Occupational Radiation Exposure at Commercial Nuclear Power Reactors and Other Facilities 1984.Seventeenth Annual Report

ML20211C521
Person / Time
Issue date:	10/31/1986
From:	Brooks B NRC OFFICE OF NUCLEAR REGULATORY RESEARCH (RES)
To:
References
NUREG-0713, NUREG-0713-V06, NUREG-713, NUREG-713-V6, NUDOCS 8610210395
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{{#Wiki_filter:- NUREG-0713 Vol. 6 Occupational Radiation Exposure at Commercial Nuclear Power Reactors And Other Facilities 1984 Seventeenth Annual Report U.S. Nuclear Regulatory Commission Offico of Nuclear Regulatory Research B. G. Brooks ,p" "'%q, s "8A A8#H " 2 0713 R PDR

g NOTICE Availability of Reference Materials Cited in NRC Publications Most documents cited in NRC publications will be available from one of the following sources:

1. The NRC Public Document Room,1717 H Street, N.W.

Washington, DC 20555

2. The Superintendent of Documents, U.S. Government Printing Office, Post Office Box 37082, Washington, DC 20013 7082

3. The National Technical Information Service, Springfield, VA 22161 Although the listing that follows represents the majority of dx aments cited in NRC public'ations, it is not intended to be exhaustive.

Referenced documents available for inspection and copying for a fee from the NRC Public Docu. ment Room include NRC correspondence and internal NRC memoranda; NRC Office of Inspection and Enforcement bulletins, circulars, information notices, inspection and investigation notices; Licensee Event Reports; vendor reports and correspondence; Commission papers; and applicant and licensee documents and correspor)dence. The following documents in the NUREG series are available for purchase from the GPO Sales Program: formal NRC staff and contractor reports, NRC-sponsored conference proceedings, and NRC booklets ard brochures. Also available are Regulatory Guides, NRC regulations in the Code of Federal Regulatibn:. and Nuclear Regulatory Commission issuances. Documents avabble from the National Technical Information Service include NUREG series reports and technical reports prepared by other federal agencies and reports prepared by the Atomic Energy Commission, forerunner agency to the Nuclear Regulatory Commission. l Documents available from public and special technical libraries include all open literature items, such as books, journal and periodical articles, and transactions. Federal Register notices, federal and state legislation, and congressional reports can usually be obtained from these libraries. Documents such as theses, dissertations, foreign reports and translations, and non-NRC conference proceedings are available for purchase from the organization sponsoring the publication cited. Single copies of NRC draft reports are available free, to the extent of supply, upon written request j to the Division of Technical Information and Document Control, U.S. Nuclear Regulatory Com-mission, Washington, DC 20555. Copies of industry codes and standards used in a substantive manner in the NRC regulatory process are maintained at the NRC Library, 7920 Norfolk Avenue, Bethesda, Maryland, and are available there for reference use by the public. Codes and standards are usually copyrighted and may be purchased from the originating organization or, if they are American National Standards, from the l American National Standards Institute,1430 Broadway, New York, NY 10018. l l l

NUREG-0713 Vol. 6 Occupational Radiation Exposure at Commercial Nuclear Power Reactors And Other Facilities 1984 Seventeenth Annual Report Date u shed Oc ber 1 B. G. Brooks Division of Regulatory Applications Office of Nuclear Regulatory Research U.S. Nuclear Regulatory Commission Washington, DC 20555

PREVIOUS REPORTS IN SERIES WASH-1311 A Compilation of Occupational Radiation Exposure from Light Water Cooled Nuclear Power Plants, 1969-1973, U.S. Atomic Energy Commission, May 1974. NUREG-75/032 Occupational Radiation Expor.ure at Light Water Cooled Power Reactors, 1969-1974 U.S. Nuclear Regulatory Commission, June 1975. NUREG-0103 Occupational Radiation Exposure at Light Water Cooled Power Reactors, 1969-1975, U.S. Nuclear Regulatory Commission, August 1976. NUREG-0323 Occupational Radiation Exposure at Light Water Cooled Power Reactors, 1969-1976, U.S. Nuclear Regulatory Commission, March 1978. NUREG-0482 Occupational Radiation Exposure at Light Water Cooled Power Reactors, 1977, U.S. Nuclear Regulatory Commission, May 1979. NUREG-0594 Occupational Radiation Exposure at Commercial Nuclear Power Reactors,1978, U.S. Nuclear Regulatory Commission, November 1979. NUREG-0713 Occupational Radiation Exposure at Commercial Nuclear Power Vol. 1 Reactors, 1979, U.S. Nuclear Regulatory Commission, March 1981. NUREG-0713 Occupational Radiation Exposure at Commercial Nuclear Power Vol. 2 Reactors, 1980, U.S. Nuclear Regulatory Commission, December 1981. NUREG-0713 Occupational Radiation Exposure at Commercial Nuclear Power Vol. 3 Reactors, 1981, U.S. Nuclear Regulatory Commissien, November 1982. NUREG-0713 Occupational Radiation Exposure at Commercial Nuclear Power Vol. 4 Reactors, 1982, U.S. Nuclear Regulatory Commission, December 1983. NUREG-0713 Occupational Radiation Exposure at Commercial Nuclear Power-Vol. 5 Reactors, 1983, U.S. Nuclear Regulatory Commission, March 1985. Previous reports in the NUREG-0714 series, which will now be combined with NUREG-0713 are as follows: WASH-1350-R1 through WASH-1350-R6 First through Sixth Annual Reports of the Operation of the U.S. AEC's Centralized Ionizing Radiation Exposure Records and Reports System, U.S. Atomic Energy Commission. NUREG-75/108 Seventh Annual Occupational Radiation Exposure Report for Cer-tain NRC Licensees - 1974, U.S. Nuclear Regulatory Commission, October 1975. NUREG-0119 Eighth Annual Occupational Radiation Exposure Report for 1975, U.S. Nuclear Regulatory Commission, October 1976. NUREG-0322 Ninth Annual Occupational Radiation Exposure Report for 1976, U.S. Nuclear Regulatory Commission, October 1977. NUREG-0463 Tenth Annual Occupational Radiation Exposure Report for 1977, U.S. Nuclear Regulatory Commission, Octcber 1978. NUREG-0593 Eleventh Annual Occupational Radiation Exposure Report for 1978, U.S. Nuclear Regulatory Commission, January 1981. NUREG-0714 Twelf th Annual Occupational Radiation Exposure Report for 1979, Vol. 1 U.S. Nuclear Regulatory Commission, August 1982. NUREG-0714 Occupational Radiation Exposure Thirteenth and Fourteenth Vols. 2 and 3 Annual Reports, 1980 and 1981, U.S. Nuclear Regulatory Commis-sion, October 1983. NUREG-0714 Occupational Radiation Exposure, Fifteenth and Sixteenth Annual Vols. 4 and 5 Reports, 1982 and 1983, U.S. Nuclear Regulatory Commission, October 1985.

EDITOR'S NOTE For the past 10 years, the NRC has published two annual reports that sunmarized occupational radiation exposure data reported by certain types of NRC licensees. Each report has kept its same report number since 1979. NUREG-0713, Vols.1 through 5, contained data reported by connercial nuclear power facilities only. NUREG-0714, Vols. I through 5, contained exposure information reported by several different types of NRC licensees. As a cost-reduction measure, these two reports are now being combined into one document, NL' REG-0713, Vol. 6. From this time forward, the data that would have been presented in NUREG-0714 will be contained in subsequent volumes of NUREG-0713; additional volumes of NUREG-0714 will not be published. It is hoped that this change will not cause any confusion. 1 1

ABSTRACT This report summarizes the occupational exposure data that are maintained in the U.S. Nuclear Regulatory Commission's Radiation Exposure Information and Reports System (REIRS). The bulk of the information contained in the report was extracted from the 1984 annual statistical reports submitted by seven categories

• of NRC licensees subject to the reporting requirements of 10 CFR S20.407.

These seven categories of licensees also submit personal iden-tification and exposure information for terminating employees pursuant to 10 4 CFR $20.406, and some analysis.of these "tennination" data are also presented in this report. Annual reports for 1984 were received from a total of 504 NRC licensees, 88 of i whom were licensed nuclear power reactors. Compilations of these reports indi-cated that some 193,200 individuals were monitored, 108,500 of whom received a measurable dose. The collective dose incurred by these individuals was ca!cu-lated to be 59,400 person-rems (person-cSv)** which represents a slight (4%) increase over the 1983 value. Since the number of workers receiving a measur-able dose increased by 13%, the average measurable dose decreased to 0.55 rem (cSv). About 20% of the monitored individuals were found to have received doses greater than 0.50 rem (cSv) as had been the case in the previous three years.

However, the number cf individuals receiving doses greater than five rems (cSv) continued to decrease.

Some 230,000 termination reports were submitted to the NRC which contained personal identification and exposure information for about 67,500 individuals who had completed their work assignment or employment with a covered category of NRC licensees during 1984. This is about the same as the number of persons terminating during each of the previous two years. The total number of monitored individuals for whom personal identification and exposure information has been incorporated into REIRS during the 16 years that it has been operating is now about 350,000, some 300,000 of whom terminated from nuclear power facilities. Analyses of these data indicate that about 6,000 individuals completed work assignments at two or more nuclear reactor facilities during calendar year 1984 and received an average dose of 0.91 rem (cSv). Approximately 2,000 of these individuals worked at two or more reactor facilities during one calendar quarter and received an average dose of 0.40 rem (cSv). Both averages declined some-what from those found for 1983. However, these figures may have to be revised l because the termination data for about 15% of the individuals terminating during 1984 or 1983 were not computerized by the date of this publication.

• Commercial nuclear power reactors; industrial radiographers; fuel processors, fabricators, and reprocessors; manufacturers and distributors of byproduct material; independent spent fuel storage installations; facilities for land disposal of low-level waste; and geologic repositories for high-level waste.
  • In the International System of Units the sievert (Sv) is the name given to the units for dose equivalent.

One centisievert (cSv) equals one rem; therefore, person rem becomes person-cSv. iii

PREFACE A number of NRC Licensees have inquired how occupational radiation exposure data (from reports required by the NRC) are used by the NRC staff. This is a very appropriate inquiry that may be of importance to many affected licensees. In combination with other sources of information, the principal uses of the data are to provide facts regarding routine occupational exposures to radiation and radioactive material that occur in connection with certain NRC-licensed activities, including individual and collective radiation doses from external sources as well as pertinent information on the inhalation of radioactive material (nuclides involved, bioassay results, exposure magnitude, etc.). These facts are used by the NRC staff as indicated below: 1. The data permit evaluation, from the viewpoint of trends, of the effective-ness of the overall NRC/ licensee radiation protection and ALARA efforts by certain licensees. They also provide for the identification (and subsequent correction) of unfavorable trends. 2. The external-dose data permit evaluation of the radiological risk associated with certain categories of NRC-licensed activities, including the size of the workforce and the collective dose. 3. The data provide for governmental monitoring of the potential transient-worker problem. 4. The data are used in the establishment of priorities for the utilization of NRC health physics resources: research, standards development, and regula-tory program development. 5. The data are considered in reviews of inspection frequencies that are pro-grammed for various categories of licensees. 6. The data may influence licensing action decisions. 7. The data are used for comparative analyses of radiation protection perfor-US/ foreign, BWRs/PWRs, civilian / military, plant / plant, nuclear mance: industry /other industries, etc. 8. The data are used for justification of the expenditure of resources in the annual budget process. 9. The data help provide facts for evaluating the adequacy of the current risk-limitation system (e.g., are individual lifetime dose limits, worker popu-lation collective dose limits, and requirements for optimizati. needed?). 10. The data permit comparisons of occupational radiation risks with potential pt,blic risks when action for additional protection of the public involves worker exposures. 11. The data help in the evaluation of the effectiveness of dose-reduction measures (e.g., methods for reducing individuals' doses that may increase the collective dose). v

12. The data provide facts for answering Congressional and Administration in-quiries and for responding to questions raised by public interest groups, special interest groups, labor unions, etc.

13. The data provide information that can be used in the planning of epidemi-ological studies.

With regard to routine workplace conditions, the annual statistical summary reports required by S 20.407, the termination reports required by S 20.408, and the annual dose data reported by work function in accordance with Subsec-tion 6.9.1.5 of the standard technical specifications for nuclear power plants l provide the only centralized data base available to assist the staff in the performance of its duties as listed above. It is to everyone's advantage if these duties are performed by a well-informed staff in the' light of factual information. / Robert E. Alexander, Chief ' Safety Research Applications Branch l a r I vi

TABLE OF CONTENTS Po$le ABSTRACT............................................................... iii PREFACE................................................................ v 1 INTRODUCTION...................................................... 1 2 LIMITATIONS OF THE DATA........................................... 3 3 AN' PAL PERSONNEL MONITORING REPORTS - 10 CFR S 20.407............. 5 3.1 Definitions of Terms and Sources of Data..................... 5 3.1.1 Stati st ical Summary Reports........................... 5 3.1.2 Number of Monitored Individuals....................... 5 3.1.3 Number of Workers with Measurable Doses............... 5 3.1.4 Collective Dose....................................... 5 3.1.5 Average Individual Dose............................... 6 3.1.6 Average Measurable Dose............................... 6 3.1.7 Number of Licensees Reporting......................... 6 3.1.8 CR.................................................... 6 3.2 A.nnual Whole Body Dose Distributions......................... 8 3.3 Summary of Occupational Exposure Data By License Category.... 8 3.3.1 Industrial Radiography Licenses, Single and Multiple Locations.............................. 8 3.3.2 Manufacturer and Distributor Licenses, Broad i and 0ther........................................... 13 3.3.3 Low-Level Waste Di sposal Licenses..................... 14 3.3.4 Independent Spent Fuel Storage Installation Licenses.. 16 3.3.5 Fuel Fabrication and Reprocessing Licenses............ 16 3.3.6 Water-Cooled Power Reactor Licenses................... 20 3.3.7 High-Temperature Gas-Cooled Power Reactor Licenses.... 22 4 COMMERCIAL LIGHT WATER REACTORS - FURTHER ANALYSIS................ 23 4.1 Introduction................................................. 23 4.2 Definitions of Terms and Sources of Data..................... 23 4.2.1 Number of Reactors.................................... 23 4.2.2 Electric Energy Generated............................. 23 l 4.2.3 Collective Dose per Megawatt-Year..................... 23 4.2.4 Average Rated Capacity................................ 23 4.3 Annual Whole Body Dose Distributions......................... 27 4.4 Average Annual Whole Body Doses.............................. 27 4.5 Plant Rankings by Collective Dose per Reactor................ 33 vii

TABLE OF CONTENTS (Continued) Page 4.6 Collective Dose by Work Function and Employee Type........... 37 4.7 Heal th Implications of Average Annual Doses.................. 42 5-TERMINATION DATA SUBMITTED PURSUANT TO 10 CFR S 20.408............ 44 5.1 Termination Reports, 1969-1984............................... 44 5.2 Limitations of Termination Data.............................. 44 5.3 Transient Workers per Calendar Quarter....................... 45 5.4 Transient Workers per Calendar Year.......................... 46 5.5 Temporary Workers per Calendar Year.......................... 52 5.6 Dose Distributions by Sex.................................... 53 5.7 Age Distribution............................................. 56 6 PERSONNEL OVEREXPOSURES - 10 CFR S 20.403 and 10 CFR S 20.405..... 57 6.1 Control Levels............................................... 57 6.2 S umma ry o f 0 ve rexp o s u re s..................................... 57 REFERENCES............................................................. 61 APPENDIX A - ALPHABETICAL LISTING OF ANNUAL EXPOSURE DATA COMPILED FOR LICENSEES................................................. 63 APPENDIX B - DISTRIBUTION OF WHOLE BODY DOSES AT LICENSED NUCLEAR POWER FACILITIES, 1984.................................... 75 APPENDIX C - PERSONNEL, DOSE, AND POWER GENERATION

SUMMARY

1969-1984................................................. 81 APPENDIX D - NUMBER OF PERSONNEL AND COLLECTIVE DOSE BY WORK AND JOB

FUNCTION, 1984............................................

105 APPENDIX E -

SUMMARY

OF ANNUAL WHOLE BODY DOSE BY YEAR AND REACTOR TYPE...................................................... 163 LIST OF TABLES Table Table 3.1 Annual Exposure Data for Certain Categories of Licensees, 1973-1984................................................. 7 Table 3.2 Distribution of Annual Whole Body Doses by License C a t e g o ry, 19 84............................................ 9 Table 3.3 Summary of Annual Dose Distributions for Certain NRC Licensees, 1968-1984...................................... 10 viii

J TABLE OF CONTENTS (Continued) i Table Page i Table 3.4 Annual Exposure Information for Industrial Radiographers, 1982-1984................................................. 11 Table 3.5 Annual Exposure Information for Manufacturers and Distributors, 1982-1984................................... 14 Table 3.6 Annual Exposure Information for Fuel Fabricators, 1982-1984. 18 i Table 3.7 Annual Exposure Information for Fort St. Vrain, 1974-1984... 22 i Table 4.1 Summary of Annual Information Reported by Commercial Boiling l Water Reactors, 1973-1984................................. 24 f Table 4.2 Summary of Annual Information Reported by Commercial Pressurized Water Reactors, 1973-1984..................... 25 Table 4.3 Summary of Annual Information Reported by Commercial Light Water Cooled Reactors, 1973-1984.................... 26 Table 4.4 Summary Distribution of Annual Whole Body Doses at Commercial Light Water Reactors, 1973-1984................ 28 1 Table 4.5 Boiling Water Reactors Listed in Ascending Order of Collective Dose per Reactor, 1980-1984.................... 34 Table 4.6 Pressurized Water Reactors Listed in Ascending Order of t Collective Dose per Reactor, 1980-1984.................... 35 Table 4.7a Five year Totals and Averages Listed in Ascending Order j of Collective Dose per BWR, 1980-1984.................... 36 s. l Table 4.7b Five year Totals and Averages Listed in Ascending Order i of Collective Dose per PWR, 1980-1984.................... -36 Table 4.8 Annual Collective Doses by Work Function and Personnel j

Type, 1984................................................

38 Table 4.9 Percentages of Annual Collective Dose at LWRs by Work i

Function, 1975-1984.......................................

39 i e Table 4.10 Annual Collective Dose by Occupation and Personnel Type, l 1984..................................................... 40 Table 5.1 Termination Reports Submitted to the NRC, 1969-1984......... 45 Table 5.2 Transient Workers per Calendar Quarter, 1973-1984........... 47 i Table 5.3 Transient Workers per Calendar Year at Nuclear Power Facilities, 1977-1984..................................... 48 1X

. = TABLE OF CONTENTS (Continued) t ] Table P_ age Table 5.4a Actual and Compiled Dose Distributions of Transient Workers per Calendar Year at Power Reactors...................... 50 Table 5.4b Effects of Transient Workers on Annual Statistical Compilations............................................. 51 Table 5.5 Annual Whole Body Doses Exceeding Five Rems................. 52 Table 5.6 Temporary Workers per Calendar Year......................... 53 Table 5.7 Sex vs Dose Profiles of Terminated Individuals.............. 54 Table 5.8 Age Distribution of Terminated Reactor Workers as of 1985... 56 Table 6.1 Personnel Overexposures to External Radiation 1977-1984..... 58 I LIST OF FIGURES Figures Figure 3.1 Annual Dose Distributions of Workers at Industrial Radiography Facilities, 1982-1984........................ 12 Figure 3.2 Annual Dose Distributions of Workers at Manufacturing and Distribution Facilities, 1982-1984....................... 15 I Figure 3.3 Annual Dose Distributions of Workers at Low-Level Waste Disposal Facilities and at an Independent Fuel Storage

Facility, 1982-1984......................................

17 Figure 3.4 Annual Dose Distributions of Workers at Fuel Fabricators and Processors, 1982-1984................................ 19 Figure 3.5 Annual Dose Distributions of Workers at Light Water Reactor Facilities, 1983 and 1984................................ 21 Figure 4.1 Average Collective Dose and Number of Workers per Reactor, 1973-1984................................................ 29 Figure 4.2 Annual Values at BWRs and PWRs, 1973-1984.................. 30 Figure 4.3 Average Annual Values at LWRs, 1973-1984................... 31 Figure 4.4 Average, Median and Extreme Values of the Collective Dose per Reactor, 1973-1984.............................. 32 1 I l x

1 s TABLE OF CONTENTS (Continued) Figure P_aste i Figure 4.5 Collective Dose by Work Function and Personnel Type at BWRs and PWRs, 1979-1984................................. 41 Figure 5.1 Dose Distribution of Males and Females Terminating from

LWRs, 1983...............................................

