 2

2 8

1 3

S S

S 1

3 8

se l.e

.G 2

2 co 23

u. S -=.

3 4

e f.V n!

nt n!

n!

44 4J 44 44 SJ 74 9.?

.J a?

n!

.nt nt

.4 r

aa w

e-

-J

I gree Ffest2 s e AT 18-M TERS FOR 9907 sIrt setztIFBER Fiest2.

j MvA PERIGO EXAAlluk 1/ 1/97 - 12/31/97 i

e..

vaesuAt....

STAstLITY BASES G1B 14 2=S....AS 7=4 I

snee m Asunto Av 34.e wit Wise 79stE3000LS AT: SJs arts I

I TOTA 4, annerR y amaramTIGIS: 8098 i

i TOTAt InnsER W Wel.19 GESGWATleeIS: sees 1

l M TAS,ammerR y 33333333 gegERVATleIIS:

S j

MnCElst SATA RECW4titY FOR 7918S PERIOS: 100.8 E EAft WIIS SPEES FOR THIS PERISS:

7.9 IsPM TOTAR, taasER W SEWERVAT!sseB WITN SACsWP DATA:

S i

s j

MflCEttTACC OCCLAIRENCE F STABILITY CLASSES A

S C

D E

F S

i

}

2.59 3.92 7.83 48.38 M.37 9.00 S.Se i

DISTRIBUTIOff W WISO DIRECTIS8f VS STMBILITY N

BOE M.

EE E

ESE SC SSE S

TSW SW 395 W

EIN IN ISS CALP A

2 0

38 8

13 18 7

1 2

22 14 12 12 23 31 21 e

S 12 7

34 11 18 25 to 5

5 27 31 38 24 23 M

31 e

C IF 94 48 38 42 49 35 8

le 52 42 72

42 Se S4 44 8

}

p fel 127 340 187 191 178 214 172 214 249 330 332 200 166 195 218 2

i E

SS SS lie SS IIS let 119 154 227 327 322 254 21t 164 183 124 2

i F

G4 IS 19 13 22 35 37 48 36 et se 75 73 93 72 SS 5

i G

JS 2

1 5

12 39 45 22 19 41 40 44 37 71 21 81 9

mmm j

- 2 TOTAL 308 248 S74 352 418 434 473 410 St9 799 907 928 Set S92 571 SGS 9

OTc ce om

3 (O Q "

$=

e si i

T3 O

a 3

e

y Efflu:nt Release Report l

F:bruary 1988 Page 90

.4 e

i G

JOINT FREQUENCY DISTRIBUTION (JFD) AT THE 60-MTER LEVEL IN7 r

1 I

-4 1

f d

E l

PetINJewT er leIPUT Celtmet BATO l

TITLE:

MCG FENIII #9 Af es-MTERS Fest 1987 I

MelW MTE:

87 9 8 1 Em MTE:

SF SS 3124 ePYleN 19 PRINT IIIsme.Y XDS: See SPTIcel 79 pit]NT SEA 90stAL X3S: leB GPTIcer TO PIIINT STABILITY WY 9e015t er SAY: Ise GPTIcel 19 PLACE X9 IN FILE Feme4TTES Felt PAVAII: Ble ePTIces 19 USE 12 ffte SPtts CLASM S 38EPUTitt WIM SPttS CLASSES IN IMI :

0.75 2.50 4.50 S.Se S.Se St.Se 14.50 18.50 23.90 30.90 30.00 0.00 4

j PRIteAltY *N BASED SIO:

WIM SPEED MASISES AT 89.9 Mittl5 IN IMI BAS WIIS SPEED feATA C00ED: Oct.e6 58080 SPEED YpWE3080LS: 9.7S hPet l

1 Wits StaECTISII WASINES AT 08.8 KTERS j

SAS WI S DIM CTIces DATA CeOED: 999,8 1

STASILITY BASEB Get 14.24.....M i

j S40 STASILITY COOES:

S.S l

SACK-4F WM SASEs ese:

. -.Is. SP a. - A.i

,3 let SACittr 3I000 DIMCTf9N GEASINEhitiffS 300 SACettfP STABILITY waeamrwaqS WIIe SPEES MEIGNT 19 K Ifgt3 FOR #9: 90.00 ETERS Cesevutsleel FACTest 19 COIeUENT Site 04 RAfsBE TO SIcean THETA:

S.e mmm F0eger.T TO M AS IsrWT BATA: (4II.T38.FS.I.F3.0.T27.Ft.e.TSS.As.T40.A3.A3.T27.A1) 3&3 l

25 rInST oATA MCOND IEAO: FEftlit 97 1 1 1 7.0 190.3 4.9 h3?.

U=

=

l "U

1 O

I 3

4

5 sitt 1.EW2 #9 CI.9-eE8tNS f.88 Iwe#

.tc. F EJ FtanBI2 I

Beta PECI.TIFBEst:

O EllAsplEO f/ f/.7 - 12/3t/97 l

- - AI lAL

- o 1

I STASILITY CLASS A

1 l

STASILITY S.ASES.Il l=A 2.=G....ES 7=4 cne WA9m Es AT: d. wTr CIpe 79.tESes000 AT:

9.7. arH Jeterf FIIEgistsCY DISMISffleet OF Wlte SPEES AIS DisECTIces III leguRS Af 90.00 IIETERS i

1 Serr9 faarnal se p.E E

gg g

(St St SK S

SSg Se 353 3

33 13 3.s g Ca 1

O.7.tas

-2 S

G S

9 1

0 0

S I

2.SS-..S.

S.

2 G

2 S.

9 1

.7 1

... -..S.

2, i

2 2

2 3

1 1

2 2

1.

i 1

1 2

2 2

1.,.. - i..

1 3

1 l

2

.i 1.... - i....

3 i

.S 3

3 22 u.. -23.

2 3

. - =.

2 e

e e

2 1

m.si-n.s.

2 T. AL 2

1 2

1 STASILITY CLASS S

2 e...

7-6 STABILITY.SAMS.It 3-4.E.e IETEES Clee WA ul AT:

Clem T9.IESM.IES L9 AT: 9.7S IrH Jeleff FIEelfEICY DISTRISIffleet SF WIIS SPEES ASW DINCTI.It let 900MRS AT 00.00 IETERS SPEE9 fasrean N

ggE SE EIE E

ESC SE SK SW SW WW W

35 IW 15 M.

Cates O

e t

e 1

0 0

9 9

9

/

2

. 75-2.9 S

3 1

2 1

0 9

1 9

1 0

0 2.58-. 9 1

3 2

1 5

1 2

1 3

1 2

3 3.

. 51-..S.

5

.I 1

2 3

1.1 3

S 1

1 3

1 25

. 51-. 9 1

S 3

2 7

2 3

11.51-11.M.

.t

..SS-1 5

3 1.

7 3

7 S

72

.S S

1 5

1 i

2 ;";

s is is i

e

.i i..si-i.m 2

1.s e

2 3

2 2

2 so cr -

23.51-3.3.3 3

1.51-2 2

2 2

3 2

2 2

2 9

9 1

2, 3

.S 3

S 1

...-n..