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Occupational Radiation Exposure at Commercial Nuclear Power Reactors and Other Facilities Seventeenth Annual Report, 1984 1 INTRODUCTION One of the basic purposes of the Atomic Energy Act and the implementing regula-l tions in Title 10, Code of Federal Regulations, Chapter I, Part 20, is to pro-tect the health and safety of the public, including the employees of the li-censees conducting operations under those regulations. Among the regulations designed to ensure that the standards for protection against radiation set out in 10 CFR Part 20 are met, is a requirement that licensees provide individuals likely to be exposed to radiation with devices to monitor their exposure. Each licensee is also required to maintain indefinitely records of the results of such monitoring. However, there was no initial provision that these records or any summary of them be transmitted to a central location where the data could be retrieved and analyzed. On November 4, 1968, the U.S. Atomic Energy Commission (AEC) published an amendment to Part 20 requiring the reporting of certain occupational radiation exposure information to a central repository at AEC Headquarters. This informa-tion was required of the four categories

• of AEC licensees that were considered to involve the greatest potential for significant occupational doses and of AEC facilities and contractors exempt from licensing.

A procedure was established whereby the appropriate occupational exposure data were extracted from these reports and entered into the Commission's Radiation Exposure Information Re-porting System (REIRS), a computer system maintained at the Oak Ridge National Laboratory Computer Technology Center in Oak Ridge, Tennessee. The computeri-zation of these data ensured that they would be kept indefinitely and facilitated their retrieval and analysis. The data maintained in REIRS have been summarized and published in a report every year since 1969. Annual reports for each of the years 1969 through 1973 presented the data reported by both AEC licensees and contractors and were published in six documents designated as WASH-1350-R1 through WASH-1350-R6. In January 1975, with the separation of the AEC into the Energy Research and Development Administration (ERDA) and the U.S. Nuclear Regulatory Commission (NRC), each agency assumed responsibility for collecting cnd maintaining occu-pational radiation exposure information reported by the facilities under its jurisdiction. The annual reports published by the NRC on occupational expo-sure for calendar year 1974 and subsequent years do not contain information pertaining to ERDA facilities or contractors. Comparable information for fa-cilities and contractors under ERDA, now the Department of Energy (DOE), is collected and published by DOE's Division of Operational and Environmental Safety at Germantown, Maryland.

• Commercial nuclear power reactors; industrial radiographers; fuel processors, fabricators, and reprocessors; and manufacturers and distributors of specified quantities of byproduct material.

1

In 1982 and 1983, paragraph 20.408(a) was amended to require three additional categories of NRC licensees to submit annual statistical exposure reports and individual termination exposure reports. The new categories are (1) geologic repositories for high-level radioactive waste, (2) independent spent fuel stor-age installations, and (3) facilities for the land disposal of low-level radio-active waste. Therefore, this document presents the exposure information that was reported by NRC licensees representing two of these new categories. (There are no geologic repositories for high-level waste currently licensed.) This report and each of its predecessors summarizes information reported during previous years. However, more licensee-specific data, such as the annual re-ports submitted by each commercial power reactor pursuant to 10 CFR 6 20.407 and their technical specifications, may be found in those documents listed on the inside of the front cover of this report. Additional operating data and statistics for each power reactor for the years 1973 through 1982 may be found in a series of reports, " Nuclear Power Plant Operating Experience" [Refs.1-9]. These documents are available for viewing at all NRC public document rooms, or they may be purchased from the National Technical Information Service, as shown in the Reference section. l 9

c i l 2 LIMITATIONS OF THE DATA All of the figures compiled in this report relating to exposures and doses are based on the results and interpretations of the readings of various types of personnel monitoring devices employed by each licensee..This information eb-tained from routine personnel monitoring programs is sufficient to characterize .the radiation environment in which individuals work and is used in evaluating the radiation protection program. 1 Monitoring requirements are based, in general, on 10 CFR S 20.202, which requires licensees to monitor individuals who receive or are likely to. receive a dose in I any calendar quarter in excess of 25% of the applicable quarterly limits. For most adults the quarterly limit for the whole body is 1.25 rems (cSv), so 0.312 rem (cSv) per quarter is the level above which monitoring is required. Depending on the administrative policy of each licensee, persons such as visi-tors and clerical workers may also be provided with monitoring devices.for identification or convenience, although the probability of their being exposed to measurable levels of radiation is extremely small. Licensees are given the 4 option of reporting the dose distribution of only those individuals for whom monitoring is required, or the dose distribution of all those for whom moni-toring is-provided. Many licensees elect to report the latter; however, this ] may increase the number of individuals that one could consider to be radiation workers. In an effort to account for this, the number of individuals reported as having "no measurable exposure" has been subtracted from the total number of individuals monitored in order to calculate an average dose per individual re-ceiving a measurable dose, as well as the average dose per monitored individual. One source of error that is present in the calculation of the annual collective l dose (i.e., the summation of each monitored person's whole body dose) incurred 1 by workers is the assumption that the midpoint of the dose range is the mean dose of the individuals reported in each dose range. This allows the collec-tive dose to be calculated without knowing each person's actual annual dose. Past experience has shown that the actual mean dose of the individuals reported in each range is less than the midpoint. Thus, the collective doses presented in this report may be 10% higher than the sum of the actual individual doses. The average dose per individual, as well as the dose distributions shown for groups of licensees, also could have been affected by the multiple reporting of individuals who were monitored by two or more licensees during the year. Since individuals are not identified in the annual reports, an individual who i, was monitored by five different licensees would have been counted once on each report. Therefore, when the data were summed to determine the total number of individuals monitored by a group of licensees, this person would be counted as five individuals rather than as one. This could also affect the distribution of doses because the individual has been counted five times in the lower dose j ranges rather than one time in the higher range in which his actual accumulated dose (the sum of his doses incurred at each facility) would have placed him. This source of error has the greatest potential impact on the data reported by power reactor facilities since they employ many short-term workers. Further discussion of this is provided in Section 5. 3 1

-. _ = i Another fact that should be kept in mind before drawing any conclusions from the annual statistical data is that all of the personnel included in the reports i may not have been monitore_d throughout the entire year. Many licensees such as radiography firms and nuclear power facilities may monitor numerous individuals 4 for periods much less than a year. The average doses calculated.from these data, therefore, are less than the average dose that an individual would receive if he were involved in that activity for the full year. t l 1 I I a i I 4 1 1 i 4 __-.__.._..--.-.m.,-,. m.

3 ANNUAL PERSONNEL MONITORING REPORTS - 10 CFR S 20.407 3.1 Definition of Terms and Sources of Data 3.1.1 Statistical Summary Reports On February 4, 1974, 10 CFR S 20.407 was amended to require certain categories of licensees to submit an annual' statistical report indicating the distribution of the whole body doses incurred by individuals whom they monitored for expo-sure to radiation. Table 3.2 shows the eighteen dose ranges specified by 10 CFR S 20.407(b) among which the doses are to be distributed. In prior years, the annual report was formatted differently and was not very useful as a basis for estimating the collective dose. 3.1.2 Number of Monitored Individuals This is the total number of individuals that the NRC licensees covered by 10 CFR S 20.407 reported as being monitored for exposure to external radiation during the year. This number must include all individuals for whom monitoring is required, and may include visitors, service representatives, contract work-i ers, clerical workers and any other individuals for whom the licensee feels that monitoring devices should be provided. 3.1.3 Number of Workers with Measurable Doses The number of workers with measurable doses is obtained from the annual dose distribution reports submitted by NRC licensees pursuant to 10 CFR S 20.407 by subtracting the number of individuals having less than measurable doses from the total number of monitored individuals. This figure is used to calculate an individual's average measurable dose because it deletes those individuals who received exposures too small to be detected by personnel monitoring devices, many of whom probably did not routinely work in radiation areas (and were monitored for convenience or for identification purposes). 3.1.4 Collective Dose l The collective dose is used in this report to mean the summation of the whole body external dose received by each monitored individual and has the units person-rems (person-cSv).t The collective dose is not usually provided in the annual l dose distribution reports submitted pursuant to 10 CFR S 20.407, but NRC staff i I tin the International Systems of Units, the sievert (SV) is the name given to the units for dose equivalent. One centisievert (cSv) equals one rem; there-fore person rems become person cSv. 1

• Comnercial nuclear power reactors; industrial radiographers; fuel processors, fabricators and reprocessors; manufacturers and distributors of byproduct material; independent spent fuel storage installations; and facilities for land disposal of low-level radioactive waste.

5

calculated it from the reports by summing the products obtained by multiplying the number of individuals-reporte ' in each of the dose ranges (shown in Table 1) This assumes that the midpoint of by the midpoint of the corresponding range. the range is equal to the arithmetic mean of the individual doses in the range. Past experience has shown that the actual mean dose of individuals reported in each dose range is less than the midpoint of the range, and the collective doses shown in this report for these may be about 10% too high. In 1981, a few power reactor licensees began reporting the actual collective dose (as determined from official personnel dosimetry results) on their S 20.407 annual reports, and the NRC staff used these doses, when provided, instead of the above-described calculations. The staff would prefer to use the actual collective dose and encourages more licensees to make it available. 3.1.5 Average Individual Dose The average individual dose is obtained by dividing the collective dose by the total number of individuals reported as being monitored. This figure is usually less than the average measurable dose because it includes the number of those individuals who received zero or less than measurable doses. 3.1.6 Average Measurable Dose The average measurable dose is obtained by dividing the collective dose by the number of workers that received a measurable dose. This is the average most commonly used in this and others' reports when examining trends and comparing doses received by workers in various segments of the nuclear industry because it reflects the deletion of those individuals receiving zero or minimal doses, many of whom were monitored for convenience. 3.1.7 Number of Licensees Reporting This is the number of NRC licenses issued to companies to use radioactive material for certain activities that would place them in one of the six cate-The third gories that are required to report pursuant to 10 CFR S 20.407. column in Table 3.1 shows the number of licensees that have filed such reports during the last several years. State licensees do not submit such reports to the NRC. 3.1.8 CR One of the parameters that the United Nations Scientific Committee on the Ef-fects of Atomic Radiation (UNSCEAR) recommends be calculated for occupational dose distributions to aid in the comparison of exposure data is a ratio "CR." CR is defined to be the ratio of the annual collective dose incurred by indi-viduals whose annual doses exceed 1.5 rems to the total annual collective dose. One UNSCEAR report [Ref. 10] states that normal values of CR should be between 0.05 and 0.50. This means that, usually, no more than 50% of the collective dose should be due to individual doses that exceed 1.5 rems. The last column in Table 3.1 shows the values of CR for the different types of licenses; one can see that CR is close to 0.50 for three of the categories and is much less than 0.50 for the remaining three categories for 1984. 6 1

Tcbla 3.1 ANNUAL EXPOSURE DATA FOR CERTAIN CATEGORIES OF LICENSEES 1973 - 1984 Collective Number of Dose Average Average Measur-Number of Number Workers with (person-Individual able 00se per License Calendar Licensees of Monitored Measurable rems or Dose Worker (rems Category Year Reporting Individuals Doses person-c5v (rems or cSv) or c5v) CR* Industrial 1984 361 8,458 5,446 2,490 0.30 0.46 0.46 Radiography 1983 340 8,624 5,131 2.384 0.28 0.46 0.45 1982 353 9,235 6,160 2,998 0.32 0.49 0.46 1981 266 9,938 5,489 2,652 0.27 C.48 0.48 1980 292 11,102 6,556 2,979 0.27 0.45 0.57 1979 341 11,969 6,904 3,461 0.29 0.50 0.47 1978 337 13.093 6,685 2,950 0.23 0.44 0.43 1977 339 10,569 6,197 3,159 0.30 0.51 0.45 1976 321 11.245 6,222 3,629 0.32 0.58 0.51 1975 291 9,178 4,693 2,796 0.30 0.60 0.53 1974 319 8,792 4,943 2,938 0.33 0.59 0.51 1973 341 8,206 5,328 3,354 0.41 0.63 Manufacturing 1984 38 5,009 1,932 642 0.13 0.33 0.46 and 1983 33 5,051 2,003 824 0.16 0.41 0.54 Olstribution 1982 34 5,453 2,199 890 0.16 0.40 0.51 1981 29 4,846 2,395 904 0.19 0.38 0.52 1980 29 5,119 2,460 1,033 0.20 0.42 0.61 1979 28 3,937 2,219 888 0.23 0.40 0.55 1978 27 3,973 1,886 851 0.21 0.45 0.61 1977 30 4,243 2,459 1,329 0.31 0.54 0.63 1976 24 3,501 1,976 1,226 0.35 0.62 0.67 1975 19 3,367 1,859 1,188 0.35 0.64 0.64 1974 24 3,340 1,827 1,050 0.31 0.57 0.63 1973 34 4,251 1,925 1,177 0.28 0.61 Low-Level 1984 2 925 297 72 0.08 0.24 0.16 Waste Disposal 1983 1 612 358 71 0.12 0.20 0.14 1982 1 680 251 53 0.08 0.21 0.20 Independent 1984 1 32 32 13 0.41 0.41 0.06 fuel Storage 1983 1 33 27 8 0.24 0.30 0.00 1982 1 35 32 9 0.26 0.28 0.00 Fuel 1984 14 9,488 5,772 818 0.09 0.14 0.04 Fabrication 1983 15 9,023 5,013 835 0.09 0.17 0.19 and 1982 16 9,808 5,433 831 0.08 0.15 0.20 Processing 1981 18 10,552 5,942 940 0.09 0.16 0.09 1980 18 10,204 5,900 1,111 0.11 0.19 0.12 1979 21 9,946 5,365 1,268 0.13 0.24 0.16 1978 20 11,305 6,100 1,525 0.13 0.25 0.24 1977 21 11,496 7,004 1,725 0.15 0.25 0.34 1976 24 11,227 5,285 1,830 0.16 0.35 0.41 1975 24 11,614 5,602 3,175 0.27 0.57 0.54 1974 26 11,064 4,728 2,836 0.26 0.60 0.61 1973 27 10,610 5,056 2,400 0.23 0.47

• • Commercial 1984 88 169,242*

94,996* 55,353 0.32 0.58 0.55 Light Water 1983 80 139,895* 83,546* 56,758 0.41 0.68 0.60 Reactors 1982 79 127,904* 80,871* 52,227 0.41 0.65 0.57 1981 73 123,978* 80,664* 54,271 0.44 0.67 0.58 1980 70 124,250* 77,903* 53,810 0.43 0.69 0.59 1979 69 99,463* 62,316* 39,759 0.40 0.64 0.51 1978 68 72,448* 45,474* 31,910 0.44 0.70 0.61 1977 65 67,130* 42,867* 32,731 0.49 0.76 0.64 1976 62 66,800 36,715 26,555 0.40 0.72 0.62 1975 54 54,763 28,034 21,270 0.39 0.76 0.64 1974 53 62,044 21,904 14,083 0.23 0.64 0.62 1973 41 44,795 16,558 14,337 0.32 0.87 Grand Totals 1984 504 193,1$4' 108,475* 59,392 0.30 0.55 0.54 and Averages 1983 410 163,238* 96,818* 60,880 0.31 0.63 0.59 1982 482 153,118* 94,946* 57,008 0.37 0 60 0.56 1981 385 149,314* 94,490* 58,767 0.39 0.62 0.56 1980 410 150,675* 92,819" 58,933 0.39 0.63 0.51 1979 459 125,316* 76,804* 45,376 0.36 0.59 0.55 1978 453 100,819* 60,145* 37,236 0.37 0.62 0.59 1977 455 93,438* 58,527' 38,944 0.42 0.67 0.62 1976 428 92,773 50,198 33,240 0.36 0.66 0.60 1975 388 78,922 40,188 28,429 0.36 0.71 0.62 1974 422 85,240 33,402 20,907 0.25 0 63 0.60 1973 443 67,A62 28,867 21,268 0.31 0.14

• CR is the ratio of the annual collective dose delivered at annual doses exceeding 1.5 rems to the total annual collective dose.

(See Section 3.1).

• These ftpures are adjusted to account for the multiple counting of transient reactor workers (see Section 5).
  • Includes all LWRs that reported, although all of them may not have been in commercial operation for a full year, but excludes the gas-cooled reactor.

?

3.2 Annual Whole Body Dose Distributions Table 3.2 is a compilation of the statistical summary reports submitted by six One can see that in nearly every category some 40%-70% categories of licensees. About 90% of the reported individuals of the doses are less than measurable. were monitored by nuclear power facilities where they received about 90% of the total collective dose in 1984. The " Adjusted Total" shown in Table 3.2 tor the dose distribution of individuals monitored by commercial power reactors in 1984 reflects corrections that were made to the compilation of the annual reports to account for the counting of transient workers more than one time. This adjusted total was also used in the calculation of the " Grand Total" at the bottom of the table. Further discus-sion of the data and methodology used in making these corrections is given in Section 5. It should be pointed out that annual exposures that exceed five rems (cSv) are not necessarily classified as personnel overexposures. Although 1.25 rems (cSv) is the quarterly limit set forth in paragraph (a) of 10 CFR S 20.101, paragraph (b) permits licensees, under certain conditions, to allow a worker to receive a whole body dose of three rems (cSv) per calendar quarter (up to 12 rems (cSv)) The conditions are that the licensee must have determined and re-annually. corded the worker's prior accumulated occupational dose to the whole body and that the worker's whole body dose.when added to his accumulated occupational dose does not exceed 5(N - 18) rems (cSv), where N equals the individual's age in years. Although there is no annual limit, annual exposures that exceed 12 rems (cSv) indicate that an overexposure has occurred. Any quarterly exposure in excess of the applicable quarterly limits must be reported. A discussion of various types of occurrences in which the limits have been exceeded is given in Section 6. A summary of the annual whole body exposures reported to the Commission by cer-tain categories of NRC licensees required to submit reports pursuant to 10 CFR About 95% of the S 20.407 during the past 16 years is presented in Table 3.3. exposures have consistently remained less than two rems (cSv), and the number of individuals receiving an annual exposure in excess of five rems (cSv) has declined to remain at about one-tenth of one percent of the total number of individuals monitored each year for the last three years. 3.3 Summary of Occupational Exposure Data by License Category 3.3.1 Industrial Radiography Licenses, Single and Multiple Locations These licenses are issued to allow the use of sealed radioactive materials, usually in exposure devices or " cameras," that primarily emit gamma rays for nondestructive testing of pipeline weld joints, steel structures, boilers, aircraft and ship parts, and other high-stress alloy parts. Some firms are licensed to conduct such activities in one location, usually in a plant, and others perform radiography at multiple sites in the field. As shown in Table 3.1, annual reports were received for 361 radiography licenses in 1984, which is about the same number as reported in 1982 and 1983. 8

Table 3.2 DISTRIBUTION OF ANNUAL WHOLE BODY DOSES BY LICENSE CATEGORY 1984 N' et "

• uwsth N_:. Body Desee in the Fenowing Ranges (Resne er cSyl L3 CENSE CATEGORY No asese-10 0 -

Nwsnber Tetet h esraade gu Teset eveth Cemecthre uralue hue 8 10 - 9 25 - 0 50 - 0 75 - 10-20-30-40-50-00-70-00-90-10 0 - MosW-uratWe ipersonasne Er Numiber

asese, Deee Espesure

< 010 0 25 0 50 0 73 10 20 30 40 50 00 70 00 90 10 0 12 0 12 0 tered Does

..;., esd INDUSTRIAL RADIOGRAPHY Ssagteleceaan 3.077 432 tas 6a to la 31 15 3

Mwndpie leconene I,778 701 394 3,935 2,360 713 see 34s 263 443 32s 64 - 23 a 2 0 0 a 2 0 6,650 4,745 2,294 Teens 3.012 2,s92 sia 664 3+4 274 474 I43 67 24 a 1 0 0 1 2 0 8,458 5.446 2,490 MAssuFACTURING te DtSTRIE greed 2,909 3,093 192 a22 77 si its 45 24 1 4,62s 3,786 594

Othe, las sie 60 25 9

4 6 2 3s4 21e es Toens 3 e77 s,203 252 147 se ss 387 47 24 a s,009 t,932 642 LOW LEVEL WASTE DISPOSAL Teeeg 62: 374 49 31 Is 33 Is 925 297 72 INDEP. SPENT FUEL STORAGE Totes e 4 1 4 4 e 32 32 13 FUEL FASRfCATION Fue0 Process. 3,432 4,121 s23 399 262 98 44 Dec- _ of U end Pu e4 as s 2 9,379 5,747 sts Fwei Feetlittee 109 25 3 Teeef 3,7:6 4,336 s31 40s 262 98 44 9,4ss 5,772 als

• • COMMERCIAL POWER REACT-Boiti=0 Wouer Reectore 30,336 15,69s 6,267 4,953 3,040 2,399 5.479 2,714 994 21s 72,27s 41,962 27,14e Press. Water Reacters 47,9ss 26,098 s,612 6,s s9 4.833 2.99s 6,774 2,253 6st 77 High Tesne. Gee Reectors 106.193 se,20s 2s,207 a.6 t e e2 s

Totes I,6se 70 3 79,937 43,ss 34.ss7 e t 542 7,s73 s,397 32,453 4,*e7 s,67 s 29s a so,s s 7 t 00,240 35,356 Adessted Total 15,842 39,404 33,964 80,693 6,638 4,995 II,see s.a s2 3,997 3s0 9 2 170,928 95,066 55,356 tGRAND TOTALS se,29s 47.s t s 35,93s 31,940 7.362 s.444 12,457 s372 2.oss 40s B7 4 0 0 I 2 0 194,s40 3 0s,s45 39,39:

• Dose values exactly equal to the values separaung ranges are r i=J ut the next hegher range,
  • lncludes all reactors that reported atthough all of them may not ha9e been in commercial operatuut for a full year, tThese values are adgusted to account for the multiple counung of transient reactor workers, but the adjustment may not be complete because all of the 1984 termination data have not been co

Table 3.3

SUMMARY

OF ANNUAL DOSE DISTRIBUTIONS FOR CERTAIN NRC LICENSEES 1968-1984 Percent of Percent of Number of Total Number of Monitored Persons Individuals Individuals Individuals Compiled (Adjusted

• With Doses With Doses With Doses Year Number Number)

<2 rems >5 rems >12 rems 1968 36,836 97.2% 0.5% 3 1969 31,176 96.5% 0.5% 7 1970 36,164 96.1% 0.6% 0 1971 36,311 95.3% 0.7% 1 1972 44,690 95.7% 0.5% 8 1973 67,862 95.0% 0.5% 1 1974 85,097 96.4% 0.3% 1 1975 78,713 94.8% 0.5% 1 1976 92,773 95.0% 0.4% 3 1977 98,212 (93,438) 93.8%* 0.4%* 1 1978 105,893 (100,818) 94.6%* 0.2%* 3 1979 131,027 (125,316) 95.2%* 0.2%* 1 1980 159,177 (150,675) 94.6%* 0.3%* O 1981 157,874 (149,314) 94.6%* 0.2%* 1 1982 162,456 (154,117) 94.9%* 0.1%* 0 1983 172,927 (164,239)** 94.6%* 0.1%* 0 1984 204.069 (194,840)** 95.91* 0.1%* 0

• Based on the distribution of individual doses after adjusting for the multiple counting of transient reactor workers (see Section 5).
  • The termination data for about 15% of the individuals terminating during 1983 or 1984 have not been entered into the REIR System.