11"

,1 --!

3:

.: -d i

J - d W - si

,1 si 19 3.l "ii

1

= ll:.

33 e

e a

w

ceco FESIsI2 Jr3 CT to-WIERS FSgt 1987 ssyt seEntIFit * -rE11mit SAIa PEales EMAAllO C : 1/ 1/97 - 12/3I/ST eos AneSahL ***

STASILITY CLASS C

STASILITY Mere GH 1=A 34...d. 7=0 case rEArwiEs ni d.e wi S CIse 79eAESABLD AT: 9.75 WP90 Micrt FREGUEtscY 9857R80WTf 381 er WIIS SPEES AIS 9991ECTIcel Ist 085URS AT to.00 ETERS SPEES feast N

ISE DE EE E

EM M

SM S

SSW SW WSW W

WW W

ISS M Catu e

0.79-2.SG e

e 2

e 1

e e

e 3

2.51-4.Se 3

1 1

1 8

2 e

e e

2 1

e 2

1 1

15 4.51-S.Se 4

0 1

2 2

4 1

9 2

8 8

1 S

2 1

2 33 S.51-S.Se e

1 4

4 3

S 4

1 1

7 3

5 3

7 7

2 57 S.St-11.Se 8

4 11 18 9

3 5

2 3

9 10 19 11 S

SS 4

122 11.S1-14.3e 2

1 S

te 14 12 8

1 3

8 13 17 9

19 7

8 126 I

14.S8-18.30 5

3 7

7 8

29 4

8 S

18 14 29 9

11 le 12 150 i

13.51-23.30 2

1 14 9

S 1

1 0

S S

17 19

1 8

3 3

es 23.51-30.90 1

1 0

0 9

2 4

9 0

S 1

4 9

9 9

9 38 i

.S 1-1 1

2 S

1 2

13 TO AL 4

1 40 o

STASILITY CLASS D

1 STASILITY SASES SII 9=A 94...d. 7=4 came w aSuite aff d.e mi S i

j Clee TOSIESMDLS AT 9.75 arH JeINT retoutacY e:Sfaserrien er 5:ee SPEEs Ano e:SECTsoes su nouns AT so.se uiteS SPEES 1

faenal II ISE E

EE E

EK M

SK S

SSW 95 WSW W

WW 15 98 5 ] RIAL Catu 4

4 0.76-2.Se 1

1 2

1 0

9 3

1 1

0 0

1 1

2 14 2.51-4.Se S

1 2

3 S

S 7

7 4

2 4

3 3

S 4

2 64 4.51-S.Se 19 13 7

8

,29 15 22 21 18 25 13 10 S

7 9

11 212 0.51-S.Se 14 3

13 13 18 18 4e 31 38 24 13 18 17 22 19 22 317 i

S.51-11.30 28 12 SS SS 29 S2 S1 57 S2 42 43 S7 31 32 34 31 SS7 i

11.51-14.Se 24 23 SS 87 S4 Se 30 22 39 S2 78 78 38 28 38 41 714 2o'$

i 14.51-18.Se 3S 21 73 SS 83 39 IS S

28 Se 74 194 47 41 57 Se 779 eo tr -

13.51-23.3 24 19 77 52 31 12 5

.n.S -=. 0 2

Se, 11 31 SS 37 25 29 28 S22 ar. g.,

17 24 4

1 4

1 i.

1 5

11

=

9 275

.51-=..

12 1

S 1

2 4

35 l

$oSAL d dMM 1s!

17$

14$

te! d M 1s! d 1s! M ii', 5 4ee le

)

1 O

=

1 O

l 3

j l

rIIE leEN18FIEst FEfell2 SATA PE.:.las EXAssiste 1/ 1/07 - 12/31/07 000 AfeIUAL 000 STABILITY CLASS E

STABILITY BAK e SN 14 M....ES M

1:leID IIEASURES AT GE.e ETE CIse iteIESMcLe AT: 0.75IRI JOINT FIESUEICY SISTRlWilell SF Wite WEES A8W DIECTIcet IN pe0URS AT 00.00 IETERS SPEte rases) a seg og Egg E

ESE SE SSE S

SSW Ss 35s 3

sng gee sees ]ggag CALn e

0.76-2.Se e

1 e

e 1

2 4

4 1

1 1

1 4

1 0

1 18 2.St-4.50 3

3 1

2 2

3 8

le 7

5 3

3 S

1 3

4 81 4.St-S.Se S

S S

e 4

5 14 27 le e

12 7

S 11 11 e

145 S.St-

.Se 11 9

11 12 13 le 20 26 24 14 17 IS s

19 to to 24e 8.51-11.5e 20 10 39 23 15 39 23 34 7e 43 63 St to 37 35 33 GOS 13.51-94.5e to 12 35 24 29 IS 12 34 39 82 et 4e Se SA 32 35 eSe 13.St-le.Se S

15 to 19 22 13 11 8

Je se 119 75 44 38 33 29 SSS 18.51-23.50 1

1 e

13 24 9

11 4

16 37 39 33

S 20 S

e 254 23.51-30.30 e

e 5

1 21 4

2 0

14 22 9

6 1

1 e

1 87 30.51-39.5e e

e e

e 2

e S

9 1

4 2

e e

e 9

10 AL STABILITY CLASS F

STASILITY BASES est 14 M.EYEES M

t.Ise asEASURES AT: SE.e I CIssp fleIESeeste AT:

0.7 SBR 4 Jeleff F1IEeutoCY SISTRISWTIcel SF WIIe SPEED AfES DifECTIost IN HOURS AT 08.00 asETERS SPEED faens)

N ISE 8E ENE E

ESE SE SSE S

$$5 SW WSW W

SIIS 95 3000 IgIAL CALes e

0.7s-2.Se 1

e 1

2 e

e 1

e e

e 1

e e

e 7

2.51-4.50 e

4 9

2 4

S e

2 1

2 e

3 2

1 2

3 40 0.51-8.50 3

4 S

S 3

2 4

5 4

1 4

4 2

e 1

2 S1 0.51-50 3

2 9

8 7

4 4

7 IS 3

3 S

le S

3 7

et 0.51-13.50 ft 13 17 e

4 s

7 le 9

9 31 11 13 13

,le 15 les 11.is t-14. S.e e.

9 8

8 u.

13 8

3 3

7 15 2

29 27 33 le 20 219 2.4 n.S -10.5 9

4 e

e 3

35 i.

24 S

7 iS4 y;

.,g 1s.Si-23.Se e

i e

e s

e i

4 n

2 i

i e

S4 23.59-30.50 e

1 1

0 S

7 1

4 3

e 2

e e

e 0

0 24 e2E_

30.St-39.Se e

e e

e 1

e e

8 1

ees sie se e

eJ eJ e

e a

e e

e

-e awa e

g q-total 4375 44 23 37

.4 32 44 4e 53 109 7e 72 ii 49 SS m3;

,g IF

==

>=

w

-o5

eECG Ffluf t2 JFe di es-WIEftS Felt 198F

~~ %'

SITE IeEffilFli.J FEleft2 DATs PE Ice EXAsellEEJ 1/ f/97 - 12/31/07 00o AsesUAL oeo STAe!LITY CLASS S

2 0...

7-0 STASILITY EASES SN SE.etsETEES CINE asea 9ustED AT:

l CIpsD 198tESNOLS AT: 0.75 IIPM I

JeletT FREGUENCY DISTitlWiffiset er WIIS SPEED Afde BIIIECTiest IN MOURS AT 0s.00 ETERS f

SeEEe fasPM)

M tee E

EE E

ESC SC SSC S

SSW SW WSW W

WW Im som M e

CAtu 0.76-2.94 e

1 2

1 1

e 1

e e

e 1

e s

9 e

1 e

2.St-4.Se 2

e e

1 2

e e

1 3

2 1

e e

1 1

2 to 4.51-e.Se 3

2 e

a S

3 3

3 1

2 S

1 1

3 0

3 St 0.51- 0.54 2

4 e

5 2

2 1

2 2

7 2

4 S

s 2

5 95 i

O.51-11.Se e

s 1

i e

4 1

2 e

7 e

it le 3-e 7

p2 1

11.51-14.5e 4

3 3

e 1

7 e

2 e

a to e

14 to te le 122 i

to.St-te.Se 3

3 e

e 1

4 18 7

5 5

9 to 12 7

e 1

87 i

23.31-30.94 e

o e

e 2

7 8

2 e

e o

e

. e e

e 2

35 j

18.51-23.50 2

e e

e 1

2 13 1

2 2

e 2

e e

e 1

le 3e.St-3s.se e

e e

e 2

e e

e 2

10!

2!

4 5

i

)

STABILITY CLASS ALL i

STAetLITY SASE3 est t=A 2=S 74 CIse MAStette ATs SE.e MAS UIse TesIESMOLD AT: 0.75 IIPM l

Jeltri FREGUE9 ICY DISTRISiffitel SF Wits SPEED Ass DIflECTION IN MOUR$ AT es.00 MTERS SeEE$

l farm u

esse ut EK E

ESC SC Sst S

S$w se Wsu W

sees su seer cum O.76-2.Se 2

3 18 2

4 4

9 5

3 2

4 1

2 2

1 4

et l

2.58-4.Se 11 11 13 9

ft 17 le 21 15 11 to 11 11 11 11 14 212 4.53-e.Se 27 24 33 32 43 32 49 57 3S 36 43 24 21 2S 27 31 537 O.St-S.Se 31 29 48 42 47 Se 72 et 87 54 4S S1 44 37 S1 57 ese

{

e.St-11.Se 02 St 136 les Se 113 e7 197 143 129 fee les 13e les 131 191 1792 18.51-14.54 97 44 192 1st le6 97 89 87 93 175 233 23S 154 151 117 121 1954 14.51-10.54 59 46 112 e4 Ste 94 52 2S 76 292 241 250 137 132 13e se test 2mm g$c3 i

13.51-23.34 29 13 1st 74 72 37 38 11 35 SF ISS 152 53 Se 44 45 1sts 3.3.51-30..S.0 l.e 8

363 2

17 38 14 43 22 9

21 36 32 S3 31 22 S

IS s

l itif - nf n!

SJ 44 rd 44 3J 3J 44 n

.4 ed al SJ n1 44 - uH h.i

.St-3.S n

S 1

n e

1 1

4 S

33 e

2 2

7 a

7 B *=

,kI

=E 2

I f

B2

I GEce FEAWI2 JFS (T SD-ETERS FOR 1997 A-Q 9 1

SITE ISENTIFIER: FEhfl2

,P MTA PE leS ENAf0f0E9s 1/ 1/97 - 12/31/97

, j,

%4 ooo AneanAL ooo I

I STAS f LITY BASES SII f=A 2=S....ES 74

.r.

Wie eEASURES AT: 00.8 SETE 2

Wise feetESMOLS AT: 9.7S 8r98 I

79fAL 8 MASER W eerEMATI4BN: 8088 TOTAL ImpeER W VmLIS SWEENWATIceIS: 8005 TOTAL anaara y 313g3333 ggSENWATIGIIS:

9 PERCENT SATA IECSUERY FOR TMIS PERIGO: 900.0 5 REAss W885 SPEE9 Fem TIIIS PERIse: 13.3 Ing TOTAL naamre y gegEMATIceIS WIT 98 BACIIMP SATA:

0

~

i PERCENTAGE SCCWIWEnct OF STABILITY CLASMS A

B C

D E

F S

2.90 3.92 7.83 40.30 30.37 9.00 S.89 2

l a

4 DISTRIOUTIcet W WIIe DIRECTIcet YS STASILITY i

j 88 ISE DE EIE E

ESE SE SSE S

SSW SW W9U W

WNW lst IEW CALII A

3 4

38 8

21 11 6

1 1

20 16 13 16 28 32 13 9

~

5 15 3

34 10 '

29 19 13 S

1 25 29 41 28 22 35 27 e

C 21 13 47 44 St St 2S 4

14 49 71 39 43 SS S2 32 e

D 179 199 294 278 237 193 177 14 7 105 252 300 400 195 172 194 19e e

E S3 84 121 192 133 set te3 147 213 302 378 279 set 170 13e 128 e

F 43 35 44 23 37 44 32 44 48 S3 tot 79 72 77 48 SS S

C 22 19 23 16 17 29 41 2e 2I 33 54 47 42 43 21 32 e

~

TOTAL 337 249 See 482 S2$

4Se 397 Joe 489 734 964 939 582 567 899 400 e

't 11m

-1.:.

.@&*m

-=

i.

,i

3B x*

O

,g 5 -*

zw*~

C C=

' it 0"

sv (f

Effluent R:l:aso Report Fcbruary 1988 Page 97

14. CHANGES TO THE PROCESS CONTROL PROGRAM (PCP)

I

~

Efflu:nt Rel:ase Repsrt Fcbruary 1988 PROCESS CONTROL PROGRAM CHAN!E REbk DTC: TMOPER File: 1715 Date: /2/// 7 Change Requested by. C[A/8-T N6AEA*

h Change requested to PCP, Rev.

o.omm vs.c,,on:p, L n 1 2L1 Change (Attach markups of the PCP : M <2/ T4tM b,,u ds. dd jf;f JkhanL,1a )w w 1 -z A.- u he tw.:u f

g Reason for Change / Justification (include sufficiently detailed information to totallygpport the rationale for the change Attach addit'onal sheets if necessary{: //72$,d/dA W N > 4ao,Ja $ JL ela an- (Da-3 en) Ar V> & HJ L akiL> F y W. f. ee 7 r-L 14 "> n'# 1 - n

u. 74 1.hd5 C.,:

/ 6U

'r J

~7" !I c l u M 2:.et r. 1.1 :.o M '-

Date: /2!#

Review Performed by:

m r

General Supervisor, Racwasts The Superintendent. Operations has determined, as evidenced by his signature below, that this change does not reduce the overall conformance of the solidified waste product to existing criteria fe,r solid westes.

f.