Table 3.4 summarizes the reported data for the two types of radiography licenses for 1984 and for the previous two years for comparison purposes. The table shows that both the number of workers (701) receiving measurable doses and the collective dose (196) of workers at the single-location facilities decreased by about 9%. This resulted in the average measurable dose remaining at 0.28 rem (cSv). The number of workers at firms having multiple-location licenses in-creased by about 8% while the collective dose increased only about 6%. This resulted in the average measurable dose decreasing slightly to 0.48 rem (cSv). Overall, one finds that the average measurable dose for radiography workers continues to remain at about 0.50 rem (cSv), as it has for the last eight years, and that the average dose for workers performing radiography at a single location is usually about half this amount. This is probably due to the fact that it is more difficult for workers to avoid exposure to radiation in the field, where conditions are not the best and may change every day. In order to see the con-tribution that each radiography licensee made to the total collective dose, a summary of the information reported by each of these licensees in 1984 is presented in alphabetical order in Appendix A. 10

Table 3.4 / ANNUAL EXPOSURE INFORMATION FOR INDUSTRIAL RADIOGRAPHERS 1982-1984 No. Workers Collective Average of Number of with Dose Measurable Licen-Monitored Measurable (person-rems Dose (rems Type of License Year ses Individuals Doses or person-cSv) or cSv) Single location 129 1,778 701 196 0.28 Multiple locations 1984 232 6~,680 4,745 2,294 0.48 Total 361 8,458 5,446 2,490 0.46 Single location 128 1,714 773 213 0.28 Multiple locations 1983 210 6,910 4,358 2,171 0.50 Total 338 8,624 5,131 2,384 0.46 Single location 126' 1,977 942 187 0.20 Multiple locations 1982 227 7,258 5,218 2,811 0.54 Total 353 9,235 6,160 2,998 0.49 Since personnel monitoring data has frequently been found to have log-normal distributions [Ref. 11], trends in the data reported by radiography licensees may be observed from log probability plots

• of the data.

Figure 3.1 displays such plots of the doses incurred by workers monitored by the two types of radio-graphy licensees for each of the years 1982, 1983, and 1984. The plots of the dose distributions of workers at single-location radiography facilities, where the workers receive doses that are lower than those usually received by workers at multiple-location facilities, form fairly straight lines and usually lie above those of the multiple-location facilities. One feature of these types of graphs is that several compariso1s of various dose distributions can be quickly made. For example, one can easily see that in 1984 about 85% of the workers monitored by firms licensed for radiography at multiple locations received doses that were less than one rem (cSv), while some 92% of the workers monitored at single location radiography facilities received such doses. Also, the relative positions and curvature of the graphs are indicative of certain characteristics of the dose distributions. For example, the position of the 1983 and 1984 plot of the dose distribution of workers at single-location facilities below that of the 1982 plot indicates an increase in the average dose and in CR (as shown at the bottom of the graph). This is due to the fact that there were more workers with doses that exceeded three rems (cSv) in 1983 and 1984. The 1984 plot of the multiple-location licensees is quite close to those for 1982 and 1983, and one finds similar average doses and values of CR each year.

• If the data have a log normal distribution, the data points will form a straight line when plotted on log probability paper on which cumulative probabilities are laid off on the vertical axis at distances proportional to the corresponding number of standard deviations above or below the median and the dose is plotted on the horizontal axis on a logarithmic scale.

11

Figure 3.1 ANNUAL DOSE DISTRIBUTION OF WORKERS AT INDUSTRIAL RADIOGRAPHY FACILITIES 1982 1984 i i i l 1 I i 4 i iI i .E. 99.9 99.8 1982 - Single Location 99.5 1984-Single Location gg 98 1983 - Single Location - l l E l 2 95 i 3 u. O 90 1982. Multiple Locations 2 1983 - Multiple Locations y 5 80 c. w g 70 5 60! 1984-Multiple Location 3 lE g 50 J AVERAGE MEASURABLE

• CR 40 1

DOSE (rem or cSv) I I l# - 30 R D RAPHY 1964 1983 1982 1981 1980 Single Location 0.28 0.28 0.20 0.19 0.20 0.42 0.40 0.23 0.21 0.25 _ Multiple Locations 0.48 0.50 0.54 0.54 0.49 0.46 0.46 0.46 0.48 0.46 10 I l I l l l I l l l l l 0.1 0.25 0.5 0.75 1.0 2 3 4 5 6 7 8 910 ANNUAL DOSE (rems or cSv) 'CR is the ratio of the annual collective dose delivered at individual doses exceeding 1.5 rems to the total annual collective dose. Note: Each point on the curves represents the cumulative percentage of workers with measurable doses who received doses less than the indicated annual dose. 12

The tendency of the plots to. curve upward for doses greater than one rem (cSv) is typical of distributions having several workers with doses in the higher dose ranges [Refs. 10, 11], and indicates that the entire distribution is not a log-normal one. Another theoretical analysis of occupational dose distribu-tions [Ref. 12] has found that these data may be fitted by a hybrid log-normal distribution. At low doses, this distribution is log normal, but at higher doses, where radiation control programs very closely monitor each worker's total dose so that the frequency of doses approaching the dose limits is reduced, the distribution is normal. 3.3.2 Manufacturer and Distributor Licenses, Broad and Other These licenses are issued to allow'the manufacture and distribution of radionu-clides in various forms for a number of diverse purposes. Broad licenses are issued to large facilities having a comprehensive radiological protection pro-gram, and the other licenses are usually issued to smaller firms requiring a more restrictive license. Some firms are medical suppliers that process, pack-age, or distribute such products as diagnostic test kits, radioactive surgical implants, and tagged radiochemicals for use in medical research, diagnosis, and therapy. Other firms are suppliers of industrial radionuclides and are involved in the processing, encapsulation, packaging, and distribution of the radionu-clides that they have purchased in bulk quantities from production reactors and cyclotrons. Major products include gamma radiography sources, cobalt irradiation sources, well-logging sources, sealed sources for gauges and smoke detectors, and radiochemicals for nonmedical research. However, only those NRC licensees (about 35) that possess or use at any one time specified quantities of the nuclides listed in paragraph 20.408(a)(6) are required to submit annual (10 CFR S 20.407) and termination (10 CFR S 20.408) reports. Table 3.5 presents the annual data that were reported by the two types of iicensees for 1984 and the previous two years. The total number of workers receiving measurable doses as reported by these types of licensees continued to decline somewhat to 1,932 workers in 1984. The collective dose decreased by about 22% or 200 person-rems (person-cSv), and the average dose declined to 0.33 rem (cSv). This reduction was primarily due to the fact that one fairly large broad-scope licensee ceased its' manufacturing and distribution activities. Looking at the information shown separately for the broad and other licensees, one can see that the values of all of the parameters remain higher for the broad licensees, probably because this type of license allows 'the possession of larger quantities of radioactive materials than do the other licenses. In order to see the contribution that each of these licensees made toward the total values of the number of persons monitored, number of workers, and collective dose, Appendix A lists the values of these parameters for each licensee in alphabetical order by licensee name for 1984. 13

Table 3.5 ANNUAL EXPOSURE INFORMATION FOR MANUFACTURERS AND DISTRIBUTORS 1982-1984 Collective No. Workers Dose Average of Number of with (person-Measurable Licen-Monitored Measurable rems or Dose (rems Type of License Year sees Individuals Doses person-cSv) or cSv) M & D-Broad 13 4,625 1,716 594 0.35 i M & D-Other 1984 25 384 216 48 0.22 Total 38 5,009 1,932 642 0.33 M & 0-Broad 16 4,332 1,744 767 0.44 M & D-Other 1983 17 719 259 57 0.22 Total 33 5,051 2,003 824 0.41 M & D-Broad 18 4,610 1,892 821 0.43 M & D-Other 1982 16 843 307 69 0.22 Tetal 34 5,453 2,199 890 0.40 Figure 3.2 displays log probability plots of the doses incurred by workers under the two types of manufacturing and distribution licenses for the years 1982 through 1984. The position of the curves plotted for the other licenses above those plotted for the broad licenses indicates that a larger portion of the workers reported by the other licensees have lower doses than those reported by the' broad licensees. For example, the graphs show that about 86% of workers monitored by the broad licensees received doses that were less than one rem (cSv), while about 95% of the workers monitored by the other licensees received such doses in 1984. 3.3.3 Low-Level Waste Disposal Licenses These licenses are issued to allow the receipt, possession, and disposal of low-level radioactive wastes at a land disposal facility. The. licensee has the appropriate equipment to pick up wastes from such places as hospitals and laboratories, and transport them to a proper facility for storage and burial. The requirement for this category of NRC licensee to file annual reports became effective in January 1983. Two licensees in this category submitted annual re-ports in 1984, while in 1982 and 1983 there was only one licensee in this cate-gory. Table 3.1 summarizes the data reported for 1982 through 1984. In 1984, the total number of monitored. individuals increased because a second licensee 14

Figure 3.2 ANNUAL DOSE DISTRIBUTION OF WORKERS AT MANUFACTURING & DISTRIBUTION FACILITIES 1982-1984 I l I l l 1 l l l l l l 99.9 99.8 99.5 1984 - Other 99 98 1983 - Other vs E 95 1982 - Other 3 $ go 1983 - Broad H2 g 80 n. 1984 - Broad 5 70E p 8 60' Eo 501 U 40 AVERAGE MEASURABLE DOSE (rem or cSv) 'CR 30 MANUF. b DIST. 1984 1983 1982 1981 1980 1984 1983 1982 1981 1980 Broad 0.35 0.44 0.43 0.44 0.54 0.48 0.54 0.52 0.55 0.61 ~ Other 0.22 0.22 0.22 0.17 0.13 0.20 0.20 0.38 0.33 0.27 10 I I l l l l l l l l l 1 0.1 0.25 0.5 0.75 1.0 2 3 4 5 6 7 8 9 10 ANNUAL DOSE (rems or cSv)

• CR is the ratio of the annual collective dose delivered at individual doses exceeding 1.5 rems to the total annual collective dose.

Note: Each point on the curves represents the cumulative percentage of workers with measurablo doses who received doses less than the indicated annual dose. 15

was included in this category. However, the collective dose, 72 person-rems (person-cSv), remained about the same as that found for 1983 because the collec-tive dose calculated for the one licensee that reported in 1983 declined by about the same amount as that calculated for the licensee included for the first time in 1984. The number of workers receiving measurable doses also decreased slightly so that the average measurable dose rose somewhat to 0.24 rem (cSv). Figure 3.3 displays log probability plots of the doses incurred by workers at the low-level waste disposal facilities from 1982 through 1984. One can quickly see that the distributions are quite similar, with all of the doses being less than two rems (cSv) and about'90% of the doses being less than 0.75 rem (cSv) each year. However, the position of the plot for 1984 below that for 1983 is indicative of the slight increase in the average dose and CR. Appendix A sum-marizes the exposure information reported by these licensees in 1984. 3.3.4 Independent Spent Fuel Storage Installation Licenses These licenses are issued to allow the possession of power reactor spent fuel and other associated radioactive materials for the purpose of storage of such fuel in an independent spent fuel storage installation (ISFSI). Here, the spent fuel, which has undergone at least one year of decay since being used as a source of energy in a power. reactor, is provided interim storage, protection, and safe-guarding for a limited time pending its ultimate disposal. Table 3.1 summarizes the data submitted for 1982 through 1984 by the only licensed ISFSI. Only about 35 individuals have been monitored at the facility each year. However, in 1984 the collective dose increased by about 50% to a value of 13 person-rems (person-cSv). The average measurable dose also increased from 0.30-rem (cSv) to 0.41 rem (cSv). These increases were primarily due to a significant increase in the amount of incoming spent fuel in 1984. Figure 3.3 displays log probability plots of the doses incurred by workers at the ISFSI for the years 1982 through 1984. The plots are quite similar for 1982 and 1983 when all doses were less than 0.75 rem so the value of CR was zero each year. The plot of the 1984 data lies below that of the previous two years, which indicates that there were doses in higher ranges than before, but all doses were less than 2 rems (cSv) as reflected in the low value (0.06) of CR. 3.3.5 Fuel Fabrication and Reprocessing Licenses The fuel fabrication licenses are issued to allow the processing and fabrication of reactor fuels. In most uranium facilities where light water reactor fuels are processed, uranium hexafluoride enriched in the isotope U-235 is converted to solid uranium dioxide pellets and inserted into zirconium tubes. The tubes are fabricated into fuel assemblies, which are shipped to nuclear power plants. Some facilities also perform chemical operations to recover the uranium from scrap and other off-specification materials. On a much smaller scale, fuel assemblies containing plutonium oxide pellets can be similarly fabricated and used in reactors for experimental purposes. However, there are no NRC licensees engaged in this activity at this time. The number of facilities licensed by the NRC to fabricate fuel, especially plu-tonium fuel, has been decreasing for the last several years (Table 3.1). There-fore, a number of licensees are primarily engaged in decommissioning. activities, 1 16

Figure 3.3 ANNUAL DOSE DISTRIBUTION OF WORKERS AT LOW-LEVEL WASTE DISPOSAL FACILITIES AND AT AN INDEPENDENTSPENT FUEL STORAGE FACILITY 1982-1984 89 M i i i l 1 I i i i i i 99.9 99.8 99.5 99 98 g E 2 Low-Level Waste - 1983 8 95 f Low-Level Waste - 1982 0 90 2 Low-Level Waste o Disposal - 1984 E 80 Nlndependent Fuel Q. ua Storage - 1984 2 70 Independent Fuel Storage - 1983 m 60' Independent Fuel g Storage - 1982 8 50 AVERAGE MEASURABLE 40 DOSE (rem or cSv)

• CR 30 19 1883 1982 1984 1983 1982 Low-Level Waste Disposal 0.24 0.20 0.21 0.16 0.14 0.20 20 Independent Fuel Storage 0.41 0.30 0.28 0.06 0

0 10 l I 1 l i I I I I I I i 0.1 0.25 0.5 0.75 1.0 2 3 4 5 6 7 8 9 10 ANNUAL DOSE (rems or cSv) l i ( 'CR is the ratio of the annual collective dose delivered at individual doses exceeding 1.5 rems to the total annual collective dose. Note: Each paint on the curves represents the cumulative percentage of workers with measuratile doses who received doses less than the indicated annual dose. 17

and the information that they provided for these years is shown as "Pu Decommis-sioning" in Table 3.6. Table 3.6 ANNUAL EXPOSURE INFORMATION FOR FUEL FABRICATORS-1982-1984 Workers Collective Average No. of Number of with Dose (person-Measurable Licen-Monitored Measurable rems or Dose (rems Type of License Year sees Individuals Doses person-cSv) or cSv) Uranium Fuel Fab 11 9,379 5,947 815 0.14 Pu Decommissioning 1984 3 109 25 3 0.12 Total 14 9,488 5,772 818 0.14 Uranium Fuel Fab 11 '8,440 4,746 748 0.16 Pu Decommissioning 1983 4 583 267 87 0.33 Total 15 9,023 5,013 835 0.17 Uranium Fuel Fab 11 8,652 5,117 724 0.14 Pu Decommissioning 1982 5 1,156 316 107 0.34 Total 16 9,808 5,433 831 0.15 Table 3.6 shows that the number of workers involved in decommissioning activities decreased sharply in 1984, as did the collective dose. The major reason for this is that there was one licensee involved in both decommissioning activities and the analysis of post-irradiated fuel in 1982 and 1983. The decommissioning is now complete and the licensee is no longer included in the fuel fabrication category. However, it should oe pointed out that three of the eleven licensees primarily engaged in uranium -f uel fabrication in 1982 and 1983 were also involved 1 in the decommissioning of plutonium facilities, and the report submitted by each one covered both activities. Therefore, for comparison with data submitted for previous years, the data in the " Total" row should be used because decom-missioning activities were also being conducted during previous years and were not shown separately. Appendix A lists the number of persons monitored, the number of workers receiving measurable doses, and the collective dose for each of these licensees in alphabetical order by licensee name for 1984. Figure 3.4 consists of the log probability plots of the dose distributions of The workers at fuel fabrication facilities for the years 1982 through 1984. plots for 1982 and 1983 are quite similar, with all doses being less than five rems (cSv) and about 99.3% of the doses being less than two rems (cSv) each The average dose and the value of CR were therefore about the same for year. each year. However, in 1984, there were no doses greater than two rems (cSv) so that the value of CR fell to 0.04. 18

Figure 3.4 ANNUAL DOSE DISTRIBUTION OF WORKERS AT FUEL FABRICATORS AND PROCESSORS 1982-1984 I I l l l l l l 1 l l l 99.9 99.8 g 99.5 1983 99 1984 h 98 y y u cc 95 o 3 Ei 90 H u g 80 - n. 5 70' P 5 s0 -( Eo 50 U AVERAGE MEASURABLE 40 DOSE (rems or cSv) 'CR 1984 1983 1982 1981 1980 1984 1983 1982 1981 1980 0.14 0.17 0.15 0.16 0.19 0.04 0.19 0.20 0.09 0.12 20 10 1 I i l l l l 1 i f f I 0.1 0.25 0.5 0.75 1.0 2 3 4 5 6 7 8 9 10 ANNUAL DOSE (rems or cSv) 'CR is tbs ratio of the annual collective dose delivered at individual doses exceeding 1.5 rems to the total annual collective dose. Note: Each point on the curves represents the cumulative percentage of workers with measurable doses who received doses less than the indicated annual dose. 19

Fuel reprocessing licenses are issued to allow the separation of usable uranium and plutonium from spent nuclear fuel. There was-only one commercial facility that was ever licensed to reprocess fuel, and it has been shut down since 1972. However, the licensee did some decontamination work and stored radioactive waste at the facility for several years, and the annual report that was ' submitted each year was usually grouped with those of the fuel fabricators. In February 1982, the Department of Energy assumed possession and control of the rep *ocessing facility to conduct waste solidification activities necessary for final decom-missioning. During this period, the NRC license will, in effect, be suspended, and no reports will be filed with the NRC. 3.3.6 Water-Cooled Power Reactor Licenses These licenses are issued to utilities to allow them to use special nuclear material in a reactor to produce heat to generate electricity to be sold to There are two major types of commercial reactors in the United consumers. States pressurized water reactors (PWRs) and boiling water reactors (BWRs) - each of which uses water as the primary coolant. As shown in Table 3.1, annual reports were received from nuclear power facilities for 88 licensed reactors where 169,242 individuals were monitored for exposure to radiation in 1984. Of this number 94,996 workers received a measucable dose and incurred a collective dose of 55,353 person-rems (person-cSv). It appears that the collective dose is beginning to level off or decrease somewhat, while the number of workers continues to increase. This has resulted in the average measurable dose decreasing to 0.58 rem (cSv). The dose distributions of workers monitored at each plant site is presented in alphabetical order by site name in Appendix B. Figure 3.5 presents the log-normal plot of the distribution of the whole body doses received by radiation workers at nuclear power facilities in 1983 ano 1984. One can quickly see that about 73% of the workers receiving measurable. doses at BWRs received doses that were less than one rem (cSv) while about 82% of such workers at PWRs received doses of less than one rem (cSv). The position of the BWR plots below those of the PWRs each year indicates that higher average doses were received at BWRs. Also, departures from a straight line for doses that exceed one rem are again seen, and, according to the hybrid log-normal method [Ref. 12] of analyzing these dose distributions, the sharpness of the departure indicates that a strong feedback mechanism operates when workers begin to incur larger doses and may reflect efforts to keep doses as low as reasonably achievable [Ref. 13]. Listed at the bottom of the figure are the values of CR for the last five years. These'show that a larger portion of the collective dose (about 60%) at BWRs continues to be due to workers receiving doses greater than 1.5 rems (cSv) than at PWRs, where CR is usually about 0.50. More detailed presentations and analyses of the annual exposure information reported by nuclear power facilities can be found in Section 4. 20

Figuro 3.5 ANNUAL DOSE DISTRIBUTION OF WORKERS AT LIGHT WATER ret.CTOR FACILITIES 1983 & 1984 ^ l I I I I i 1 l l l I 99.9 99.8 e 99 m 5 1984 PWRs 1983 BWRs F 95 2 1983 PWRs w !c / 90 w n. 5 P 80 1984 BWRs 3 f 70 U 60 - ~ AVERAGE MEASURABLE g DOSE (rems or cSv) 'CR 1984 1983 1982 1981 1980 1984 1983 1982 1981 1980 30 BWRs 0.66 0.82 0.76 0.73 0.87 0.57 0.63 0.59 0.57 0.63 20 PWRs 0.49 0.56 0.53 0.61 0.52 0.48 0.50 0.49 0.52 0.47 - 1 I l l l l l l l l I1 0.1 0.25 0.5 0.75 1.0 2 3 4 5 6 7 8 910 { ANNUAL DOSE (rems) 'CR is the ratio of the anriaal collective dose delivered at individual dosas exceeding 1.5 rems to the total annual collective dose. Note: Each point on the curves represents the cumulative percentage of workers with measurable doses who received doses less than the indicated annual dose. 21

3.3.7 High-Temperature Gas-Cooled Power Reactor Licenses A license to operate a power reactor is issued to utilities to allow them to use special nuclear material in a reactor to produce heat to generate electri-city to be sold to consumers. In this type of a reactor, a gas, usually helium, is used as the primary coolant. Fort St. Vrain near Greeley, Colorado, is the only such reactor in operation in the U.S. As shown in Table 3.7, annual whole body doses incurred by workers at the plant have been minimal. No one has ever exceeded an annual dose of 0.25 rem (cSv), and the average dose per worker is usually less than 0.05 rem (cSv). Table 3.7 ANNUAL EXPOSURE INFORMATION FOR FORT ST. VRAIN 1974-1984 No. of Individuals with Annual Annual Average Doses in Ranaes (rems or cSv) Total Collective Gross Measurable No No. of Dose Electricity Dose per Measurable Measurable 0.10-Individuals (person-rems Generated Worker Year Dose Dose <0.10 0.25 Monitored or person-cSv) (MW yr) (rems or cSv) 1974 1,597 63 1 1,661 3.3 0.0-0.05 1975 1,263 0 0 1,263 0.0 0.0 0.00 1976 1,362 25 0 1,387

1. 3 2.8 0.05 1977 946 55 1

1,002 2.9 29.8 0.05 1978 896 34 0 930 1.7 75.7 0.05 i 1979 1,149 120 2 1,271 6.4 28.6 0.05 1980 902 57 1 960

3. 0 -

83.2 0.05 1981 1,096 31 0 1,127 1.0 93.6 0.03 1982 978 22 0 1,000 0.4 72.s 0.02 1983 965 48 0 1,013 '1.0 94.* 0.02 1984 1,616 62 8 1,686 3.0 10.9 0.04 I 22

4 COMMERCIAL LIGHT WATER REACTORS - FURTHER ANALYSIS 4.1 Introduction Since general trends in occupational radiation exposures at nuclear power reac-tors are best evaluated within the context of other pertinent information, some of the. tables and appendices that summarize exposure data also show the type, capacity, and age of the reactor; the amount of electricity generated; the type of workers being exposed; and the sort of tasks being performed. 4.2 Definitions of Terms an'd Sources of Data 4.2.1 Number of Reactors The number of reactors shown in Tables 4.1, 4.2, and 4.3 is the number of BWRs, PWRs, and total light-water cooled reactors (LWRs), respectively, that had been in commercial operation for'at least one full year as of December 31 of each of the indicated years. This is the number of reactors on which the average number of workers and average collective dose per reactor is based. Excluded are those reactors that may have been in commercial operation for only a few months during the first year, and conservative values are yielded for the averages. The date that each reactor was declared to be in commercial operation was found in Reference 14. 4.2.2 Electric Energy Generated The electric energy generated in gross megawatt years (MW yr) each year by each facility is shown in Appendix C. This number was obtained by dividing the gross megawatt-hours of electricity annually produced by each facility by 8,760, the number of hours in the year, except for leap years when the number is 8,784 hours. The gross megawatt years of generated electricity that are presented in Tables 4.1, 4.2, and 4.3 are the sums of that produced by the number of reactors included each year. These sums are divided by the number of those reactors included in each year to yield the average amountlof electric energy generated (MW yr) per reactor, which is also shown in Tables 4.1, 4.2, and 4.3. The number of gross megawatt-hours of electricity produced each year was also found in Reference 14. 4.2.3 Collective Dose per Megawatt-Year The number of megawatt years of electricity generated was used in determining the ratio of the average value of the annual collective dose to the number of megawatt years of electricity generat'ed. The ratio was calculated by dividing the total collective dose by the total gross megawatt years generated and is a figure that is a measure of the dose incurred by workers at power plants in relation to the gross electric energy produced. This ratio was also calculated for each reactor site and is presented in Tables 4.1, 4.2, and 4.3 and Appendix C. 4.2.4 Average Rated Capacity 1 The average rated capacity, shown in Tables 4.1, 4.2, and 4.3 was found by dividing the sum of the net maximum dependable capacities (net MWe) of the reactors by the number of reactors included each year. The net maximum depend-able capacity is defined to be the gross electrical output as measured at the 23

Table 4.1

SUMMARY

OF ANNUAL INFORMATION REPORTED BY COMMERCIAL BOILING WATER REACTORS 1973-1984 Average Annual Collective Average No. Collective No. of Average Dose Per Personnel Average Average Number Doses Workers Gross Dose Per Reactor With Collec-Electricity Average Of (person-With Electricity Worker (person-Measurable tive Dose Generated Rated Reactors rems or Measurable Generated (rems or rems or Doses per Per Reactor Capacity Year Included person-cSv) Doses (MW yr) cSv) person-cSv) Per Reactor MW yr (MW yr) Net (MWe) 1973 12 4,564 5,340 3,394 0.85 380 445 1.3 283 459 1974 14 7,095 8,769 4,059 0.81 507 626 1.7 290 513 1975 18 12,611 14,607 5,786 0.86 701 812 2.2 321 611 1976 23 12,626 17,859 8,586 0.71 549 776 1.5 373 647 1977 23* 19,042 21,388 9,098 0.89 828 930 2.1 396 645 1978 25* 15,096 20,278 11,774 0.74 604 811 1.3 471 668 1979 25* 18,322 25,245 11,671 0.73 733 1,010 1.6 467 669 1980 26* 29,530 34,094 10,868 0.87 1,136 1,311 2.7 418 664 1981 26* 25,471 34,832 10,899 0.73 980 1,340 2.3 419 674 1982 26* 24,437 32,235 10,655 0.76 940 1,240 2.3 410 674 1983 26* 27,455 33,473 9,730 0.82-1,095 1,287 2.8 374 675 1984 27t 27,074 41,105 9,963 0.66 1,003 1,522 2.7 369 722

• Two plants have been shut down continuously for a number of years but have been included in the count'of reactors used One may wish to calculate these averages without counting these to compute various averages per reactor in this report.

Dresden 1 - shut down since 10/78; Humboldt Bay - shut down since 7/76. (See Appendix B) reactors each year: tin 1984 it was decided that Humboldt Bay would not be put in commercial operation again, and it is not included in this count of reactors.

Tcble 4.2

SUMMARY

OF ANNUAL INFORMATION REPORTED BY COPNERCIAL PRESSURIZED WATER REACTORS 1973-1984 Average Annual Collective Average No. Collective No. of Average Dose Per Personnel Average Average Number Doses Workers Gross Dose Per Reactor With Collec-Electricity Average Of (person-With Electricity Worker (person-Measurable tive Dose Generated Rated Reactors rems or Measurable Generated (rems or rems or Doses per Per Reactor Capacity Year Included person-cSv) Doses (MW yr) cSv) person-cSv) Per Reactor MW yr (MW yr) Net (MWe) 1973 12 9,399 9,440 3,770 1.00 783 787

2. 5 314 533 1974 20 6,627 9,697 6,824 0.68 331 485 1.0 341 619 1975 26 8,268 10,884 11,983 0.76 318 419 0.7 461 643 1976 30 13,807 17,588 13,325-0.79 460 586

1. 0 444 675 1977 34 13,469 20,878 17,346 0.65 396 614

0. 8 510 699 1978 39 16,713 25,720 19,840 0.65 429 659

0. 8 509 723 1979 42*

21,659 38,877 18,249 0.56 516 924

1. 2 434 729 1980 42*

24,266 46,237 18,287 0.52 578 1,101

1. 3 435 721 1981 44*

28,671 47,351 20,552 0.61 652 1,076 1.4 467 745 1982 48* 27,753 52,147 22,141 0.53 578 1,086 1.3 461 773 1983 49* 29,016 52,173 23,196 0.56 592 1,065

1. 3 473 778 1984 51t 28,140 56,987 26,478 0.49 552 1,117 1.1 519 805

• Three plants have been shut down continuously for a number of years but have been included in the count of reactors used to compute various averages per reactor in this report. One may wish to calculate these averages without counting these reactors each year:

Indian Point 1 - shut down since 10/78; Three Mile Island 1 and 2 - shut.down since 3/79. (See Appendix B) tin 1984, it was decided that Indian Point I would not be put in commercial operation again, and it is not. included in this count of reactors.

Table 4.3

SUMMARY

OF ANNUAL INFORMATION REPORTED BY l COPfiERCIAL LIGHT WATER COOLED REACTORS * .1973-1984 i. Average l Annual Collective Average No. Average Collective No. of Average Dose Per Personnel Average MW-Yrs j Number Doses Workers Gross Dose Per Reactor With Collec-Electricity Average Of (person-With. Electricity Worker (person-Measurable tive Dose Generated Rated Reactors rems) or Measurable Generated (rems or rems or Doses per Per. Reactor Capacity l Year Included person-cSv) Doses ' (MW yr) cSv) person-cSv) Per Reactor MW yr (MW yr) Net (MWe) 1973 24 13,963 14,780 7,164 0.94 582 616 1.9 299 496 1974 34 13,722 18,466 10,883 '0.74 404 543

1. 3 -

320 575 1975 44 20,879 25,489 17,769 0.82 475 579 1.2 404 630 1976 53 26,433 35,447 21,911 0.75 499 669 1.2 413 663 1977 57** 32,511 42,266 26,444 0.77 570 742 1.2 462 677 1978 64** 31,809 45,998 31,614 0.69 497 719 1.0 494 702 1979 67** 39,981 64,122 29,920 0.62 597 956 1.3 447 705 1980 68** 53,796 80,331 29,155 0.67 791 1,181 1.8 429 699 1981 70** 54,142 82,183 31,451 0.66 773 1,174 1.7 449 719 1982 74** 52,190 84,382 32,795 0.62 705 1,139 1.6 443 738 1983 75** 56,471 85,646 32,926 0.66 753 1,142 1.7 439 742 ) l 1984 78t 55,214 98,092 36,441 0.56 708 1,258 1.5 467 776 I l

• Includes only those reactors that had been in commercial operation for at least one full year as of December 31 of each j

of the indicated years, and all figures are uncorrected for multiple reporting of transient individuals.

• • Five plants have been shut down. continuously for a number of years but the data they reported has been used in the i

compilation of various totals and averages shown in this report. One may wish to calculate.these figures without Dresden 1 - shut down since 10/78; Humboldt Bay'- shut down since.7/76; including these reactors each year: Indian Point 1 - shut down since 10/78; Three Mile Island 1 and 2 - shut down since 3/79. (See Appendix B) tin 1984, it was decided that Humboldt Bay and Indian Point I would not be put in commercial operation again, and they are not included in compilations in this report.

output terminals of the turbine generator during the most restrictive seasonal conditions, less the normal station service loads. This " capacity" of each plant was found in Reference 14, and it is shown for each site in Appendix C. 4.3 Annual Whole Body Dose Distributions Table 4.4 summarizes the distribution of the annual whole body doses received by workers at commercial LWRs during each of the years 1973 through 1984. This distribution is the sum of the annual dose distributions reported by each li-censed LWR each year. As previously mentioned, the distribution reported by each LWR site for 1984 is shown in Appendix 8. The table shows that the number of monitored individuals continues to increase while the collective dose appears to be leveling off. However, the values of CR* show that the percentage of the collective dose due to individual doses greater than 1.5 rems (cSv), has shown a general decrease from its 1973 value of 72% to about 55% in 1984. The distri-butions shown in Table 4.4 have been adjusted for the number of individuals that may have been reported by more than one site (see Section 5 for a discussion of the methodology). Appendix D provides unadjusted dose distributions for BWRs and PWRs separately for the years 1980 through 1984. 4.4 Average Annual Whole Body Doses Some of the data presented in Tables 4.1, 4.2, and 4.3 are graphically displayed in Figure 4.1, where it'can be seen that the average collective dose and average number of workers per BWR have been higher than those for PWRs since 1974 and that the values of both parameters, in general, continued to rise at both types of facilities until 1982. At that time, the average collective dose per reactor appeared to begin leveling off or decreasing slightly, as did the number of workers. However, in 1984 the average number of workers per reactor reached an all-time high at both BWRs and PWRs, which resulted in lower average doses at both types of facilities. Figures 4.2 and 4.3 are plots of much of the information that is given in Tables 4.1, 4.2, and 4.3. The values of all of the parameters plotted, except the number of workers and electricity generated, decreased somewhat from last year's values. In looking at these figures and the fluctuations in the param-eters for the years following the incident at the Three Mile Island Plant in 1979, one suspects that they reflect some of the impact that this incident had on the nuclear power industry. To further assist in the identification of any trends that might exist, Fig-ure 4.4 displays the average and median ** values of the collective dose per l reactor for BWRs and for PWRs for the years 1973 through 1984. The ranges of the values reported each year are shown by the vertical lines with a small bar at each end marking the two extreme values. The rectangles indicate the range of values of the collective dose exhibited by those plants ranked in the twenty-fifth through the seventy-fif th percentiles. Since the median values usually are not as greatly af fected by the extreme values of the collective doses, they do not normally fluctuate as much from year to year as do the average values. The median collective dose for PWRs continues to range between 400 and 500

• See definition in Section 3.1.8.
  • The value at which 50% of the reactors reported greater collective doses and the other 50% reported smaller collective doses.

27

._m \\ j 4 1 4 Table 4.4

SUMMARY

DISTRIBUTION OF ANNUAL WHOLE 80DY DOSES AT COMMERCIAL UGHT WATER REACTORS i 1973-ISM '** Total Collective Number of Individuals with Whole Body Doses in the Ranges (ress or C5v) Dose Total Number with (person-ress YEAR No Meas'ble Meas'ble 0.10-0.25-0.50-0.75-

1. 0-2.0-3.0-4.0-5.0-6.0-7.0-8.0-9.0-10.0-Number Measurable or Exposure

<0.10 0.25 0.50 0.75 1.0 2.0 3.0 4.0 5.0 6.0

7. 0 8.0 9.0 10.0 12.0

>12.0 Monitored Exposure person-c5 4 CR *** 1973 19,043 5,494 1,698 1,214 740 652 2,468 1,584 422 251 125 71 38 16 7 33,823 14,780 13, % 3 0.72 1974 20,472 6,735 2,887 2,056 1,182 906 2,503 1,378 471 226 86 30 6 38,938 18,466 13,72? 0.63 1975 18,854 8,841 3,674 2,750 1,685 1,339 3,948 1,872 691 423 169 60 24 12 0 1 44,343 25,489 20,879 0.65 1976 25,704 12,821 5,130 4,135 2,520 2,030 4,880 2,354 789 487 188 70 26 11 5 1 61,151 35,417 26,433 0.62 l 1977 23,502 12,395 6,030 4,518 2,890 2,220 5,649 2,856 1,288 661 186 89 47 23 6 62,360 38,858 32,511 0.64 1978 28,372 15,101 6.342 4,998 3,089 2,247 5,995 3,034 1,197 514 109 37 9 0 1 ~ 0 2 71,046 - 42,674 31,804 0.61 1979 39,434 22,711 9,020 7,400 4,755 3,206 7,536 3,403 1,404 545 117 42 17 3 0 1 99,594 60,160 39,981 0.61 1980 44,703 26,903 10,676 8,904 5,570 4,134 10,671 4,607 1,816 831 235 119 29 7 1 119,206 74,503 53,7 % 0.59 1981 39,245 26,836 11,226 9,330 6,042 4,497 11,170 4,811 1,999 585 122 96 11 3 1 0 1 115,975 76,730 54,142 0.58 1982 41,713 29,226 11,713 9,903 6.229 4,420 10,220 4,716 2,066 5% 97 31 5 0 1 1 120,937 79,224 52,190 0.57 1983 47,537 29,552 11,341 9,487 5,5 9 4,344 11,442 5,292 2,237 697 114 37 8 2 128,041 80,8^4 56,471 0.60 1984 55,561 37,437 13,841 10,643 6,624 4,997 11,806 5,182 1,997 380 9 2 148.479 92,918 55,214 0.55 i Sumary of reports submitted in accordance with 10 CFR 20.407 by plants that had been in comerical operation for at least one full year as of December 31 of each of the indicated years. Figures shown for the years 1977 - 1984 have been adjusted for the multiple reporting of transient individuals (see section 5). "The co11ective dose and ca were not reported by the facilities but were calculated by the NRC staff using methods described in this document.

• "C41s the ratto of the annual collecive dose delivered at individual doses exceeding 1.5 rems (csv) to the total annual collective dose.

) i

i Figure 4.1 AVERAGE COLLECTIVE DOSE AND NUMBER OF WORKERS PER REACTOR 1973 - 1984 AVERAGE ANNUAL COLLECTIVE DOSES AVERAGE NUMBER OF WORKERS I I I i I i i I i I I i I 1. I I I I i i i i i I

======BWR

---

--" BW R 1600

-.. - PWR 1600 PWR LWR -- LWR g =

1400 a

3400 / i ,-m%j o. E 1200 1200 E 1 [ [\\, // g % \\~~.s,','-

1000

/ m ion e o i t l g A l' e l i l" { l\\ j l 1* { j%~I / ~ \\/ t + o\\ t y. j d }- f,/ l , ^ w..,. f. ./ \\ 9 / [.%././_ uJ 4 f o g 400 g 400 3 J m m 0 I I I I I I I I I I I I O I I' I I I I I I I I I I 73 74 '75 '76 77 78 '79 '80 '81 '82 '83 '84 73< 74 '75 76 77 78 79 '80 '81 '82 '83 '84 i Year y,,,

Figure 4.2 ANNUAL VALUES AT BWRS AND PWRs 1973 - 1984 120 NUMBER OF WORKERS @ BWRs 110 COLLECTIVE DOSE (person-rems) ~- BVSRs bC PWRs 100 H ELECTRICITY GENERATED (MW-yrs) 4 s BWRs Z 4 w 4 PWRs C 90 U AVERAGE ANNUAL N MEASURABLE DOSE 7 o y 80 A m g,. O m e gEo J m e. 4 [m Fk 70 ,e .k h W .sw s pw m qm e l bis 2,, y,' = / w os q 1., <a< ,a s,. ,a 0 _a 3 60 ,a o wq$ 'l i %.3 23 o z o

• 1

,w ^ ,1 a.'k ,k O mo 50 NUMBER oy$ y o k l aw m OF LWRs o' . h

h w>s L

2<m 'e r z u '3 40 ,1 g c o h o a i A. 9 k.: T.% :.>- W_ m q w i i:i id: - ,*;,.n;

t.