Approved by: '

,s C Date: l&* I O

U Superintendent, Operations Date: /1 -/(,-/

Recommended by:

OSRU Cnsirman

5 Date: / E /t 9,7 Approved by:

' P6 ant Manager POM 12.000.108 (SR). Attachment 2.033187 END k

r

~

Effluent Rei se Report Fcbruary 19 P Manual Revision g p,g, gg Page 1 of 2 FIRMI 2 PROCESS CONTROL PROGRAM The Fermi 2 Process Control Program (PCP) covers the following distinct processes for solidification or dawatering of radioactive waste. These processes are described below:

1.

For the solidification of radioactive waste.using trie Fermi 2 Permanent Solid Redwaste System. Fermi 2 will follow the PCP described in Attachment 1.

2.

For the dewatering of radioactive powdered resins in steel containers using the Hittman Nuclear incorporated Temporary Radweste Processing System. Fermi 2 will follow the PCP described in the Hittman Nuclear Document STD-PCP-03-001 Revision 3.

3.

For the dewatering of radioactive bead resins in steel containers using the Hittman Nuclear incorporated Temporary Redweste Processing System. Fermi 2 will follow the PCP described in the Hittman Nuclear Document STD-P-04-002 Revision 5.

D 4.

For the dewatering of radioactive powdered resins in Radlok High Integrity Containers (HIC's) using the Hittman Nuclear incorporated Temporary Radweste Processing System.

Fermi 2 will follow the PCP described in the Hittman Nuclear Document STD-PCP-03-002 Revision 1.

5.

For the dewatering of radioactive powdered and bead resins in steel containers and HIC's Osing the Chem-Nuclear incorporated Temporary RDS-1000 Dewatering System. Fermi 2 will follow the PCP (escribed in Attachment 2.

I h

6.

For the sc3dification of radioactive powdered resin. filter sludge, and activated carbon using the Hittman Nuclear incorporated Temporary Redweste Processing System. Fermi 2 will follow the PCP described in the Hittman Nuclear Document F475-P-007 Revisiong V.

NOTE: The Hittman Nuclear documents referenced above contain proprietary information, are not published as Fermi 2 dccuments, and are avattable from the General Supervisor. Radweste.

Licensing Commitment Review: The following commstments are listed against this procecure:

6546. 6547 Actio has been taken to ensure these commitments have not been negated.

A5 V

O 7

Signatuitf of Originator Date ARMS - INFORMATIOff SERVICES Date approved:

/l,-f D -f *7 Release authortred by: OM Procedure Cnange Requests' incorporated:

MA DTC TMOPER DSNM9 ff\\m N 1a_L_ Rev 9 Date NOV 11 W PIS PIS File 1715 Recipient.%3 j

k CJ)NT.S.0LML l

l

Efflu:nt R; tease Rep *rt N AN Fcbruary 1988 pag 310E56 N. CHURCH STREET UCLEAA MOORESTDWN, NJ 08057 (609) 722 5700 Refer to:

MN 4234 December 11, 1987 Mr. Craig Webar Detroit Edison Company Enr3eso Fermi Atomic yover Plant i

Unit i 6400 North Dixie Highway Newport, M1 48166 subject: Required Changes to Hittman Procedure F475 P.001

Dear Mr. Vober:

The above procedure F475.F.007 Rev. 4 required revisions due to the unanticipated need for recirculation of cement thru the underdrain system to solidify the underdrain area in some of the liners on site at Fermi.

Changes were made to the procedura to include those steps necessary to solidify the underdrain area for those liners equipped with undardrains.

Revision 3 which was not accepted by Fermi due to addicional changes that were needed; had been changed to include liners not previously listed on revision 2 of the procedure.

should you have additions 1 questons please call me at (312)232 6133.

Sinemroly, Cs Qu

=-

Dougla J antes A

A x%

e bI m

d A

m

V V

Efflu:nt R: lease R:p rt F:bruary 1988 Page 101

15. CHANGES TO THE OFFSITE DOSE CALCULATION MANUAL (ODCM) e

r Efflu;nt R: lease R:ptrt February 1988 P:ge 102 OPFSITE DOSE CALCULATION MANUAL OHANGE MOUEST DTC: TMOPER Pue: 1813 Chance Re.uosted by:

c^/At o M rds444 Dete: /0 *.f-87 en.e to. vested.e = m.

$'na.s s /$no4w.Nat [Maedmam bicar+'; b'*And C;:1..: JSection: Abletts, hat

.hence (Attach hertupe af me 00CM, sech pope shall be numbered est provided wtth an approvel and dete me4: hv>r as zaoasrco eJ nr.ses. e rssar 5e-t Ago MJh Fees

o. 2 s i 4 Rossen for Change /Justtfication (include sufncientty detened information to toteMy support the rationale for the ehence end appropriate snelyses or evolustions Justifying the ehenge. Attach odditional sheets If neccesary):

Off $1TAcHie 'Stlcc7~

t t[Q Technical Review performed by: [

Dete: le ur W

a~

/

l The Redletion protection Engineer has determined, as evidenced by his signature below, that this change does not result in a reduction of the occuracy of reliablitty of dose solculations or setpoint determinettons.

Dete:/0

)

Approved by:'

Redsstion Protection Eng6neer m

/'

)

-.d O M TF

.e,eo

,7 l

SE

.e,e w,

pr ed.

Plant menneger l

The plant Menspor shall else approve each pope of the attached mortups of the 00CM.

p0M 11A00,130 (SN, Attachment 1,033187 u

Effluent Release Report E

IOOO CHANIES T3 ODCM p

1.

Key added for identification of Locations and Media 2.

Station numbers changed for Program consistency.

3.

Eliminated Fodder locations -- sampling not required by Technical Specifications.

4.

Eliminated location 22 (sediment) - location not influenced by plant normal discharges 5.

Added Ground Water Site Wells to be sampled quarterly rather than upon flow reversal 6.

Maps revised to incorporate new station numbers.

a) Detail view on Figure 1 deleted and incorporated as Figure 4.

7.

Eliminated Grass locations 18 and 19 -- no milk animals at locations.

8.

Added sediment locations S-4 and S-5 a)

S-4 added as a location downstream control location b) S-5 added to establish an upstrearu control location 9.

Added fish location F-3 to establish a downstream control location.

10 incorporated Fermi 1 REMP sampling into table (29lme as an appendix,

11.

Changed nearest resident table to reflect findings of 1987 Land Use Census survey 12.

Added new food product locations F2, F4 and F5.

NOTE: F2 and F4 were determined to have the highest annual ground level D/O

Ettlu:nt Release Rep:rt ruey 1988 SECTION 3.0 Page 104 RADIOLOGICAL ENWONMENTAL MONITORING PROGRAM

}

3.1 SAMPLlNG LOCAT60NS Sempting locations, es required in Technical Specification 3/412.1. are desc 3.0-1,30-2.3.0-3.

Table 3.0-1 and shown on me maps in Figures For the purpose of knplementing Technical Specification 3.12.2. sempting

'* ired to reflect the f6ndings of the Land Use NOTE:

locations wlit be me'....