'n - 2 2 30 8 s c I 3 fg q

i

il m

c.

i i

O ~ a g l l ~ l E 5 ~ s 1 m. il 1 m ? a q. 9 10 jj f' 7 c u '( j l e e ) tl l - i' >j J i 0 5: h I I l1 lh l 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 YEAR 30

Figure 4.3 AVERAGE ANNUAL VALUES AT LWRs 1973 - 1984 l I I I I l l 1 l l l l l l e AVERAGE ANNUAL VALUES: 8 (1) Workers Per Reactor m (2) Collective Dose Per Reactor [ e 12 g

1. [

(3) Collective Dose Per Megawatt-Year 3 (4) Dose Per Worker f I / / -28 I o$ 10 f a.$ 5 o I em / / / 5m 6/'"*= / w 9 o 2I 6 %s g/ g$ %. W o Collective Dose Per Reactor o o g$ 4 'g ti hoo E Collective Dose Per Megawatt. year 2 \\ ,,,,,,y /j,,,,,, \\ -- ' * * " ' ' = = * - * " *

• g-..-.-.-.-..====*===..=

p 0 I I I I I I I I I I I I I I 73 '74 '75 '76 '77 '78 '79 '80 '81 '32 '83 '84 Year

Figure 4,4 i l AVERAGE, MEDIAN AND EXTREME VALUES OF THE COLLECTIVE DOSE PER REACTOR 1973 - 1984 6,000 E Middle 50% of BWRs 5,000 - 4,000 h Middle 50% of PWRs 3,500'- @ Average Collective Dose @ Median Collective Dose 3 $ 3,000 g a = 2 2,500 lI E r h 2,000 3 = f T , 1,500 } 3 1 x i.000 - ", - n, 1973 1974 1975 1976 1977 1973 1979 1980 1981 1982 1983 1984 1985 1986 Year 32

person rems (person-cSv). At BWRs the median fluctuates more from year to year, and in 1984 the median decreased to 790 person-rems (person cSv), which was still nearly twice that found for PWRs (395 person-rems (person-cSv)). Figure 4.4 also shows that in 1984 fifty percent of the PWRs reported collective doses between 340 and 570 person-rems (person-cSv) while fifty percent of the BWRs reported collective doses between 590 and 1,170 person-rems (person-cSv). Nearly every year, the median collective dose is less than the average, which indicates that the collective dose for most plants is less than the average collective dose per reactor (the value that is widely quoted). l 4.5 Plant Rankings by Collective Dose per Reactor The number of reactors from which data have been collected is still rather small, and the information reported by a few reactors where unusual conditions or prob-lems may have occurred could have a large impact on some of the statistics pre-sented in this report. In an effort to identify those plants, Tables 4.5 and 4.6 list the BWRs and PWRs in ascending order of person rems (person-cSv) per reactor for each of the five years from 1980 through 1984. Two other parameters, dose per worker and collective dose per megawatt year, are also given for each plant and could have been used in listing the plants as well. Also shown is a parameter "CR" which is defined to be the ratio of the annual collective dose delivered at individual doses exceeding 1.5 rems (cSv) to the total annual collective dose. In 1984 the value of CR for about 65% of the U.S. plants fell within the range 0.05 to 0.50 which is recommended by the UNSCEAR [Ref. 10]. Most of the reactors having values of CR greater than 0.50 were BWRs, the highest value being 0.87. Table 4.7 lists the plants that had been in commercial operation for at least five years as of December 31, 1984, and shows the values of several parameters for each of the sites. It also gives a number of averages for the two types of reactors. Based on the 125 reactor years of operation accumulated by the 25 BWR sites listed, the average annual collective dose per reactor was found to be 1,067 person-rems (person-cSv), the average measurable dose was 0.80 rems (cSv), and the average collective dose per megawatt year was 2.7. Based on the 170 reactor years of operation by the 34 PWR sites listed, these averages were found to be 569 person-rems (person-cSv), 0.59 rem and 1.3, respectively. In 1984, there were five BWR units where collective doses that exceeded 1,500 person-rems (person-cSv) were accumulated. Although these five units rep-resented only 18.5% of the 27 BWRs operating in 1984, they contributed nearly 44% of the total collective dose incurred at BWRs in 1984. Most of the col-lective dose accumulated at the BWR site with the highest collective dose (4,082 person-rems (person cSv)) was attributed to the replacement of all the recirculation system piping. At PWRs, there were five units where the collective dose exceeded 1,100 person-rem (person-cSv). Although representing less than 10% of the 51 PWRs operating in 1984, they contributed nearly 32% of the total collective dose at PWRs in 1984. The plant with the highest collective dose (2,880 person-rems (person-cSv)) in 1984 accumulated most of the dose during the replacement of steam generators. 33

Table 4.5 BOILING WATER REACTORS LISTED IN ASCENDING ORDER OF COLLECTIVE DOSE PER REACTOR 1980-1984 i= mi not no e,s.e es.e se.e .ce.n.,o,r .ce,n.

con, g,e,,n.

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Table 4.7a FIVE-YEAR TOTALS AND AVERAGES LISTED IN ASCENDING ORDER OF COLLECTIVE DOSE PER BWR 1980-1984 Average 8WRs

• Total Workers Dose per Total Average Collective with Worker

'Mega-Collective Dose per Measurable (rem or watt-Dose per

• • Site name Site Doses cSv) years MW yr La Crosse 1,111 907 1.22 136.5 8.1 81g Rock Point 1,260 2,389 0.53 242.0 5.2 Duane Arnold 3,014 4,997 0.60 1,507.7 2.0 Hatch 1,2 6,763 15,785 0.43 3,231.5 2.1 Browns Ferry 1,2,3 11,728 15,632 0.75 5,413.3 1.2 Cooper 4,072 5,444 0.13 2,336.2 1.7 Dresden 1,2,3 13,186 12,812 1.02 4,898.0 2.7 Vermont Yankee 4,404 5,758 0.76 2,032.1 2.2 Monticello 5,111 6,155 0.83 1,620.5 3.2 Nine Mile Point 5,197 7,490 0.69 1,809.2

2. 9 Millstone Point 1 5,663 3,749 1.51 2,356.5 2.4 Peach Bottom 2,3 12,198 14,785 0.83 6,109.8 2.0 Fitzpatrick 6,716 10,193 0.66 2,788.4 2.4 Oyster Creek 7,826 9,597 0.82 855.4 9.1 Quad Cities 1,2 15,811 11,129 1.42 5,125.6 3.1 Brunswick 1,2 17,035 23,247 0.73 3,550.7 4.8 Pilgrim 12,245 16,065 0.76 1,719.0 7.1 (125 reactor years)

Grand Totals and Averages 133,340 166,000 0.80 49,722.7 2.7 Averages per Reactor year 1,067 1,328 397.8 Table 4.7b FIVE-YEAR TOTALS AND AVERAGES LISTED IN ASCENDING ORDER OF COLLECTIVE DOSE PER PWR 1980-1984 Average PWRs

• Total Workers Dose per Total Average Collective with Worker Mega-Collective Dose per Measurable (rem or watt-Dose per
  • Site name Site Doses cSv) years MW yr Davis 8 esse 633 5,017 0.13 2,289.2 0.3 Prairie Island 1,2 1,291 3,648 0.35 4,484.0 0.3 Kewaunee 711 2,064 0.34 2,243.0 0.3 Yankee Rowe 1,405 2,880 0.49 541.5 2.6 Cook 1,2 3,267 7,190 0.45 7,553.8 0.4 Calvert Cliffs 1,2 3,488 8,140 0.43 5,404.6 0.7 Maine Yankee 1,753 4,752 0.37 2,976.5 0.6 Three Mlle Island 1,2 3,621 9,225 0.39 0.0 Crystal River 1,811 5,222 0.35 2,708.6 1.9 Point Beach 1,2 3,995 5,175 0.77 3,682.0 1.1 Oconee 1,2,3 6,371 11,001 0.58 9,042.7 0.7 Rancho Seco 2,160 4,568 0.47 2,069.5 1.0 Trojan 2,189 5,458 0.40 3,143.8 1.4 Fort Calhoun 2,339 4,090 0.57 1,530.8

1. 5 8eaver Valley 2,657 7,687 0.35 2,077.8 1.3 Indian Point 3 2,735 4,730 0.58 1,626.8

1. 7 Palisades 3,206 8,523 0.38 1,663.9 1.9 Zion 1,2 6,840 7,087 0.97 6,576.7 1.0 Ginna 3,752 4,797 0.78 1,801.6 2.1 Millstore Point 2 4,581 6,533 0.70 2,974.3

1. 5 Turkey Point 3,4 9,957 11,639 0.86 4,385.4 2.3 Haddam Neck 5,115 7,048 0.73 2,315.9 2.2 Surry 1,2 15,037 16,900 0.89 4,742.0 3.2 Robinson 2 7,814 11,853 0.66 1,529.2 5.1 (170 reactor years)

Grand Totals and Averages 96,728 165,227 0.59 77,363.6 1.3 Averages per Reactor year 569 972 455.1 "For sites with more than one operating reactor, the collective dose per reactor is obtained by dividing the collective dose for the site by the number of reactors.

• • Sites where not all reactors had completed five full years of commercial oper-ation as of 12/31/84 are not included.

36

In general, particularly for BWRs, the plants having the lower values of most of the parameters shown are usually the newer plants. Some of the older, smaller plants also appear near the top of the listings since they report small collective doses; however, the ratio of their collective dose to the number of megawatt-years of electricity generated will be higher because of their limited power generation capacity. In the case of PWRs, this generalization does not always apply. For example, Prairie Island and Susquehanna, three reactors that have been operating for 10 or 11 years, have experienced lower collective doses than many newer reactors for years. Usually, the combination of a large annual collective dose and a large collec-tive dose to megawatt year ratio for a plant indicates that extensive mainte-nance or modifications were undertaken during the year. For example, maintenance jobs that were large contributors to BWR doses in 1984 included replacement of recirculation system piping, inspection for intergranular stress corrosion cracking (IGSCC), IGSCC repair, Mark I torus modifications, and reactor vessel component inservice inspection. The PWR facilities reporting high values for these two parameters during the last few years generally have been involved in extensive tube inspection, sleeving, and plugging related to the repair of steam generators. It should be noted that the differences in nuclear plant designs and the ages of plants [Ref. 15], even between plants of a given type, affect the nature of these parameters as well, and one should be careful when attempting to draw conclusions from these data. 4.6 Collective Dose by Work Function and Employee Type A second type of annual statistical report that is required by each plant's technical specifications provides the collective dose of workers monitored at each plant site by employee type (plant, utility, or contractor) and by work and job functions. The report submitted for each reactor site, after undergoing any necessary standardization, is provided in Appendix D. Summaries of the collective doses shown in these reports are given in Tables 4.8, 4.9, and 4.10. The collective doses obtained from these reports are not used in any other tables in this document for the following reasons: the technical specifications of each plant requires only 80% of the plant's collective dose be accounted for, and some plants do not use the official dosimeter results in compiling the data. Table 4.8 provides a detailed summary of the distribution of collective dose by ~ work function and personnel types for BWRs, PWRs, and all LWRs. It shows that contract workers performing special maintenance at LWRs continue to incur the largest portion (35%) of the collective dose. Table 4.9 presents a more general summary of these data for the last ten years, and one can see that the collective dose incurred during routine and special maintenance activities has ranged be-tween 67% and 77% during these years. Figure 4.5 graphically shows the trends in the collective dose by work function and type of personnel for the years 1979 through 1984 for BWRs and PWRs separately. Contractor personnel incur most of the collective dose during special maintenance while it is nearly equal-ly divided between contractor and plant and utility personnel during routine maintenance and waste processing and that the figures are fairly stable from year to year. Because of this stability and the fact that a number of these reports are not submitted in a standard format, summaries of these data will not be presented in future reports of these NUREG series. 37

l I Table 4.8 ANNUAL COLLECTIVE DOSE BY HORK FUNCTION AND PERSONNEL TYPE [ 1984 HORK FUNCTION STATION EMPLOYEES UTILITY EMPLOYEES CONTRACT HORKERS & OTHERS TOTAL PER FUNCTION ROILING HATER REACTORS REACTOR OPERATIONS & SURVEILLANCE 1494.190 5.7 % 188.650 0.7 % 1139.668 4.3 % 2822.508 10.7 % ROUTINE MAINTENANCE 2350.776 8.9 x 1028.623 3.9 % 4997.430 19.0 % 3376.829 31.9 % INSERVICE INSPECTION 217.526 0.8 % 114.967 0.4 % 1158.467 4.4 % 1490.960 5.7 % SPECIAL MAINTENANCE 1244.152 4.7 % 1537.676 5.9 % 9190.503 35.0 % 11972.331 45.6 : NASTE PROCESSING 455.392 1.7 % 30.866 0.1 % 441.481 1.7 % 927.739 3.5 % REFUELING 352.897 1.3 % 65.153 0.2 % 274.714 1.0 % 692.764 2.6 % TOTALS 6114.933 23.3 % 2965.935 11.3 % 17202.263 65.4 % 26283.131 100.0 %

• PRESSURIZED HATER REACTORS REACTOR OPERATIONS &

SURVEILLANCE 1647.331 6.0 % 149.729 0.5 % 1486.936 5.4 % 3283.996 12.0 % c$ ROUTINE MAINTENANCE 2355.534 8.6 % 472,006 1.7 % 3226.830 11.8 % 6054.370 22.1 % INSERVICE INSPECTION 319.122 1.2 % 286.057 1.0 % 1295.760 4.7 % 1900.939 6.9 % SPECIAL MAINTENANCE 1658.680 6.1 % 1283.824 4.7 % 9446.879 34.5 % 12389.383 45.3 % HASTE PROCESSING 437.662 1.6 % 34.341 0.1 % 520.618 1.9 % 992.621 3.6 %

• REFUELING 1013.627 3.7 %

343.006 1.3 % 1400.592 5.1 % 2757.225 10.1 % TOTALS 7431.956 27.1 x 2568.963 9.4 % 17377.615 63.5 % 27378.534 100.0 %

• ALL LIGHT HATER REACTORS REACTOR OPERATIONS &

SURVEILLANCE 3141.521 5.9 % 338.379 0.6 % 2626.604 4.9 % 6106.504 11.4 % ROUTINE MAINTENANCE 4706.310 8.8 x 1500.629 2.8 % 8224.260 15.3 % 14431.199 26.9 % INSERVICE INSPECTION 536.648 1.0 % 401.024 0.7 % 2454.227 4.6 % 3391.899 6.3 % SPECIAL MAINTENANCE 2902.832 5.4 % 2821.500 5.3 x 18637.382 34.7 % 24361.714 45.4 % HASTE PROCESSING 893.054 1.7 % 65.207 0.1 % 962.099 1.8 % 1920.360 3.6 %

• • REFUELING 1366.524 2.5 %

408.159 0.8 % 1675.306 3.1 % 3449.989 6.4 % TOTALS 13546.889 25.2 % 5554.898 10.3 % 34579.878 64.4 % 53661.665 100.0 % e

• Table does not include results from the PWRs at Point Beacn 1,2 (737 man-rems) because of formattin9 problems.

These values are higher than usual because the dose incurred during various maintenance activities while Salem I was refueling was attributed to the refueling work function. l

t Table 4.9-PERCENTAGES OF ANNUAL COLLECTIVE DOSE AT LWRS BY WORK FUNCTION Percent of Collective Dose Each Year ' Work Function 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 Reactor operations and surveillance 10.8% 10.2% 10.5% 13.3% 12.2% 9.5% 8.9% 9.4% 10.1% 11.4% Routine maintenance 52.6% 31.0% 28.1% 31.5% 29.2% 35.5% 36.1% 27.9% 29.7% 26.9% 3; Inservice inspection 3.0% 6.0% 6.4% 7.7% 9.0% 5.5% 5.3% 6.5% 7.6% 6.3% Special maintenance 19.0% 40.0% 42.5% 35.9% 39.4% 40.6% 40.5% 46.8% 43.9% 45.4% Waste processing 6.9%

5. 0%

5.8% 5.0% 3.6% 3.0% 4.2%~ 5.0% 4.6% 3.6% Refueling 7.7% 7.9% 6.7% 6.6% 6.6% 6.1% 5.0% 4.4% 4.1% 6.4%

Table 4.10 ANNUAL COLLECTIVE DOSE. BY OCCUPATION AND PERSONNEL TYPE 1984 OCCUPATION STATION EMPLOYEES UTILITY EMPLOYEES CONTRACT HORKERS & OTHERS TOTAL PER FUNCTION PERSON-REM % OF TOTAL PERSON-REM % OF TOTAL PERSON-REM % OF TOTAL PERSON-REjd X OF TOTAL BOILING HATER REACTORS MAINTENANCE 3218.862 12.2 % 2641.490 10.1 % 13536.407 51.5 % 19396.759 73.8 % OPERATIDHS 1504.276 5.7 % 10.630 0.0 x 368.562 1.4 x 1883.468 7.2 % HEALTH PHYSICS 714.376 2.7 x 11.882 0.0 x 1387.125 5.3 % 2113.383 8.0 % SUPERVISORY 373.535 1.4 % 135.557 0.5 % 867.998 3.3 x 1377.090 5.2 % ENGINEERING 303.884 1.2 % .166.376 0.6 % 1042.171 4.0 % 1512.431 5.8 % TOTALS 6114.933 23.3 % 2965.935 11.3 % 17202.263 65.4 x 26283.131 100.0 % 0 PRESSURIZED HATER REACTORS MAINTENANCE 3809.596 13.9 % 2200.794 8.0 % 12475.201 45.6 % 18485.591 67.5 % OPERATIONS 1552.086 5.7 % 15.535 0.1 % 182.413 0.7 % 1750.034 6.4 % HEALTH PHYSICS 1135.637 4.1 % 26.570 0.1 x 2654.018 9.7 %- 3816.225 13.9 % c$ SUPERVISORY 459.872 1.7 % 80.809 0.3 % 291.019 1.1 % 831.700 3.0 % ENGINEERING 474.765 1.7 x 245.255 0.9 % 1774.964 6.5 % 2494.984 9.1 % TOTALS 7431.956 27.1 % 2568.963 9.4 % 17377.615 63.5 x 27378.534 100.0 % CALL LIGHT HATER REACTORS MAINTENANCE 7028.458 13.1 % 4842.284 9.0 % 26011.608 48.5 % 37882.350 70.6 % OPERATIONS 3056.362 5.7 % 26.165 0.0 % 550.975 1.0 % 3633.502 6.8 % HEALTH PHYSICS 1850.013 3.4 % 38.452 0.1 % 4041.143 7.5 % 5929.608 11.0 % SUPERVISORY '833.407 1.6 % 216.366 0.~ 4 % 1159.017 2.2 % 2208.790 4.1 % ENGINEERING 778.649 1.5 % 411.631 0.8 % 2817.135 5.2 % 4007.415 7.5 % TOTALS 13546.889 25.2 x 5534.898 10.3 x 34579.878 64.4 % 53661.665 100.0 %

• Table does not include results from the PWRs at Point Beach (737 person-rems) because of formatting problems.