Census..

f I

a A

APPROVAL -

l 3.0- 1 ODCM. Fermi-2

/0 /k / F7 l

DATE_

t

I Effluent Release Rep 3rt i

KEY February 1988 Page 105

. TABLE 3.0-1 j

RADIOLOGICAL ENVIRONMENTAL MONITORING PROGRAM FERMI 2 SAMPLE LOCATIONS AND ASSOCIATED MEDIA TLD Locations (Pg. 3.0-3 to 3.0-5) 1 T

=

Sediments Locations (Pg. 3.0-6) 2 S

=

Fish Locations (Pg. 3.0-6) 3 F

=

Milk Locations (Pg. 3.0-7)

M 4

=

Drinking Water Locations (Pg. 3.0-8) 5 DW

=

Surface Water Locations (Pg. 3.0-8) 6 SW

=

. Ground Water Locations (Pg. 3.0-8) 7 GW

=

Air Pstticulate/ lodine Locations (Pg. 3.0-g) 8 API

=

Food Products Locations (Pg,3.0-10) g FP

=

NOTE: Fermi 1 sampling information is located on Page (3 0-15) as Appendix 1.

L 3.0-2 l

I TABLE O-t Cew t e> 4 uee Q Pane e cf Q Otaf CT mAOI Af tone TABLE 3.0-0 Bedlelegical fnwtrennental sannetortng Progemen. Feral 7 $mmpte Lacet lens anet Associated media Ins t oere t sgical Statten Set t et / As lemet h Dietence from to.e s O t tec t ices peector (Appros)

Descriptlen Wodla F reesisency

't set /3R' t.4 4

Este mt 8,ath ( Cos=inen i t y ) Pnte on Lakesh..r*.

Tsle ec t Radsation O

's Potes 5 of Labewie.

(

+2 eewt/29' t. e

=4 te me to, t e e = 6..m ' 6 ese. Me m e

m.e %e ( s>. i v.e t e f e t e e. t o n.e l a t e.

O sees 6.see, e )

3 N/4 1.9 es t Pole.

Nw Corner of Sean Boat C lut) Fence Direct Radiation Q

g 8

( t e.==ce l t y )

'a eseew / 340o o, g,.,

g o,, n o,,,,,,,,,,,

yo,,

e,,,

,,, g,,,,,,,,,,

g,.,,,,

,f API e.'

g-8 g e t s. S e..e. to, hte,ct paes.s t e.

ese#320 U.6 eni S e t e.

99

.elar y aewt tott er.g e,.,

a s* t es estee r 296*

n. 6 sei t Sa e t e. est (n****

e. t F-6.o.y.

.we.,

en e s e..e tele er t sea.elassee, O

t w / 2f39'

14. 2 est Pote, tie %6ad Doty F a r==.

78,*? N C*este" A tt Direct Radiation U

E R,ntent1

n soup 304 1.9

=4 pose, teF. Corner f4e4e e4-y me.e4 ! ;:P * *

Dlrect Omet t e t t ore Q

8

'g tesew / 333' 1.5 es t Pole. 94W Cne e.ee t, ee t.t ey met.= an vie 9.9 Divert Ga flat teen Q

'to es / ti,8 2.2 el Pate. ". "e l ete Wassarant - 7 entes w Direct Radiation 0

of tee le.avse e.

esqt#75

6. 3 en t Pointe We*s49 fee - 48 Je' f er so** anet t'mapan Rds.

D4 rett #sef44%40n 9

0 f% t e ce. St Cov e.ee of Be 4de

't N SUB e ettation U

eeg

'92 w=t/33' 6.1

=6 Pointe wn.ett'ee (.a., area - Feeto c'etc. Pole Direct m

.. T e cc es se ce t ae 6 lag Lot jTC ee ve3 mt357' 4.t =. e t

e.n.. t Diele **= y - s.n s e e, sw roe..e.

t.e e. e s.es i.e e e..

(,e 3

..... t...,

Ytd www/338" 4.4 at L at e.. eat fle andon - Puse on St Cose*e

- e m e E#

ti 8 e *s t R.ed t a t l ose 0

tev. 6..d w =seoe t Post Off4te

(* 8 e ers t 8?.eJ 8 a aPa O

~

vis wwt3tge 3.9 4

e., t e,

e e

[

otKw. Fer-e-2 J.9 J a pe **...se g/>R _t2 il

-e 2

l

TA9'tE C-8 Cevlolon O Nge 2 est Q.

e CintCT WADt'.flose TA9tE 3.0-8 Redletsgical Env ironment al asen t t er ing Program, f ee m t 7 Samente Locatlens and As vlated abedia teerologlcat Statten Sec t or / Aa tenst h Distence from segue,c, Directten Rasctee (Appros)

DescrOptten abedia tie eg.see cy 996 weew/292 4.R al Peste. Sf' o'

war a.wt Past

- fs Direct Ratt i a t s on 0

8 toy w/273 5.2 at pote. NE Corever Searseate aaet l es.c a.t.. ear De rect Radiat ' ort O

8 wolt 4 5 e 94n.u S'ae b T1m w$w/245' 4.8 mt 6.oee. NE t'orner wes.t e e and

- ,e et D4eett padiot'en U

799 Sw/234'

$ 0 me 1st Pole E of Fer=6 $4ren on water. orbs Ret.

Direct Rae64tton U

iter t enet

tate

tE corner o' 8ntersection De e e /ma t e.e oe h g (in Path 8td [s-t r a. cc v

Ster *eng 51 ate 8'ar b )

T Jft m%w t y*.1 f. t. e l pele. % % t..e welf4mmg Saet - A Pntes a ne f al c e, t 5.m.14mt6,we o

8 te l. 4 e **w y ( %gner t a l seen)

'2*

wSir/ 237' 2.7 m4 Pole. 98 Side (e' ** art at Parkwee= - kuu.t 8 moct Direct Radiation U

Deatt. ( Possu t e t e.1 a.,4

//

5p t g.ft'

). 2 s.4 6-n f e, N % 4 rte of Sanente a.e 8'emee. /

- "e ' e t W o'

~4 4 4 m t '.en U

in g (%4te O ne.aetar y )

as Peaue - 1 Pnle w of e rf 8 a t i o*.

C

23

$$W/193 1.9 ml Pole. $ Side of Pointe 8

u seu. t,e e e.e t tw Went Pipe ($6te Do.m.dee y I via Sep222 e.g me t ee e 4.a t e asew.g onente see. pea.. Det - en f.e e ec t semest at tew.

f./

8 r,o,, Post W ct Cate ( L i t e S outw1a* v 1 v ie, wsw/249' t.4 4

p.. se. tuts seet - e.9 potes % ct F ee =4 3r 04 rect Mart.aterw.

-J v ir, wsw/75n' t.1

.4 es. t. toes ears.

e. Poses s ne ser*6 De b e e ef t sea.t e a t e n..

U T17 Sw/223' 7.en me p.. e e. Ng r n...e, w, west. a..e East F e steet 54 t.le es t se.e 6.et 8.

ta t %e**t. l a t a.emp T%M V78 Sw/227'

' U. lp al Pote. $E Corner Mortar t.* eek mewt Lacstatsance Direct Rart i a t

ye

".e e

g i Co..t e a t 1

$-e C c.

-* 8 3 s.9, 1s.46..

t. 4 e r. t pa4:44 t t.,..

u m wr717" 10.1 me rate, t

4.se...

c. gi o. Sc.

p; e

T29

...n.,

-W.-

T wi w%w / 24 7

7.8 al 8ut.

(..s t e.

t *. e. Wo e, s bea (t af D 6 e et 4 Red 44t4.w.

G g*

rim

.w.........

g t.

W aper.,, t DDew. re,m4-2

,.., 4 2

. e, _ f e /2.e f 7_, _

_m,

- - ~ _ - - - -, - _ - -

E

TC;L E - 93. t serv 6 stoa 0-t%seyn 3 ut n Ul;ECT C'D!aTION 1

TAflLE 3.0-1 Radiological Environmental toonttoring Program. Feral 7 Sample t.ocat ions and Associated asedia ase t eoro logica t Station Sector /Artmuth Distance from Nuentie r Directton Reactor (Appron)

Descrtotlen RBedia Frequency T.11 w%W/254' 8.9 mi tst pot

w n'

Futeanr* Ortve Mitton -pat

Dir ec t Rattia t lon O

Mienson Dee r wa t 4.w..e I see we v*

- N (nst**

Het SConteet) 732 WNw/296 10.3 at pas l e. f ur owe %tuny 8e**h ane t rintel 8ea t s Die ac t Ratt t a t t on -

O 0

'33 Nw/318' 9.3 al 8'u t e. w Side G..ettne. P.I. 1 Pule N of-Olvect'Radiatlon Q

Ash /(or af t un Int **%*ctlun T.4 4 NNw/339 q,y

,g pas y *, [ $ 4 ste eef P,es t i e *.s h, I Pre t

5 ref D i e e*C t R Ast l e t S oe, O

0 wit -Lartton Ift1 T35 N/360 7.0 ml Pole. 5 Side of '. Hurno River De ar r os.s f r om Direct Radlation

'O 0

Pag e St ( %si*e l e t A.wat

'3G N/360 9.2 mi Pole. HE Corner o*

Gtt>rattar and Cahhti Rds Direct Radiation 0

0

'17 NNE/23o g,9 g

pole. % Cuenee of A e ld*". doul G lie. Attas faCross Ofrect Radleetino O

feum H.end u n s Ma s l e.41

'J8 wNw/289 1.7 mt Residence - b5'J 4 N.

D6.ie Hay.

Direct Radiation

'J 0

39 5%Et147" O.17 SE Cue nee Pe e t we t eil A,*,

rene * (cAF)

Direct Rad i a t inne O

T40 SE/t39' O.16 Ulst-dy d i ne

_s C f1 A par Direct Rats la t l oe.

O T41 SE/*33" 0.15 uno..y tee t acee. 00A dent 58 l erett wate par Dir ec t Radiation O

T42 SE/125" 6.15 ta l e s. n y <es..na; %' e l * ' t wa.

c A r.

DI.ect Rose la t less, o

743 E%F/114" O,14 Viet-my 1.* t = *

e. St e l

l e t wa t t ee l A.e.

no.4t*e Die er t Raella t leen O

I'AS T44 E/10l*

O.14 On eseos i t e OSSF Door - DA8 3

e et. t 5f att iat ion u

3%M

$*3 g

T45 E/84 0.16 fit tnener - PAF 0

e,c C e TAG ENE/71 0.2 NE S l.l*

Dae gg* $9 ist no s F *nt e*

D I t et.1 R eef t.e t lue.

0 oa 8

og -

a z

=* O.

W =-

CD en.

e ze A pg ee ov.e I Ot ef W. rw e sa l - 2 9.se.re y

D..... _w u

' 'AC'.E G-1 Revis te. et -

Pa ic 4 ot 9 FISH AND SEDlISENT TABLE 3.0-1 g.

Radiological Environmental 8Aonitoring Program, Feral 2 Sample I ocat lons and Associated Isedia Ise t eo-ologica l Station Sector /Artmuth Distance from te mtzer Derectton Reacter (Approm)

Descrtotton ISedia Fregeency u

%EDIMENTS l

S-1 SSE/164' 0.9 mi pointe Aus peau =. 800-300 et offshore sighting Ser16 men t sa tit e et t t y to L ane t Base wates T..e e 5-2 ENE/G7' O.2 mi ree.I

Discl.ar9e. asesse on 700 Ft offshoev

ediment SA

%-3 NE/37" 8.8 m4 Estral B*arh. a prir n. 7en te netshore s ieteit tno Neole ent

%4 rt e rer t l y to L ane t Bar.eet winetai l

s-4 wsw/240" 3.0 ml I n.f l.s. T '.e l l s Cu== men i t y B r.ee t.

Se-.I l men t sa I

O S *>

NNE/2O

'J m6 t't t o ' A trenton thannet s 'o - c.* r Diant * *'t ab e area Scri t ment Sa

(

(coest e o' t alSe NNE/30' O.S mi Coleron I s l anr1 (Controt) r I r.e.

La c

r 2 E/85" O.4 mi ree al 2 Disth.seese f asis.. o.

200 ft offshure) rIsh e.a r 3 Sw/238 5.0 ml Orest Day warIna As ca (Conteu8) r s e.h

,A -

0 1 M FM ee:

. e er -

e'C C e ae3 C3 Q **

m

~~ O ED -

ID #

CD #

se O

?

m J

e

'I E

a io n n v.e ' _.

otn e.

serm6-2 4. 0 - t>

s t..

t e-

'y p

TABLE f.-t

&av e % 4 <*n O

I'.e ge te o' 11 l

MILK TABLE 3.0-3 I

i Radlological Env iron.non t al Mon i t or G reg Pr ogram. Termi 7 Sample Locat ions and Associated 18edia 1

1

]

neteorological i

Station Sector / Azimuth Dlstance from Mumtper Directton Reactor (Appece)

Desce lpt toes Media Fregesenc y 5

?

M-1 w/269 14.2 mi Doty F,s e m - 7512 'a, Cees t ee Pat Milk M-SU 0

i

(( unt o a.1 I i

w-2 Nw/319 5.7 ml Reaa. ma F.e. m - 170 3 E L.e t.

Mith M-SM 0

v.3 uw/aiio 4.s i

voas ra.m x n i.,....., t n..

unim u-su j

~~u22

..o el

.,,, ant <.e........,.............

.l.,

.. s.,

i i

i 1

l

.i 1

4 4

b i

i 4

l i

M ee:

i i

ea.

i e2g

- a e :s 1

aQ*

l g

on<..

t. l. 2

....-7

........ei__

2 O I "

MN_

e 3

e V

]

O

'3 1

i 1

ICLE 6-1 ~..

- veston n

~

Pas 9 w 6 of 9 WATER TABLE 3.0-1 Madlological Environmental Moveltoring Program. Feral 7 Sample locatlons and Assoclated R$edla ISeteorological Station Sector /Arimuth Distance from toiss.ber Olrectlon Reactor (Approa)

Devere Igel IsN' RSedia Fregenesecy DRINI(ING WATER Dw-t S/169" 2 ml Moneo* mat-e St e in.e N S t ate of Point

An.