1 I

Figure 4.5 COLLECTIVE DOSE BY WORK FUNCTION AND PERSONNEL TYPE AT BWRs and PWRs, 1979-1984 BWRs Oriaataadutiittypersonae QContractorpersonnel 35000 30000 C

• y

- Refueling m [ u - Idaste Processing 20000 Special I / Maintenance i _/ /7 h Inservice ~ Inspection 10000 [/ ntenance - 5000 m M , Operations and 0 Surveillance 1979 1980 1981 1982 1983 1984 Year PWRs OPlant and utility personnel @ContractorPersonnel 35000 30000 f, E E E' - Refueling 25000 %= 20000 m , 3,, Maintenance ~15000 b y !nservice 10000 7 Inspection / g 5000 -E . Routine Maintenance y M 0 , Operations and u Surveillance .1979 1980 1981 1982 1983 1984 Year 1 41

Table 4.10 presents the distribution of the collective dose for 1984 at all LWRs among five occupations. As expected, maintenance personnel incurred the majority (70.6%) of the collective dose with contractor maintenance personnel receiving about twice as much as the station and utility maintenance employees combined. This is about the same as that reported for 1983. Supervisory per-sonnel received 4.1% of the dose, compared to 2.7% in 1983, while workers in the remaining three occupations--operations, health physics, and engineering-- received 6.8%, 11.0%, and 7.5%, respectively,.of the collective dose. None of these values changed very much from those found for 1982, either. The collective doses shown in Tables 4.8 and 4.10 do not equal those shown in other tables in the report because they are the sum of the doses taken from the type of annual reports shown in Appendix D rather than the collective dose that was obtained or calculated from the S 20.407 annual reports. Another use made of the reports given in Appendix D is in proportioning the collective dose obtained from the S 20.407 annual reports into the work functions l and personnel types shown in Appendix C. This was done in the following way: I (1) The collective dose incurred by workers in the work function " Reactor Operations and Surveillance" on each plant's annual report submitted pursuant to their technical specifications (the'first number in the last column in Appendix D) was determined. (2) The ratio of this dose to the total collective dose (the last number in -the last column in Appendix D) was calculated and multiplied by the total collective' dose that had been estimated or obtained from the S 20.407 annual report. This product is the collective dose shown in the column headed " Operations" in Appendi'x C. ( (3) The collective. dose shown in the column headed " Maintenance and Others" in l Appendix C was determined by first summing the collective doses incurred by workers in the five remaining functions given in Appendix D and then calculating the fraction that this dose is of the total collective dose. This fraction was multiplied by the total collective dose estimated from the S 20.407 annual reports to yield the collective dose shown in this column of Appendix C. (4) A similar procedure was followed in determining the collective dose for the columns headed " Contractor" and " Station & Utility" in Appendix C. 4.7 Health Implications of Average Annual Doses If any damage to health is caused by exposure to radiation in the workplace, it would likely manifest itself as certain types of cancer in the exposed worker or, less likely, as inherited genetic damage in the first few generations of the ~ workers' offspring. However, the likelihood of cancer or genetic damage occur-ring'as a result of radiation exposure experienced by workers in the nuclear industry is small. A vast amount of scientific information is available from which estimates of these risks can be made. Much of this information, however, has been obtained from epidemiologic studies of human populations at levels of l exposure considerably higher than those normally experienced in the workplace. j Complementary to this, information obtained from many animal and cell biology 42

l l l stu' dies have greatly enhanced our knowledge and understanding of the biological effects of ionizing radiation. Although.using this information to estimate risks in the workplace introduces uncertainties, these uncertainties can be dealt with in such a manner that the risk is not likely to be underestimated. Thus, the discussion below is likely to overstate the health implications rather than understate them. Cancer induction as a result of radiation-exposure has been examined by many organizations having scientific and medical expertise in the subject. One of these, the National Academy of Sciences (NAS), published a comprehensive review of the biological effects of ionizing radiation in 1980 [Ref. 16]. Based on-this report, a large working population receiving one million person-rems (person-cSv) might suffer an estimated 100 to 200 additional cancer deaths over the remaining years of their lives. This risk estimate can be applied to the 59,400 person-rems (person-cSv) (Table 3.1) and the 108,500 workers who received measurable exposures in 1984. The result is that for these workers the ex-pected number of additional cancer deaths that might result from radiation dose received that year would be about twelve. These deaths would occur many years following the exposure and would be in addition to the approximately 20,000 cancer deaths that occur normally in a population of 108,500 workers without exposure to this amount of radiation. Perhaps more meaningful to the individual workers are the health implications to the workers receiving the average dose of 0.55 rem (cSv) or the maximum dose of eight or nine rems (cSv) during 1984. The estimated increased cancer death risk is about~one chance in 10,000 for the aver-age dose and about one chance in 1,000 for the maximum dose. Should a worker receive 0.55 rem (cSv) per year continuously during his entire working career (working from age 20 until age 65) his risk of dying from cancer could increase by less than 2% over the normal risk of dying of cancer. These risks can be compared to the American Cancer Society's estimates of one chance in four of developi'g cancer and one chance in five of dying of cancer. n The potential genetic effects from a worker population receiving about 59,400 person rems (person-cSv) is very small compared to genetic damages that normally occur spontaneously in a population of this size. Approximately 100,000 serious genetic defects occur normally in one million live births, i.e., an average of about one serious defect in every ten live births. Theoretically, the total genetic damage in the first generation children of the 108,500 exposed

• workers would, according to the 1980 NAS report, be an increase of_four or less cases (less than 0.05%)-compared to the expected 10,000 cases that occur normally.

No significant increase in the number of genetic defects has been observed in the children of individuals exposed to ionizing radiation at Hiroshima and Nagasaki, Japan. i ^ Assuming that, on the average, each exposed person will have one child in the

future, i.e., 108,500 children born to this worker population.

1 ) 43

5 TERMINATION DATA SUBMITTED PURSUANT TO 10 CFR S 20.408 5.1 Termination Reports, 1969-1984 In 1969, the Atomic Energy Commission (predecessor of the NRC) began requiring certain categories of licensees

• to submit personal identification and exposure information upon the termination of each monitored person's employment or work

. assignment in the licensee's facility. The appropriate information on each report has been manually coded and entered into the Commission's computerized Radiation Exposure Information Reporting System (REIRS) for permanent retention. The data are retrievable by several criteria - social security number, name, facility, etc. - which allows statistical analysis of the data as well as the tracing of individual dose histories. During the years.that this information has been collected, some 1,500,000 termination records have been received for 350,000 individuals who have been reported as having terminated approximately their employment at facilities in one or more of the categories of covered li-The figures given for the number of reports and the number of individ-censees. uals are different because numerous individuals have been terminated more than once over the years and because some individuals may have had external doses reported for more than one part of the body, as well as estimates of internal depositions of radioactive material, each of which is counted as one record. Table 5.1 provides a breakdown of this information for individuals terminating during each of 16 years and, since the majority of termination reports are now submitted by nuclear power facilities, the number of records and individuals that they reported are displayed separately. One can see that the number of records continues to increase each year, primarily because of the growing need for workers at power reactors. 5.2 Limitations of Termination Data When examining or using the statistics that are based on the termination data, one should keep in mind that these data have various limitations: (1) some licensees submit a termination report for each monitored contractor employee at the end of.each monitoring period rather than waiting until the individual actually completes his work assignment at the facility, (2) the period (s) of~ exposure that are reported for terminating individuals may indicate the moni-toring period ducing which he may have been exposed to radiation rather than the actual dates of exposure, (3) some licensees report cumulative periods of exposure and doses rather than the actual periods and dose incurred during each period, and (4) licensees having more than one licensed facility sometimes include in the termination report submitted when the individual leaves the second facility the dose that he incurred at the first facility, which may already have been reported. Although attempts have been made to correct for some of these problems, they are still a small additional source of error in any statistics developed from the termination data.

• Commercial nuclear power reactors; industrial radiographers; fuel processors, fabricators, and reprocessors; and manufacturers and distributors of specified quantities of byproduct material.

Three other types of NRC licensees are now required to submit reports pursuant to 10 CFR SS 20.407 and 20.408: geologic repositories for high-level radioactive waste; receivers of radioactive waste from other persons for land disposal; and independent installations for the storage of spent fuel. 44

Table 5.1 TERMINATION REPORTS SUBMITTED TO THE NRC 1969-1984** All Covered Categories

• Power Reactor Licensees Number of Number of Number of Number of YEAR Termination Terminating Termination Terminating Records Individuals Records Individuals 1969 5,009 3,992 790 727 1970 8,606 6,069 2,126 1,908 1971 12,955 8,874 2,246 2,197 1972 15,685 10,353 4,997 3,888 1973 19,985 15,588 11,525 9,071 1974 30,389 21,499 16,946 11,603 1975 44,676 27,415 38,376 22,627 1976 70,230 40,079 63,593 35,294 1977 88,295 42,183 81,074 36,864 1978 96,010 44,541 85,308 37,359 1979 133,470

~58,913 118,218 48,305 1980 175,408 73,662 162,515 65,092 l 1981 189,762 72,603 181,327 67,482 1982 177,610 65,347 171,836 62,101 1983** 196,731 69,647 190,957 67,098 1984**- 231,317 67,408 228,983 66,360

• Commercial nuclear power reactors; industrial radicgraphers; fuel processors, 4

fabricators, and rerny.iasors; manufacturers and distributors of specified quantities of bypret > d materials; low-level waste disposal facilities; independent spent fuel storage installations; and geologic high-level waste respositories.

• • The termination data for about 15% of the individuals terminating during 1983-or 1984 have not been entered into the REIR System.

5.3 Transient Workers per Calendar Quarter One use of the information contained in the termination reports is the examina-tion of the doses being received by short-term workers. Since nearly half of the termination reports indicated periods of exposure that were less than 90 days, it is possible that several thousand individuals could have been employed by two or more licensees during the same calendar quarter. Thus, in this report, a " quarterly transient" worker is defined to be an individual who began and terminated employment at two or more different licensed facilities within one calendar quarter. This allows one to examine the doses of those workers most likely to approach the quarterly limits without their employer's knowledge since they move so rapidly among facilities. 45

i Table 5.2 displays some of the information gathered from these termination re-ports that were-submitted by all covered licensees and by licensed nuclear power facilities, separately. One can quickly see that the vast majority of these individuals are monitored by nuclear power facilities. The number of these individuals increased about twentyfold during the five years 1972 through 1976, but has remained between 2,350 and 2,550 since 1981. The top part of Table 5.2 also shows that the average individual dose (which is close to being a quarterly i dose for these workers) continues.to decrease, dropping to an average dose of 0.26 rem (cSv) in 1984. 4 The bottom half of the table separates the information shown for power reactor licensees into that for reactor workers employed by two, three, and four or more different reactor licensess. The table shows that most of these transients ~, were reported by two different licensees during a quarter. The smaller number of workers terminated by three or more licensees received higher average doses than those terminated by two employers every year until 1982. From that year onward, the average dose of workers terminated from three or more facilities has been about the same or less than the average dose of the workers terminating l from two nuclear power licensees. Examination of these records also revealed that some individuals have worked for 1 l as many as six different NRC licensees during one calendar quarter. However, on the average, less than two instances per year have been found in which a worker exceeded his. quarterly limit of three rems (cSv) as a result of his working at two or more different licensed facilities within one calendar quarter. In a few of these instances, the doses that the workers had received while employed by the fi~st utility were revised upward later in the year. The underestimates r resulted in quarterly doses that slightly exceeded three rems (cSv). A very few quarterly exposures exceeding three rems (cSv) may have gone undetected because a worker's dose was received over a period spanning a calendar quarter and was reported for the entire period. When this happens, it is not possible l to determine the portion of the dose received during each quarter. 5.4 Transient Workers per Calendar Year Since the number of transient workers per calendar quarter comprise only a small percentage of the total number of individuals terminating each year, it was decided to change the criteria so that the records of more workers would be exam-l ined. This was done by selecting the records of all individuals who began and terminated two or more periods of employment with at least two different~ reactor l facilities within one calendar year and summing each worker's whole body doses. An examination of these data would allow one to determine the number and average dose for these " annual transients." Since more than 95% of these transients i, l are reported by nuclear power facilities, only the termination records of these individuals were examined in detail. Table 5.3 summarizes the number and doses of the transients round among the individuals terminating during the eight years from 1977 through 1984. The number of these workers increased from about 3,200 workers in 1977 to about 6,000 in 1984. However, after reaching a high of about 6,000 person-rems (person-cSv) in 1980, the collective dose incurred by these workers decreased'to about 5,500 person-rems (person-cSv) in 1984. The average dose also decreased somewhat in 1984 to a value of 0.91 rem (cSv). 46

1 f I Table 5.2 TRANSIENT WORKERS PER CALENDAR QUARTER i j 1973-1984 All Covered Licensees Power Reactor Facilities No. of Persons Collective Average No. of Persons Collective Average Terminated by Two Dose Individual Terminated by Two Dose Individual 1 or more Licensees (person rems or Dose (rem or more Licensees (person rems or Dose (rem i Year Within One Quarter person-cSv) or c5v) Year Within One Quarter person-cSv) or cSv) 1973 157 l't 0.88 1973 146 123 0.84 1 1974 332 176 0.51 1974 285 158 0.55 ) 1975 709 508 0.72 1975 684 493 0.72 1 1976 1299 904 0.70 1976 1257 889 0.71 1 1977 1.481 870 0.59 1977 1437 851 0.59. 1978 1570 720 0.46 1978 1500 680 0.45 i 1979 1809 836 0.46 1979 1.754 802 0.46 1980 2,355' 1063 0.45 1980 2218 1033 0.47 i 1981 2,344 955 0.41 1981 2,335 952 0.41 1982 /J25 900 0,39 1982 .2,294~ 879 0.38 t 1983* 2,437 776 0.32 1983* 2,401 755 0.31 1 1984* 2,544 674 0.26 1984* 2519 654 0.26 i Power Reactor Facilities No. of Workers No. of Workers No. of Workers Year Terminated by Collective Average Terminated by Collective Average Terminated by Collective Average Two Licensees Dose Dose Three Licensees Dose Dose >Three Licensees Dose Dose 4 ) 1973 133 108 0.81 11 13 1.18 2 2 1.00 l 1974 255 132 0.52 28 24 0.86 2 1 0.50 1975 609 427 0.70 70 62 0.89 5 4 0.80 1976 1,095 720 0.66 145 146 1.01 17 23 1.35 1977 1,271 718 0.56 147 115 0.78 17 18. 1.06 1978 1,303 590 0.45 165 75 0.45 32 15 0.47 j 1979 1,527 647 0.43 178 130 0.73 49 25 0.51 1980 1,896 856 0.45 259 140 0.54 63 36 0.57 i 1981 1,967 780 0.40 308 145 0.47 60 27 0.45 1982 1,960 761 '0.39 276 106 0.38 58 12 0.21 i 1983* 2,032 663 0.32 290 76 0.26 79. 16 0.20 j 1984* 2,136 542 0.25 286 79 0.27 97 11 0.11 1 1

• Figures for these years may be incomplete because the termination data for about 15% of the individuals terminating during 1983 or 1984 1i have not been entered into the REIR System.

I 1

Table 5.3 TRANSIENT WORKERS PER CALENDER YEAR AT NUCLEAR POWER FACILITIES 1977-1984 Collective No. of No. of Workers Dose Average Year Commercial Terminated by (person-rems or Dose Reactors Two or More Licensees or person-cSv) (rems or cSv) 1977 57 3,161 3,776 1.19 1978 64 3.202 3,231 1.01 1979 68 3,938 3,891 0.99 1980 69 5,463 6,028 1.10 1981 71 5,425 5,381 0.99 1982 75 5,303 5,610 1.06 1983* 76 5,672 5,935 1.05 1984* 79 6,024 5,489 0.91 5 No. of Workers No. of Workers t Year Terminated by Collective Average Terminated by Collective Average Terminated by Collective Average No. of Workers Two Licensees Dose Dose Three Licensees Dose Dose >Three Licensees Dose Dose 1977 2,166 1,987 0.92 572 842 1.47 423 947 2.24 i 1978 2,119 1,490 0.70 621 792 1.28 462 949 2.05 1979 2,761 2,097 0.76 688 805 1.17 489 989 2.02 1980 3,772 3,444 0.91 959 1,245 1.30 732 1,339 1.83 1981 3,745 3,033 0.81 924 1,172 1.27 756 1,176 1.56 1982 3,645 3,349 0.92 913 1,131 1.24 745 1,130 1.52 1983* 3,882 3,350 0.86 1,092 1,522 1.39 698 1,063 1.52 1984* 4,219 3,350 0.81 1,066 1,236 1.16 739 856 1.16 " Figures for these years may be incomplete because the termination data for about 15% of the individuals terminating during 1983 or 1984 have not been entered into the REIR system. 1

The lower portion of Table 5.3 shows the number and doses of workers who were terminated by two, three, and four or more different licensees during each calendar year. In 1984 there were sharp decreases in the collective and average doses of workers terminated by more than two facilities. This is probably due to the utilities' increased efforts to keep the annual doses of all workers less than five rems (cSv). This is further borne out by the fact that, as shown in J Table 5.4a, the distribution of the doses of these transient workers was such j that there were only 11 workers with doses greater than five rems (cSv) in 1984. Table 5.4a shows that in prior years, there were usually between 50 and 100 transient workers with annual doses greater than five rems (cSv). Another way in which the distribution of the doses received by transient workers can be useful is in the determination of the impact that the inclusion of these individuals in each of two or more licensee's annual reports had on the annual summary (Table 4.4) for all nuclear power facilities (one of the problems i mentioned in Section 2). ~ Table 5.4a shows the actual distribution of these transient workers' doses as determined from the above-described termination reports and compares it with the distribution of the doses of these workers as they would have appeared in a compilation of the annual statistical reports 1 submitted by each of the nuclear power facilities. During each of the years shown, each of the transient workers was counted an average of 2.6 times. This was not surprising because some individuals were reported by as many as nine different facilities. Table 5.4b illustrates the impact that the multiple reporting of these transient workers had on the staff's compilations of the annual statistical reports for the years 1978 through 1984. Since each nuclear power facility reports the distribution of the doses received by workers while monitored by the particular facility during the year, one would expect that a summation of these reports would result in individuals being counted several times in dose ranges lower than the range in which their total accumulated dose (the sum of the personnel monitoring results incurred at each facility during the year) would actually place them. Thus, while the total collective dose would remain the same,.the number of workers, their dose distribution, and average dose would be affected by this multiple reporting. This was found to be true because too few workers were reported in the higher dose ranges. For example, in 1983 the compiled annual reports indicated that 85,694 workers received a measurable dose, 85 of whom received doses greater than five rems (cSv). After accounting for those individuals that were reported more than once, the adjusted distribution indi-cated that there were only 80,552 workers that received a measurable dose and that 163 of them received doses greater than five rems (cSv). This resulted in an average measurable dose of 0.70 rem (cSv) rather than the 0.66 rem (cSv) obtained from the compiled reports. Since the number of transient workers receiving measurable doses is only about 5% of the total number of workers receiving measurable doses during the year, their impact on most of the statistics derived from compilations of the annual summary reports is not very great. However, when examining the number of annual doses exceeding five rems, one finds that the adjusted statistical distribution indicates that the number of workers who received doses greater than five rems i (cSv) was between 50 and 80 more than the number found in the compiled statistical distribution each year until 1984. This is more clearly shown in Table 5.5, where it'can also be seen that in 1984 the number of workers receiving doses ~ greater than five rems (cSv) was found to be 11 workers. Most of this reduction 49

Table.5.4a ACTUAL AND COMPILED DOSE DISTRIBUTIONS OF TRANSIENT WORKERS PER CALENDAR YEAR AT POWER REACTOR 5 Collective Avg. Dose Avg. Measurable. Number of Individuals with Whole Body Doses in the Ranges (rems or csv) (Person- -Dose cose Type of. Distribution Year Less than Meas'ble 0.10-0.25-0.50-0.75-1.00-2.00-3.00-4.00-5.00-6.00-7.00-8.00-9.00-Total rem or (rem or (rea or and Measurable <0.10 0.25 0.50 0.75 1.00 2.00 3.00 4.00 5.00 6.00 7.00 8.00 9.00 10.00 >10 Individuals -csv) c5v) esv) b,'231 1.01 1.12 3 Transients - 1978 308 885 317 282 177 131 463 307 168 107 42 13 1 0 1 3,202 Actual Ofstrtbution of l b,231 0.39 0.52 f 3 of Iransients - 1978 2.079 2,423 918 788 488 382 873 262 51 11 0 2 8,277 Compiled Distribution b,888 0.99 1.09 3 of Transients - 1979 373 883 398 358 281 240 678 410 195 71 32 14 4 1 3.938 Actual Distribution b,888 0.40 0.52 3 of Transients - 1979 2,130 2,676 1,259 1,048 673 460 1,040 313 46 13 1 9.649 Compiled Distribution b,028 1.10 1.22 6 of Transients - 1980 533 1,175 565 482 388 277 829 595 353 174 47 25 15 4 1 5,463 Actual Olstribution b,028 0.43 0.56 6 of Transients - 1980 3.207 3,910 1,639 1,398 900 661 1,632 503 74 29 4 4 4 13,955 Compiled Distribution b,381 0.99 1.08 5 Actual Distribution 954 614 275 107 30 17 0 1 5,425 of Transients - 1981 562 1,271 482 422 380 310 o,381 0.39 0.52 5 13,955 Compiled Distribution of Transients - 1981 3,640 3,767 1,473 1,418 963 716 1.550 349 69 8 1 1 b,610 1.06 1.20 5 5,303 of Transients - 1982 623 1.226 452 397 332 '286 867 536 339 184 42 18 1 0 0 1 Actual Distribution b,610 0.41 0.57 5 of Transients - 1982 3,803 3,480 1,432 1,308 842 661 1,502 506 87 20 1 13,642 Compiled Distribution D,935 1.05 1.16 5 Transients - 1983 838 1,306 441 41u 318 298 864 565 381 166 56 23 4 2 5,672 Actual Distribution of b,935 0.41 0.59 5 of Transients - 1983 4,372 3,654 1,311 1,219 839 662 1,593 584 94 13 5 2 14.348 Compiled Distribution b,489 0.91 1.09 5 of Transients - 1984 998 1,462 444 . 4 t9 341 297 928 662 380 92 9 2 6,024 Actual Distribution b,489 0.36 0.54 5 of Transients - 1984 5,043 3,909 1,367 1,268 883 696 1,575 447 58 7 0 15,253 Compiled Distribution " Includes data from Fort St. Vrain. Collective dose found by summing the actual doses reported for those workers on their termination ecports. b .ble 5.4b, ' Distribution found by subtracting the actual from the complied distribution shown in Table 5.4aand then suctracting this difference from the compiled statistical d niumi