Drinking water M

P e.s u. v /.* tt '..tk w of L ue..e Nd Dw-2 N/8' 20 m*

Deteo6t tA8'en Dao 6 9 w.e t.*

Ntatenn Dr le-h t rig wa t er M

14700 un... Pet. t ro. t e n i i SUR* ACE WATER Sw-t 55E/tS9 0.4 mt Fermi ti. i t 1 caw Labe wate. Intake st r uc teere Surface Water M

0 Sw-2 NME/20

' :4 at DEfn*% Trenton niannet Pn-*r pla et I..t a b a surface W:jter Y

8 Nt e eer 9.' e t s r r **..e *e...s

e4*>

t t....t e n

e SI*E mELLS t,w

S/'74 0.4 me Appron too et w ne take E,ee.

(s-, t ar6 *n 3 / r. t, Gr osenttwa t e r O.

0 ne.e ' qas f l e ed s>*.skve s r.

Gw-2 55w/207' t.0 mt 4 ft 5 of l'olnte Aun 5' eau. (l'Al') Rd Feng,e br oun(t w a t e r Q

4/7 ft w of where kao arr.sses over N i ne.m y 5'o 4nt 's West er n D4he 14 W of PAP Rd Gate. 62 9 t N of Gr posedwa t e r O

0 Gw-3 Sw/225 t.0 ml

,A3,ft,, F..ec.

GW-4 WNw/289 0.6 ml 4/ tt % n*

taneptnn 88d. H tt t of broientf wa t er Q

0 T., ' 8 Ref f emc c

= e"Tl ITE "U

t to cr -

C e -, e C

.a e 3 :

e Q **

m

=* e 40 -

go *e Op ese 3e V-O-

UD(W. F e r a* 6 - 1 J. t s - ti asette an d 8_

2 t +,. t

fgp

%CLE n-1 Revis6on O P. sue F ut 9 s

b AIR PARTICUt. ATE AIR IODINE T ADl E 3.0-1 Radlological Env ironsment al IsonttorIng Program. Fer sal 2 Sagle Locat lons and Associated teedia RBeteorological Station Sec t or/ Ar t smut ti Olstence from leusaber Olrectton Reactor (Approm)

Descriptton Isedia Frequency Apt-t NE/38' l.4 m6 Estral Reach Onle on Lakeshnre. TH Poles S of Radiotoding W

t.e h 4 e.

s No.,ee es t, f..

we e 6 4 y i PartSculateg W

r

..e.e 12y Radiotorstne W

Art-2 NNW/340' O.r> ml 56te Duo.us y a..e s ' o ' I c...

o.. ". i t e e

'3 P,er t t rial at es W

apt-3 NW/321' O.6 m4 Nite 89. ariry aaet

'n't u n a ri, nn S4te Scare by pacle o t od e ne

, W 7 ".

P ee t itseleete s W

r.

7 7.1.*

a. F.es t e R.,,.. t R,est i n l auli n, W

Apg.a W/20.9" 14.2 l

De t w. e.,s. t, g O., g y

( C ten t e o ' f f* art %Culates W

ADI-5 SW/196

'.0 mi

(.o e ae.r sp + Eric St a...f t'n ' ei

c A,e, fec gee s. Dds padjolodine W

8 PatflCulates a

A 1 *Tt fTl e cr t e e ::

e,c.

ce we3 e Q **

w 3

"e s

e-CD #

3e V

O OD(p. Feeal-2

.l.

t

)

A g.g es.e w,e t _

3 I**

!O

\\

i

1 AIL E b-9 '

-I D w 4 s l e.n n ~

Patte B s, '

9' F000 PRODUCT 5 TABLE 3.0-1 RadiologlCal Environsmental Monitoring Program. Fersal 2 Sample 4.ocat lons and Associated feedia aseteorological 5tation Sec t or/ A r lanut to Distance from masener Direction Reactor (Appron)

Description 18ed ia frequency g

sp-t NNE/22' 4.0 m9 Ro' ant Pace - 9508 Tesenpike HlDhmay Food Products M (when

- t ava l l at e l e ) -

I I

FP-2 w/276 12.3 el Residence - Hasigny Farm - 7469 Stadter Rd.,

Food Products M (when 0

1 Sth E of S t azee /% t eed l ee. Intersection on ava l l ats t e )

.s 5 / 5 t ete ( Cont e n i t 50-j NNE/fl 1.1 ml

(>4 41 Brandieau Food Products M (when o

ava l ' ale t e )

rp-4 Nw / 3 %

I.4 ml 7104 Util.

Funet Pr oitue t s M ( = h.-..

O avattalte?

e r*

e, NNE/20 4 el 70tus t a t.o r ocit Productn-M L w..e -

0 a

a.a 61.et, ' e 3 e

e oe-e cr t -

=c g

C G.

m aQ

nor.

re.

l-2

... - i ii

......wa'.

w

/4 M

(*,e t e 3e V

O 3

e

TKtE 6-1 Revision 0 PCele 9 of 9 LAND USE CI'NSUS T Ast.E 3.0-1 Radiological Environmental ason i t or ing Pr ogram. Feral 2 Samsste Loc.at nons and Associated 8sedia ase t eoro logical

=

sector /Artmuth Distance from Direction Reactor (Appros)

Descrlption 8

36 /N 1.I ml 67(O Laliesbure 0

17 /NNE 1.1 ml 6Je1 fi r anc f **,e 6

360*/H 1.4 mn 6200 planchett 0

335 /NNw t.2 m6 5709 l'os t 0

Gr i t Ler ous 319 /NW 1.2 ml e

303"/www 0.7 al 6209 Langton 0

278 /w 0.8 al boot Tott 8

224 /wsw I. 2 ce 6 d'e.a t 6.e l e.t e. A.e.

E'- a...

O r194 pointe Aus Peaie n 22t /Sw t.2 me e

19F /55w t.t mt

%H2p 6*n6nte Aee= pea,.

O t79*/5 0.9 mi de la L on+J 8eOTE:

These tocations have been t rtent i f t ert a, the rio cst r es + rtent er. in the most recent Land Use Census /f'er Ue t eo r 1 og ic.s l Settut that as e auss t loats t e.

A

%mm i

ee2 e cr.

g

-w C C O I

.4 9 3

=

"O e-

+

m e i

W E en -

8 1

ODCM, Fer.6-2 3.0-91 A ripr ova l

/6 f}r.

Date

'l f

e O.a l

t a

L_

y sj i

Effl$ent R lease Rep rt Gbgpary 1988 Rjg4115 m3s e

w.

W

- '{m; o 55 :

c r

a I

3 z ;y

= -

W ~~ 20 8 "g

=

28 "II8 5sg*

0 W:=

w W

e--

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a fit $$ti?

.ou.o..

W

=

m W

W W

W W d g Z

W

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N, a

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A-

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m.de c

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j/ eI v> -

1 j

i a

sim so.

g g-ig ' e J's e

=

~ <

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a

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4:

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U

=

3 m

e em --

m j

j

[~

ucaeai j' W

s

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4

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dY r

O i

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i w

8 5

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m 4

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=

E e

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a_

=

0 E

Ef9u:nt Releass Report fe$ruary 1988 yage 116 E&

-B 1E 15s 9 as ;

~;I-a11vsj i;gi

e $ I!si' E C-5

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E!!!fsta !as qu s -e e

Nhkhkkh

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\\

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=

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. w a n='/ 5-g R":

3

UU N

EMiniant Ratamen Rannrt Feb&uary 1988 Pasp)117 "w.

.w$4

(,e "5

=

e r 6 --

Z2

& t "I

o 38 I.

m3 3

m a

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e.g ::

ll Mw !!

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ll o0J ::

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W

$31gn M

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w wom..

z"Z N2o 80 w

.I' 255 :!

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ll

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w 25 o

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8 Effluent R; lease R:ptrt Febru ry ivoo Pap l18 I

io E:

E5 o

-~

f M

kj*I 58 %

Er s

@E 3 1$"

O *5 W

5 Et V:<

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--gr a cErs E,.as,s :

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appe;*o s s - s.

Ocvision O Pc9e.1 6f 2 WATER Feral I Appendta 1 RadlologlCat t.nvironmental Monitoring Program, l'e ra l I Sample l_ocatlens and Assoclated R$edia StGtlen meteorloglCal Numtper Sector /ArSmuth Olstante from DirectSon Reactor (appros.)

Description media FreopenCy terrace water South Lagoon 5/190' O.5 mi shore *ine behin<t fue' ott senrage tanh SW SA

$=en Creek NW/56o

,.9 ml Area hetow tr> '. d tge N.

of Die 4e Hwy a nti Swan SW 5A.

Leeck Rd.

t s'un e 4 C Access area)

Gesctor NE/0 0.4 ml Area here overtto= cana' meets Swan Creek SW SA 0

Chennet r ems i entet E. o' pumphouse SW SA (she Water 55E/tS9' O.4 mi e

e3

.- 4 Cao City water aty o' 5/169 1.2 ml Moneoe Water Station.

N.

s iste of Point Aus RW SA 8

s v n-oe peau..

1/1 htoch W.

of Long Rat.

o re.=*

e 55E/tS9' O.4 ml Fermt unit 1 Ra= Lake water intake tructure RW sA City of NNE/28" 29.5 ml Detsott City Water Tecatment Plant Detroit N.

Of Belle Isle on Jetterson Ave.

RW SA eet e cr -

e'C C e-

.e o "3 e Q **

=>

as "e

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Efflutnt Rel:ase Report February 1988 Page 122 16.

40CFR190 TOTAL DOSE ANALYSIS The Environmental Protection Agency (EPA) uranium fuel cycle standard, Title 40 Code of Federal Regulations (CFR) Part 190, limits the total dose to an individual from the nuclear -

fuel cycle to 25 mrem /yr to the total body or any organ and 75 mrem /yr to the thyroid.

This standard differs from the 10 CFR 50 Appendix I in that it does not address specific pathways and includes contributions to a real individual from all uranium fuel cycle facilities and all pathways.

The 10CFR50 Appendix 1 guidelines are defined for three effluent categories. These categories are as follcws:

a.

Radioactive material released directly into the water b.

Radioactive release of noble gases directly to the atmosphere c.

Radioactive lodine and particulates released directly into the atmosphere in comparison the two standards consider dose to individuats from the various effluent pathways. The Appendix I design objectives do not consider direct radiation from the

- facility.

The sources of direct radiation in the facility are the result of contained radioactive sources within the facility. The main sources of direct radiation from the facility are provide oy two sources. The highest potential source of direct radiation to the site boundary comes from the turbine building. The Nitrogen (N)-16 activity in the main steam lines, turbine, and the moisture separator reheaters provide the highest source of contained radioactivity. Other potential sources of direct radiation are the On Site Storage Facility (OSSF) where radioactive wastes are stored and the outside Condensate Return and Storage Tanks.

These sources of direct radiation exposure should be considered in the evaluation if they are in areas that may result in exposure to members of the public.

The dose to an individual from the liquid pathway is very conservatively evaluated. This conservative dose evaluation is based on three factors:

a.

Liquid effluents are either undiluted or are slightly diluted by the receiving water b.

Fish live in the undiluted or slightly diluted water long enough to reach equilibrium concentrations with the surrounding water c.

An individual obtains his annt " :.sh consumption from the undiluted or slightly diluted water in the immediate surroundings of the nuclear facility.

The radionuclides released to the water and the over estimation of dose to and individual are such that an individual will not receive a significant dose (> 1 mrem /yr) from the liquid effluents.

Since the dose via the liquid releases are conservatively evaluated there is reasonable

~

assurance that no individual will receive a significant dose. Therefore, only the doses to individuals via the airborne and direct radiation pathways need to be considered.

To determine 10CFR50 Appendix l compliance requires that a Land Use Census be performed to locate real receptors pathways. The location of the real receptor and site meteorological conditions are used in determining the receptor with the highest dose a

Effluent Release Report

' February 1988 Page 123 potential. The location with the highest dose potential is used in controlling the release rates for_ noble gases, radiolodine and particulates.

The operation of the nuclear power plant and the resulting effluent releases are evaluated against the 10CFR50 Appendix 1 criteria. Operation of the plant below the Appendix l design criteria and the reporting requirements, demonstrate that no extra analysis is required to show compliance with 40CFR190.

17.

DOSE TO VISITORS For the purpose of this evaluation the phrase "member of the public" requires clarification.

1 Members of the public are those persons whose work is not associated with the operation of Fermi 2. Members of the public do not include employes of Fermi 2, contractors, or vendors. Included in this category are persons who enter the restricted area of Fermi 2 to service equipment or to make deliveries. Those persons who use portions of the site for recreational (picnicking, touring), occupational (farming), or other purposes not associated with the operation of the plant are considered to be members of the public.

The Fermi 2 Visitors Center is located in the south-southwest (SSW) compass direction approximately 0.3 miles from the center line of the reactor. The Visitors Center is open all year and provides tours of the plant and the Fermi site to interest groups. These groups are usually comprised of adults (17 years and older). These groups typically spend 4 to 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months touring the plant and the Fermi 2 site.

The peak period for release of radioactive material in the gaseous form occurred in the

)

second quarter of 1987. For the second quarter the maximum organ dose to the adult visitor is calculated to be 1.5E-2 millirem. This dose calculation assumes that the individual eats and sleeps (i e., lives) at the Visitors Center. However, the amount of time that an individual.vould spend at the Visitors Center is 6 hours6.944444e-5 days 0.00167 hours 9.920635e-6 weeks 2.283e-6 months . The dose to this individual during a 6-hour visit to the site in the second quarter is calculateJ to be 4.1E-5 millirem.

18.

RADIATION INSTRUMENTATION Fermi 2 Technical Specifications 3.3.7.11, Radioactive i.lquid Effluent Monitoring Instrumentation, and 3.3.7.12. Radioactive Gaseous Effluent Monitoring Instrumentation require that those moritors that exceed their limiting condition of operation be reported in i

the next semiannual effluent release report. During this reporting period July through December 1987 no limiting conditions of operation were exceeded.

END

ML20147C566

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