... _. -. _, _, _ _ _.., _. _.m ._...___-.m m _ -. ~ _ _ _ 4 .__m _.m_.m . - _. - ~ i I Table 5,4b t i EFFECTS OF TRANSIENT WORKERS ON ANNUA 1. STATISTICAL CWILATIONS t T pe of Dtstet:ution Collective Avg. 3 j Numt.er of Individaals with Whole 8sdy Coses in the Ranges (rems or c5v) ' Dose Avg. Measurable. and (Person-Dose Dose Year less than Meas ' t.1 e 0.10- ' O.50 0.75 1.00 2.00 3.00 4.00 5.00

6. 00 7.00 8.00 9.00 10.00

>10 Individuals esv) c5v) c5v) 0.25-0.50-0.75-1.00-2.00-3.00-4.00-5.00-6.00-7.00-8.0^- 9.00-Total ren or (rem or (rea or Measurable. <0.10 0.25 i " Complied Statistical Distribution - 1973 31,039 16,673 6,943 5,504 3,399 2,498 6,405 2,989 1,080 418 67 26 8 0 0 2 77,051 31,806 0.41 0.69 } ' Adjusted Statistical Distribution - 1973 29,268 15,135 6,342 4,99d 3,088 2,247 5,995 3,034 1,197 514 109 37 9 0 1 2 71,976 31,668 0.45 0.74 " Complied Statistical O t s t ritiution - 19 79 42,340 24,632 9,883 8,090 5,147 3,426 7,898 3,306 1,255 477 86 28 13 2 0 1 106,584 39,987 0.38 0.62

1. Adjusted Statistical Distribution - 1979 40,583 22,431 9,022 7,400 4,755 3.206 7,546 3,403 1,404 545 117 42 17 3

0 1 100,865 39,525 0.39 0.66

• Ccepiled Statistical nistribution - 1980 47,377 29,695 11,751 9,820 6,082 4.518 11.474 4,515 '1,537 686 192 98 18 3

128,668 53,799 0.42 0.67 4 I

1. Adjusted Statistical

) ~ Ofstribution - 1980 44,703 ' 26,960 10,677 8,904 5,570 4,134 10,671 4,607 1,816 831 235 119 29 7 1 120,166 53,626 0.45 0.72 l " Compiled Statistical Distrib,, tion - 1981 42,323 29,332 12,217 10.326 6,625 4,903 11,766 4,546 1,763 486 93 81 11 2 1 1 124,506 54,152 0.43 0.66 I ' Adjusted Statistical 5 I Distribution - 1981 39,245 25,816 11,22t> 9.330 6,042 4,497 11,170 4,811 1,969 585 122 91 11 3 1 1 115,946 54,142 0.47 0.71 } ' Compiled Statistical j Distribution - 1982 45 871 31,502 12,693 10,814 6,739 4.795 10,855 4,686 1,814 432 56 13 4 0 1 130.275 52,191 0.40 0.62 j

1. Adjusted Statistical Distribution - 1982 42,691 29,248 11,713 9,903 6,229 4,420 10,220 4,716 2,066 596 97 31 5

0 1 1 121,937 52,191 0.43 0.66 l

• Compiled Statistical 4

C a stribution - 1983 52,036 31,948 12,211 10,296 6,470 4,708 12,171 5,311 1,950 544 65 16 4 137,730 56,472 0.41 0.66 CAdjusted Statistical Distribution - 1983 48,502 29,600 11,341 9,487 5,949 4,344 11.442 5,292 2,231 697 116 37 8 2 129,054 56,472 0.44 0.70 j d

• Compiled Statistical Distribution - 1984 59,616 39,884 14,764 11,492 7,166 5,396 12.453 4.9 76 1,675 295 157,708

$5,214 0.35 0.56 Adjusted Statistical Distribution - 1984 55,%1 .37,437 13,841 10,643 6,624 4,997 11,806 5,1R2 1,997 380 9 2 148,479 55,214 0.37 0.59 i j 'Includ, s data f rom Fort St. Vrain. j Collective dose found by summing the actual doses reported for those workers on their termination reports. Distribt. tion fOund by subtracting the actual from the Compiled distribution shown inTable 5.44 and then subtracting this dif ference from the compiled statistical distribution shown in Table 5.4b. ? I. t 4 ,v.

i is probably due to the fact, as stated in the footnote, that not all of the 1984 termination reports had yet been processed. After discussions with staeral firms' that provided contract personnel to work at nuclear power facilities during 1984, it was determined that 110 would be a more realistic estimate of the number of workers with annual doses greater than five rems. Table 5.5 ANNUAL WHOLE BODY DOSES EXCEEDING'FIVE REMS (cSv) Compiled Number Adjusted Number Percent of Year >5 Rems (cSv) >5 Rems (cSv) Workers i 1977 270 351 0.9 1978 103 158 0.4 1979 130 180 0.3 1980 311 391 0.5 1981 189 235 0.3 1982 74 135 0.2 l 1983* 85 163 0.2 1984* 0 11(110)** <0.1(0.1)**

• Figures for these years may be incomplete because the termination data for about 15% of the individuals termin-ating during 1983 or 1984 have not been entered into the i

REIR system.

• • Estimate based on discussions with firms providing contract l

personnel.

5. 5 Temporary Workers per Calendar Year To complete the exmination of the doses received by the short-term workers em-

] ployed at nuclear power facilities, Table 5.6 summarizes the data compiled on " temporary workers". For purposes of this report, temporary workers were defined i to be those individuals who began and ended their employment at only one nuclear i power f acility during the calendar year. Table 5.6 shows that the number of these temporary individuals has increased by some 64% between 1977 and 1984 l while the number of reactors has increased by about 40% during this time. The number of temporary workers receiving a measurable dose,.however, has increased i by only 27%. The average dose per monitored individual remains at about 0.30 rem (cSv) and, since about half of them received less than measurable doses, the average measurable dose remains at about 0.60 rem (cSv). Comparison of these figures with those in Table 5.4b reveals that these workers comprised 28% of the total number of workers (92,918) receiving a measurable dose in 1984, while their collective dose was only 26% of the total collective dose. Their average measurable dose was also slightly less than the overall average of 0.59 rem (cSv). 4 1 4 i 52 - - _ ~... - -, _ _ _. _. -. _ -. - -

Table 5.6 TEMPORARY WORKERS PER CALENDAR YEAR (Individuals Terminated by Only One Employer) Collective Average Average Number of Number with Dose Dose Measurable No. of Temps. Measurable (person rems or (rem or Dose Year Reactors Monitored Doses person-cSv) cSv) (rem or cSV) 1977 57 29,090 19,094 11,373 0.39 0.60 1978 64 28,864 17,110 9,821 0.34 0.57 1979 68 38,347 21,491 9,488 0.25 0.44 1980 69 48,383 28,305 16,168 0.33 0.57 1981 71 48,265 28,675 16,755 0.35 0.58 1982 75 44,503 25,646 14,266 0.32 0.56 1983* 76 47,428 24,144 14,902 0.31 0.62 1984* 79 47,622 26,188 14,653 0.31 0.56

• Figures for these years may be incomplete because the termination data for about 15% of the individuals terminating during 1983 or 1984 have not been entered into the REIR System.

5.6 Dose Distribution by Sex In 1980 the sex of terminating individuals was first entered into the REIR System, along with the usual identification and dose data that have always been entered. Since the sex of the individual is not normally indicated on the termination reports, the sex was determined by examining the first name or salutation of each individual for whom either one was shown. The REIR System now contains the sex of about 65% of the individuals terminating since 1980. Table 5.7 summarizes the results of several analyses of the termination data submitted for individuals for whom the sex had been entered in the REIR System. Females comprise between 5% and 8% of the total number of the annual transients (individuals beginning and ending one or more periods of employment during the year). Table 5.7 also shows that the collective dose incurred by these females is only about 1.3% of the total collective dose incurred by the total number of i annual transients. Consequently, the average measurable dose for female workers was found to be 0.26 rem (cSv) while it was 0.73 rem (cSv) for the male workers terminating in 1983. Figure 5.1 shows the distribution of doses of these workers, and one can quickly see that some 90% of the females received doses that were less than 0.10 rem (cSv); only 65% of the males received such doses. There were no f males in this population that received a dose greater than five rems (cSv), but there were about 100 male workers that received doses between five and nine rems (cSv) in 1983, the last year for which this analysis was done. 53 i

l Table 5.7 i SEX VS DOSE PROFILES OF TERMINATED INDIVIDUALS i 1980 1980 1981' 1981 1982 1982 1983 1983 Females Males Females Males Females Males Females Males Number of individuals 3,901 42,844 2,930 40,462 2,281 39,065 3,207 42,106 monitored j Percentage of total 8.3% 91.7% 6.6% 93.4% 5.5% 94.5% 7.1% 92.9% monitored Percentage of workers 3.6%- 96.4% 3.8% 96.2% 2.2% 97.8% 3.6% 96.4% with measurable doses Percentage of total 1.0% 99.0% 1.1% 98.9% 1.2% 98.8% 1.3% 98.7% collective dose 22 Average individual 0.05 0.46 0.07 0.46 0.08 0.41 0.07 0.42 dose (rems or cSv) Average measurable 0.19 0.70 0.20 0.69 0.21 0.67 0.26 0.73 dose (rems or cSv) Highest annual dose 4-5 8-9 3-4 8-9 2-3 6-7 4-5 8-9 (rems or cSv) i }

l l 1 Figure 5.1 Dose Distribution of Males and Females Terminating from LWRs 1983 70 60 Males - Comprised 92.9% of the 45.313 monitored individuals. or 96.4% of the 25,195 workers with measurable doses, for whom sex was determined. 4 They incurred 98.7% of the collective dose and received an average measurable dose of 0.73 rem (cSv) @ Females -- comprised 7.1% of the 45.313 monitored individuais. or 3.6% of the 25.195 50 u. workers with measurable doses, for whom sex was determined. E l They incurred 1.3% of the collective dose and received an average O measurable dose of 0.26 rem (cSv) a < 40 E O u. T O F-E 30 O i E u. O F-3 20 O E l N Y Y 10 mim NOT MEAS. 0.10-0.25-0.50-0.75-1.0-2.0-3.0-4.0-75.0 MEAS. 0.10 0.25 0.50 0.75 1.0 2.0 3.0 4.0 5.0 l DOSE RANGES (rems or cSv) l l l l 55

"1 1 1 5.7 Age Distribution Since the REIR System contains birth dates for about 60% of the approximately 300,000 individuals that have terminated from nuclear power facilities since ~ 1969, it is possible to examine the age distribution of these terminated workers. Table 5.8 shows the percentage of these individuals in each of twelve age groups, ranging from 20 years old to 79 years old as of the year 1985. There is a small portion of the workers less than 25 or older than 65 with the vast majority (63.8%) being between 25.and 45 years of age. Table 5.8 l AGE DISTRIBUTION OF TERMINATED REACTOR WORKERS i AS OF 1985 Age Range (Years) Percent in Range i 20-24 2.0 25-29 12.4 30-34 18.1 35-39 19.1 40-44 14.1 45-49 10.0 50-54 7.8 55-59 6.7 60-64 5.3 65-69 3.1 70-74 1.2 .75-79 0.2 i > 80 0.1 l l 1 l i 56 I

l 6 PERSONNEL OVEREXPOSURES - 10 CFR S 20.403 and 10 CFR S 20.405 6.1 Control Levels One requirement of the above referenced sections of Part 20, Title 10, Chapter I, Code of Federal Regulations, is that all persons licensed by the NRC must submit reports of all occurrences involving personnel radiation exposures that exceed certain control levels, thus providing for investigations and corrective actions as necessary. The term " overexposure" is not necessarily intended to indicate that a worker has been subjected to an unacceptable biological risk. Based on the magnitude of the exposure, the occurrence may be placed into one of three j categories: (1) Category A 10 CFR S 20.403(1) - Exposure of the whole body of any individual to 25 rems (cSv) or more; exposure to the skin of the whole body of any individual to 150 rems (cSv) or more; or exposure of the extremities (feet, ankles, hands or forearms) of any individual to 375 rems (cSv) or more. The Commission must be notified immediately of these events. (2) Category B 10 CFR S 20.403(b) - Exposure of the whole body of any individual to 5 rems (cSv) or more; exposure of the skin of the whole body of any individual to 30 rems (cSv) or more; or exposure of the extremities to 75 rems (cSv) or more. The Commission must be notified within 24 hours of these events. (3) Category C 10 CFR S 20.405 - Exposure of an individual tc radiation or concentra-tions of radioactive material that exceeds any applicable quarterly limit in Part 20 or in the licensee's license but is less than the values given above. This includes reports of whole body exposures that exceed 1.25 rems (cSv), or that exceed 3 rems (cSv), as discussed in Section 3.2. Reports of skin exposures that exceed 7.5 rems-(cSv) and extremity exposures that exceed 18.75 rems (cSv) are included, l and reports of exposures of individuals to concentrations in excess of the levels given in 10 CFR S 20.103 and Appendix B usually fall into this category as well. These reports must be submitted to the Commission within 30 days of the occurrence. 6.2 Summary of Overexposures i Table 6.1 summarizes all the occupational overexposures to external sources of radiation as reported by Commission licensees pursuant to S 20.403 and S 20.405 during the years 1977 through 1984. For 1982, 1983, and 1984, it shows the [ number of individuals that exceeded various limits while employed by one of several types of licensees. For the years 1977 through 1981, only the over-exposures reported by licensed industrial radiography firms are shown separately. Most of the occurrences included in the "Others" category come from research l 57 i. _. ~ _, _,.

s . Table 6.1 i PERSONNEL OVEREXPOSURES TO EXTERNAL RADIATION 1977-1984 2 Types of Overexposures and Doses License Persons and Whole Body (rems or c5v) Skin (rems or c5v) Extremity (rems or c5v) i Year Category Doses (rems or c5v) <5.00 15 <25 125 >7.5<30 130<150 >150 >18. 75< 75 175< 375 >375 f Industrial No. of Persons 3 1 3 Radiography Sum of Doses 12.5 8.2 127.9 4 Power No. of Persons 3 Reactors Sum of Doses

7. 6 1984 Medical No. of Persons 2

1 1 Facilities Sum of Doses-

5. 7

5. 2 18.8 1

Marketing No. of Persons & Manufact. Sum of Doses 21.8 = t 3 1 Others No. of Persons 1 Sum of Doses 1.7 70.1 1 Industrial No of Persons 1 I Radiography Sum of Doses 4.7 650 Power No. of Persons 8 i Reactors Sum of Doses 14.9 .l 1983 Medical No. of Persons 3 Facilities Sum of Doses 5.2 a Marketing No. of Persons l 2 & Manufact. Sum of Doses 25 49.5 Others No. of Persons 25 2 837 228 Sum of Doses Industrial No. of Persons 6 3 Radiography Sum of Doses 16.1 20.7 Puwer No. of Persons 1 1 Reactors Sum of Doses 5.0 9.4 1982 Medical No. of Persons 2 j Facilities Sum of Doses 1.9 Marketing No. of Persons 1 & Manufact. Sum of Doses

1. 3 Others No. of Persons 1

15 2 1 Sum of Doses 4.3 569 206 ~1ndustrial No. of Persons 7 1 7 1981 Radiography Sum of Doses 12.2 7.1 C All Others' No. of Persons 10 2 1 4 som of Doses 24.1 30.9 8.1 102.9 4 j l Industrial No. of Persons 4 1 1 ^ 1980 Radiography Sum of Doses 23.6 7.7 56.0 i All Others No. of Persons 84 3 3 Sum of Doses 285.4 73.5 33,000 d Industrial No. of Persons 8 3 ) 1979 Radiography Sum of Doses 25.9 34.6 All Others No. of Persons 30 3' 7 1 2 15 19 i Sum of Doses 65.0 39.0 125.7 40.0 327 468.1 147 k Industrial No. of Persons 4 1 1 1978 Radiography Sum of Doses 15.3 21.6 150 All Others No. of Persons 12 4 1 2 2 ) Sum of doses 36.0 51.9 27.3 13.2 49.2 h Industrial No. of Persons 7 2 1 1977 Radiography Sum of Doses 23.7-23.2 630 I No. of Persons 38 1 '3 10 All Others Sum of Doses 75.0 220 40.0 224 'This person simultaneously received an extremity overesposure of 61 rems (c5v) that is not shown. b l ihis person simultanrously received a skin overexposure of 15.2 rems (c5v) that is not shown. l One of these persons simultaneously received an extremity overexposure of 21 rems (c5v) that is not shown. C One of these persons simultaneously received an extremity overexposure of 46 rems (c5v) that is not shown. 4 'one of these persons simultaneously received an entremity overexposure of 45 rems (c5v) that is not shown. I These two persons simultaneously received extremity overeuposures of 82 and 38 rems (c5v) that are not shown. l This person simultaneously received a skin overeuposure of 13 rems (c5v) that is not shown. j ,This person simultaneously received an extremity overexposure of 18 rems (c5v) that is not shown, j This person simultaneously received an extremity overexposure of 26.9 rems (c5v) that is not shown. 58

facilities, universities, and measuring and well-logging activities. In 1980 the total number of individuals reported as being overexposed was 96, a consider-able increase over the numbers reported for other years. This increase was due to the overexposure of some 67 individuals at one nuclear power facility during steam generator repair work. They received doses between three and five rems. In 1984, the total number of overexposed individuals was 19, which is the lowest number reported during the years shown. The highest whole~ body dose in 1984 was 8.2 rems (cSv). In each of the years from 1977 thronoh 1983, the highest whole body doses were 220, 27.3, 17.0, 7.7, 9.4, and 25 rems (cSv), respectively. There were two incidents in 1984 in which external exposures of the magnitude described in Category A or B were received. In one incident, a radiographer received a whole body dose of 8.2 rems (cSv) while performing radiography in a field site in Utah. The radiographer failed to perforn niequate radiation i surveys after making radiographic exposures and did not realize that the radio-t graphic source had not returned to the fully retracted and shielded position. In the second incident, the dosimeter worn by a nuclear medicine. student indicated a whole body dose of 5.2 rems (cSv) for the month of Decembec. Investigation failed to find the cause of exposure. and it was assumed that the student incurred the dose. Although both of trese doses are all in excess of NRC limits, they are below the level where observable medical effects would be expected. 1 There were two instances in 1984 in which the estimated intake of radioactive material exceeded the quarterly intake limit, equivalent to exposure for 520 hours at the maximum permissible concentrations (MPC-hours). Both incidents involved thyroid uptakes of iodine-125 in which one individual received an estimated thyroid dose of 2,000 rems (cSv) or less and the o'her received a thyroid dose of 300 rems (cSv) or less. Both individuals were involved in research activities, 1nd their excessive thyroid burdens were discovered during routine bioassays. It is doubtful that either was the result of excessive airborne concentrations of iodine-125, but exactly how the uptakes actually occurred was never discovered. No change in thyroid function was observed in either individual. There was one report of personnel exposure to airborne concentrations of soluble uranium in excess of the applicable limit equivalent to exposure for 40 hours at the maximum permissible concentration in 1984. The report indicated that an uptake equal to 90 MPC-hours may have been incurred by an employee while working j in a ventilation dust collection unit. j l i i i 59 f --,--.,-,,w ,-~---,----,,-.-,--,.,-,--m--,-n ,,,,a,--.

REFERENCES 1. U.S. Atomic Energy Commission, " Nuclear Power Plant Operating Experience During 1973," USAEC Report 00E-ES-004, December 1974.* 2. U.S. Nuclear Regulatory Commission, " Nuclear Power Plant Operating Experience 1974-1975," USNRC Report NUREG-0227, April 1977.* 3. U.S. Nuclear Regulatory Commission, " Nuclear Power Plant Operating Experience 1976," USNRC Report NUREG-0366, December 1977.* 4. M. R. Beebe, " Nuclear Power Plant Operating Experience 1977," USNRC Report HUREG-0483, February 1979.* 5. " Nuclear Power Plant Operating Experience 1978," USNRC Report NUREG-0618, December 1979.* 6. " Nuclear Power Plant Operating Experience - 1979," USNRC Report NUREG/CR-1496, May 1981.* 7. " Nuclear Power Plant Operating Experience - 1980," USNRC Report NUREG/CR-2378, ORNL/NSIC-191, October, 1982.* 8. " Nuclear Power Plant Operating Experience - 1981," USNRC Report NUREG/CR-3430, ORNL/NSIC-215, Vol. 1, December, 1983.* l 9. " Nuclear Power Plant Operating Experience -1982," USNRC Report NUREG/CR-3430* ORNL/NSIC-215, Vol. 2, January, 1985.* 10. United Nations, " Report uf the Scientific Committee on the Effects of Atomic Radiation," Annex H, General Assembly of Official Records, United Nations, New York, 1982. 11. A. Brodsky, R. Specht, B. Brooks, et al., " Log-Normal Distributions of i Occupational Exposure in Medicine and Industry." Presented at the 9th Midyear Topical Symposium of the Health Physics Society, 1976. 12. S. Kumazawa, and T. Namakunai, "A New Theoretical Analysis of Occupational Dose Distributions Indicating the Effect of Dose Limits," Health Physics, Vol. 41, No. 3, 1981. 13. S. Kumazawa, and T. Namakunai, "A Method for Implementation of ALARA for Occupational Exposure Using the Hybrid Lognormal Model." Presented at the 27th Annual Meeting of the Health Physics Society, July 1, 1982.

• Report is available for purchase from the National Technical Information Service, Springfield, Virginia 22161, and/or the NRC/GP0 Sales Program, Division of Technical Information and Document Control, U.S. Nuclear Regulatory Commission, Washington, DC 20555.

61 -n,,- --..~.e,., .,r ,,-w-- -a

14. " Licensed Operating Reactors, Status Summary Report," USNRC Report NUREG-0020, Vol. 9, No. 1, January, 1985.* 15. L. A. Cross and A. P. Cross, " Trends in Nuclear Power Plant Man-Rem Per Megawatt-Year," presented to American Nuclear Society-European Nuclear Society International Conference, Washington, DC, November 17-20, 1980. 16. National Academy of Sciences, "The Effects on Populations of Exposure to Low Levels of Ionizing Radiation: 1980," Committee on the Biological Effects of Ionizing Radiations, July 1980. Available from the National Academy Press, 2101 Constitution Avenue NW., Washington, DC 20418.

• Report is available for purchase from the National Technical Information Service, Springfield, Virginia 22161, and/or the NRC/GP0 Sales Program, Division of Technical Information and Document Control, U.S. Nuclear Regulatory Commission, Washington, DC 20555.

62

2 l d J 1 l APPENDIX A Alphabetical Listing of Annual Exposure Data Compiled for Certain NRC Licensees 1984 i I i l 1

APPENDlX A INDUSTRIAL RADIOGRAPHERS Single L0 cation 1984 Total. Workers with Collective Average Licensee Name License Number Individuals Measurable Dose Meas'hle Dose Monitored Dose (man rems,(rems or cSv) ev-0120s-02 o 0 c 0.00 Q ar A toopusAilos 29-01208-03 C 0 0 0.00 AAA whpus,.TluN - s g, J7 -O ul 05-O t, 16 12 1 0.12 A ls P wOLAJ si L Anu s.tu4asALL 13-17513-01 4 2 0 0.11 A LLUY CHARTS CJhiP AN y d2-2 4J50-01 2 2 0 0.18 A6.uNSO 4,

t. A HJ S 1,4 t3r4. 3,4 s3 12 -0 67 0d-01 4

0 0 0.00 A wul u ll C a,w A ny J7-154 76-01 b 5 0 0.08 A M t LJ e4/ DA HL ha b WALvs soV A y IJ-l h2 35-O S 39 11 1 0 05 A *e4 V. D u AR IM tt. T OF Test A M f. OL3 ART:4LNI OF T H._ 29-00047-06 1 70 23 3 0 05 A#Csod i At4K a, CNbleds LH INb CJ, 22-1 J253-0 I E o 0 0 00 A LLL,O S A fiD PI Pi m L E s4G i r4 u. h g N 43-1S819-01 'A 8 3 0.12 A IL AN i l C HL.Ji AHus Ltetet he l t ua 45 -0 26 0 t5 -O e lu 15 4 0 27 D OCOCK L alLCOA CO,42 A r e f 34-02860-03 46 32 2 0.05 48-02412-02 2 0 0 0 00 Li (Lu! I LOHPtet A1 au A O tJ4 G-W A NN E9 C OR PO R A l l or. J7-I tx4 20-0 8 10 0 0 0.00 G RA NO L A A '41 4A f l dN b LH V I CL :n 06-17456-01 J6 32 48 1 51 J4 -214 00 -01 3 3 4 1.29 0klW1 TON COI44 D LA. AC YL i s.i t d NA l l 0N AL J4-0 66 27 -01 4 2 0 0 05 =8-0 63 90 -0 I 0 0 0 C.00 u tA.YH ub -C ie l t Lu. C #6.UM L t I t a l l ed, b tH d! L G., IN L. 13-16347-01 J3 EJ 28 0.42 CM21TOL SIELL C OR PO MA l s ta4 45-144 65-08 3 2 3 0 26 C M ih. is t LL L L Tur5L. INC. S2-19430-01 o 5 1 0 10 C ATEM Pa LL AN THALTOH 4.u r v4..y 12-16023-31 o 2 0 0.05 C a ll CA taJ dHIDGC AN D s a un w, 32-05639-01 7 5 0 0.05 C ell C A ba) a ft l t,G L AN D 19 0N C o. 43-05337-02 IS 6 1 0.17 C alL I INiAJ bi NI L S OPti RA l lia, C UNP, 40*02367-03 b 0 0 0.00 Cl*4 TAP 2l.0:3 I r.b1 R L H In b J5-0 23 25-0 2 12 to 1 0 13 46-16774-08 0 0 0 0 00 C tle bC LU ING. C(AlbuLI DA IE o Futf4D 4 BL L L ed 6. J4 -0 46 5 7-0 2 0 0 0 0.00 C tt414JLI DA It O A-day tai H v IC L .9-21452-01 63 88 85 0.97 C th if e<0 sT AOh Le.Gi rd. t H l.m s;J, J7 -l o4 56-01 Pu 7 1 0.33 .>7-l W 30-08 I I I 0 63 C t PL 5 -V ta. L A te 29-213C8-01 O O O 0.00 0 ttJNT LJ4 L CU. C I A NL C Ls4 P A tst - I ND I Ate LA401Ayo 20-00518-02 4 0 0 0 00 D AY A ND Z l H t H.4 AN N IN C. e2-160 58 -0 2 3 3 0 0.05 J5-193 0 7-0 2 JV I C 0.10 DL188. OF A44Y DEPT. O F NA W e (f> S 04-16062-01 20 3 0 0.05 O tJ2 I. OF IHL NAVV. t40NEA SIR ULT 04-06845-03 9 0 0 0.00 C it4 NL C 18 C01. ST AT C LF 06-00472-03 37 2 0 0.05 D d)bL F LAJ NO NY APO M #4 H INL C U. J7-8 5:3 24 -0 3 4 3 0 0.13 34-00150-02 5 3 0 0 13 D HA A) C Lb4POHA 11 t1N D tf4CA N FOYNDAY (, MAttilNt. wohns 12-0 7387-01 0 0 0 0 00 37-02277-02 to S 2 0.39 O t14 ALOY C OM PA NY ITHL) 64

l i l l l I APPENDIX A (cont.) INDUSTRIAL RADIOGRPHERS I Single Location -1984 Total Workers with Collective Average Licensee Name Ucense Numbet Individuals Measurable Dose Meas'ble Dose Monitored Dose (man-rems) (rems or cSv) D ut irt uN C Ls4 &w NY I NC tA4 PG#4A IC D 34-06396-01 5 5 2 0.31 E.A. D u PJi4T DL tot 4J um b t, L J. 07-00455-30 1 0 0 05 L af'lk a LTLCL Ca ',T I N bb, itA. 37-02446-01 3 1 0 0.38 E AAON C tJ4 P A r4Y U. S. A. 25-O J3 75-0 2 o 0 0 0 00 G t NEM AL L LL C T H I C LO *9 A r* V 20-00015-05 12 6 O O.05 GfnD4AL CLLCTHIC COtMAMV 44-O C4 99-10 J t 0 0.05 G Jel>4 AL MOTURL LOMP. /8-00679-04 O O 0 00 G eNLet AL Mu f ast h CONPa44 A T 80'4 12-O i2 St -O n g 4 0 0.05 G LN LH AL MO T UH L t.D NP LH A l ltJN 21-04392-01 3 0 0 0 00 G t Alte AL 4Ji w S LJhP.e4 A I 1 J'4 3.e-15315-C2 24 0 0 0.00 G LLOC x -44 A f S D4 VI LC b 1 c.c, JS-15194 -O 1 33 33 29 C.89 G et ut F LAJ lbJ ed l e,.h t r4C l e4 Poha IL L 48 -O ers 4 4 -01 J 1 0 0.05 rt A f41 LOi, Li t.t_ L C A ST a.4GL C o 13-02141-01 b 4 1 0.16 eti bb UIL v l 44G I N I LL Ai40 Ld kq L5-I tc33-0 2 11 3 0 0.13 rs.be s o f..L L LT wusi the t d t r A.. 37-1/534-01 3 0 0 05 i M Lu bO LL e4 Ata o uJ e4 2nNy 29 --O 2015 -O 2 2 2 1 0.40 I d.i tA J OH. OLP AN 4 HEN 4 ist tre. 44-02619-02 7 .J 0 0.05 i NFLNlOH, ut P A64 Igt N I ut i e k-J6-0 il as2-0 3 o 1 O O.05 J ais.*. A. Lef t F 0 4As Dr41 12-09131-05 3 3 0 0 05 A Ab i mt i A LL L ts4 Poed s i s 08-14 -0 /2 0o-0 I u 2 0 0.C5 A IL5L f-rw f t b COMP A N Y Itd. 12 -C 3 bO-0 2 g 0 0 0.00

m. u4 i m. O TU.Sc Lu.

3 3 -2 12 es -O l 0 0 0 0.CC L /ese.1 S tes. a:3-l bb l 4 -01 2 O O.21 L tA LN.e LI L.L L (J t4% f a?-Jy0E7 4 1 9 0 0 0.00 LiJUtoUh4 P-f.48N M V L LAi*A 4f 49-11464-01 9 2 0 0.18 M AGNA F LtJA L a.4 '%4 A l l u s 12-00622-07 4 35 334 288 0.e6 M Ar4 AT alN on t. su u2 A, Y J4 -0 15 41 -0 2 ob 9 1 0.05 M ALuN t, a s AN ud it .,l LA

• 4A:AIN wth 16-17692-03 97 2

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• .LL Ci h l 0 !s t r i.L J ',1 s h 40-O /0 t$0-01 4

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+3 1 0 38 4 INiet. A>2JL lb E LLC T il. .# 1 t L c a. :, a u-0.35 72 -0 2 c 0 C C.CC M AL F Uve41 Sie t L CA Li a:4.' L.J. .'S-1 tel b2-C 3 4 C 0 C.0C ce nt lO..A L At hu.44 0I AC L A.eu !** A LL 39-00501-04 ,4 s. 12 1 0.05 N Al lu tML ACud %JTACs A 'es ' 8 s-L.

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u 6 0 0.05 N nv y, utPA984LNI de' t% d. a l -l lb 77-01 It 9 2 0.25 N,# f, iJ PA<s4Lt4 8. Je f. e. L4-0014b-01 eb 11 3 0.05 N /.s y, ute nN Iw t.N I .H tier 04-09369-04 109 J e C.C5 e to Av v, DLP Ak e4 Ltd I (# T to in-O 101.'-O / bc 50 5 O.10 A s.v y e s# Ace IM r.e l or I.4. .61-06314-06 h# 16 2 0.12 N Mv. at P AI414 6 te l 6f I ti t Js -0 6 4 Lb-01 $7 49 6 0.41 N sv f, o c h A*4 s ucNI ** l.se 9-1v047-01 <+ 0 C C.00 65

APPENDIX A (cont.) INDUSTRI AL RADIOGRAPHERS Single Location -1984 Total Workers with Collective Average License Number individuals Measurable Dose Meas ~ble Dose Licensee Name Monitored Dose (man-rems ' rems Or CSV) N av y. ou' Ass 4t.t45 tw In. o-o w ll-a l J 0 0 0.00 se s.V f. U L P esi4 IM La I ef" I rit .so-1v259-C1 28e 24 1 0.05 N Av v. OtP Aet e4 ta T .W f ri t. dJ -C.,3 C 7- 01 2 <. 23 2 C.CH Pe eo/ Y. ve P f => list i9 O al-0 2 t, O O O.00 N AV f e O Lr3I. OFe U bL l' 4 AI A L. g 1 -192 H3 -0 8 .) 9 1 0.II N E LS b iCl L 1 A4A LO 93 C4Y it-04741-UI 4 1 0 0.05 N J4 I H et bi n s.4 L a hL L ..es. o g - 1 J a,C

• s 1 2t 3

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• L LA' I lie s, LLOk*AN Y 14 -0 J4 07 -01 4

1 0 C.lH ' iRJ Itt % LT H is t % I N tilIo',t88. 14-15500-03 3 3 3 0 24 bl. L._J15 bittL C Ab 11.4 t.. AN L. ia-03501-01 J 2 0 0.05 b lH ul et.' nS m LL LS C is4 KJH A fl uf4 J7-118b2-01 -s 4 0 0.05 I AYLun AvJ t tr s t i p4 PA.. f Cb-0 40 24-31 J 0 0 0.00 1 L L LO YN L uNidLALT 34-00432-03 0 0 0 0.00 i s sa uA oL C astiitl L A Lt142dh Al ad N L 1 -0 0 6 bb -0 2 7 0 0 0.00 T hi on OL C e t'. 41 CA L C.J hP d d s. f i d ew - 4 3 -0 J2 27 -O I lb u O 0.05 feeltm.UL C a ss e'tb4 A l l t A 17-It300-On d4 24 / 0.C8 O* -0 !. l S I -C S 2J 5 2 0.J5 le=ANS d b1 L D A a >4 L a t h. ens. d.b. A. %dwistlNufo:4 60 4.* L HH e

• 29 -O c210-0 2 4

0 0 0.00 O NI TC ha blAILS F21P L Af 4 J t a stfe sH Y 29-07262-01 J 0 0 0.C0 V (1.LH Al H LO d62 AN Y l I et i 40-OS3 W-01 L 0 2 0 0.05 W toist ar1A f ot P= UR f sd 42 An V la s. b-1 J7 70-01 4 0 0.CS s tA lstr, LY tIUNORf A t.O id 4f euF r4 s. l. J7 -0 90 d9 -01 0 0 0 0.C0 e c Cre4 bit. L u) Me2ANY 4 6 -0 20 05 -O i' 4 3 1 0.20 W t L l t re1 / lH Lotal ud 43 -1 e2 90-0 8 II I O O.05 q uallt40Hl,0bt LLLC144(. L t *4 0. J7 -0 30 3J -O ! l e, 7 1 0 07 W t is t a %,hJ srat.. L L s I'd a s t i ad P. J f -3 56 09 -0 2 S 3 3 0.07 W e il l i t et. CU%UONAlluN 82-04921-01 6 0 0 0.00 WiLLlA4 PumtLL Cono2w4f I l e tt i J4-0 Wt,3-01 t, S 0 0.05 e 1b6014.,114 Ctr4INIFtAss4.

4. #Lt ed P.

40-1 to 41 -O 1 4 4 2 0.37 W.in sts..S as. 4.=d dh it4 a A L t o. I s a t. 4 B-1 14 60-01 3( 25 l ei 0 66 0 614D I Nlm J S l H l l te PIPL i Ated lC AI. Jd -l '24 58 -O I

3 4

1. 36 Y aM A e t. A l l eilb > L td COR PO4 Al liste 6-137 3S-O n J

3 2 0. 75 1 M

APPENDIX A INDUSTRIAL RADIOGRAPHERS Multiple L0 cations-1984 Total Workers with Collective Average Licens* Name License Number Individuals Measurable Dose Mees'ble Dose Monitored Dose (man-remellrem nr cSv) A -1 A rsSet'C T.oss. les. 49-28496-01 4 4 5 1.20 1 Att TthilNG 20-19778-01 10 10 3 0.29 AuVCA C tI4 PO%A f l utJ 45-16452-01 15 12 12 1.03 A les F uM W. LA. PA e4 T Md.ef u p-f rt t 09-1 bl 49-0 t b 6 0 0.05 ALALAA letDU 3Ti<l AL x-etAy 50-100 t$4 -0 8 7 6 4 0.62 A LA Lx A wt LJ A NG LL N T I R 60-19202-01 5 ** Sb . 52 0.93 A LAt%e sL NY L AH S. J/ -2 0 7 34-0 5 3 2 0 0.11 A L A. I ti u IN LP t C il uri SrH v ALE b lac. 1-16428-01 11 9 7 0.72 A LA.15 4 t%LM E R S CDe4P LD4 A l IJr4 37-16200-03 20 1 0 0.05 A>LHjLAN A l 64L 1 rath Itc. JS -3 39 64 -O I 76 29 5 C.16 A.C ed l %A N URL Cuat>J AN Y 4 leg ) 13-0,1 b5-10 El to 1 0.05 A kt.edl LA N i C S T ittu 6 l'4btsC Il t ke 12-21101-05 / 7 2 C.23 A (1C0 O IL C a s 4 PA NY 4 b -O l 3 7t3-0 2 13 2 0 0.05 a A $44 Y. u dP Ard lM t :v i (W T re t JG-0 24 05-0 5 7 6 0 0.05 ) A fst4ut o v4 t C45t. T E 5 8 4 #.0 Leir s. 20-u l0 74-Oi' 39 30 5 0.18 i A ;,l edu s ti Os a NC J T-0 W 2H-01 1' 9 4 0.46 D /eJ LU C A f, W IL LU X LO. ( T a y.1 34-02160-04 13.S 44 8 0.th l u ar.r.e4 Tt.6Taa6 LLHvi6Cb Is.. 20-19067-01 4 a 0 0.05 J /J,4 N l ia.)OS I 4 l A L A-64 A Y. A rJC.

• • .:-19906-01 0

0 0 0.00 es Ala-t 1,40 4 w i ed n b C ud, Abd e il ora l u -O A E '3 -0 4 1/ 3 0 C.05 u s t4J A 11 N F. SitA 4 CO P As.y Jv-133 Its-0 3 2 2 0 0. 1 14 d IL L .4 4 LL L e< I NC. JS-190 *H -O n Ic 13 to 0 77 U hAl e e ha bl lLe<A Pil ls LAs 49-0 a* 05-0.> 4e > 49 6 0.11 H WsuN t.498th tHl.6 T a s t a a,. 1 4L. 22-lubJ7-02 0 0 0 0.00 u t4166 5 Lh u l Nc. L g it4 G I, IL:,5IN G 20-10401-03 5 5 3 0.64 ( ss H! bi t'L bit L ANJ l eso f e duM4 a 45-16941-01 o 5 1 0 21 Il OJ Itis:- Id I t4 4 'Jb, if4L. 8A -1 vb 22-0 I H e+ 82 al C.99 C b #4 L us uw e.1 an It: S SJ-!VI19-01 4 4 0 0.05 C,ve l T A. A -w ev bu v i u. JS-1at44-01 2t. 25 66 2.65 C m< rdutL C Nu sN r.Liss 20-13042-01 1 0 0,is CAintyFIC 1 tec. J7-1 931-02 J O O 0 00 C AILH eal Lt. AM 144 4 L T u4

t. e s 4 SAN t 12-00013-02 lb 2

C 0.18 L urd i! t I t 3 i e b i 1 te, L A.'s.3 n,.I.se< a e :. c9-1 en 50 s I o 6 O 0.05 C+t 4.v t su.. I t< A 4 T a.i b v F40.sv#st..u. k d -l '4J g 4 -D i la 13 5 0.34 L e il L A s.O.s ed i bu s: ANL* 14 d.. L u. 4s' - 1.,5 53

• 0 P 1 1 ;.

112 59 0.52 i L t r. vt' t_ A NU A -.4 4 Y Ir.bocLIsaN 1,L Jb -1 S2 O*>- 0 i bl 51 46 0.94 i C i a. elf A sed f e el C L # i t. i. I s '.I !.g v h 4 -l.17 J / -O l u 5 b 0.94 6 t i.u 4 I A L cat Cis. i0-1S003-0t O O 0.00 C.LuMo A t.A 5 IN AN ye as u.ur. s a +P 4/-16060-)I o 1 0 14 l CaMeidb1luN t.N bl NL e ed t w. 3 40 '.O -C ae l b4 -01 to Ii 1 0.13 i C it4 5ut i bA ih u IL SilNa LAnb d l *C 1 b 4 $ -0.1 s 3 b se C.01 0 4 8 4 bu l. 4 ua 1 t. 0 X-uA) .a. e4 w IL t a.... 'e."-Oo* b6-Oi' 4e 98 64 0 70 7 C alibu N.Hb P t.4 Ls4 C tpr 8e m.. y 21-30646-s3 ia f I fi 5

0. ?H 67

~. ' INDUSTRIAL RADIOGRAPHERS Multiple Locations-1984 l Totet Workers with Collective Average j Licensee Name License Number Individuals Measurable Dose Meestle Dose Monitored Dose (men-rems)(rems Or cSv) 4 C.swue<AttteN GLalCC t22-214 t46-01 0 0 0 0.00 - CHANC Ca4 pas.Y 24 -0 0$ b3-0 2 9 5 0.b3 a -O o3 31 -0 l 2 1 0.50 s EL E id...i t t -fi n6 aw. 0 e, b itb i l %. INL. J4 -e l4 be9-C l 14 12 12 0.95 0,N lt.L 3.4 f t e.N A l ld'4A L L luol J9 -0 8 2 O R -0 2 44 31 19 0 61 D AY Tut. A-HAT Lu.4* aN Y a4 -O b9 43 -0 4 12 to 4 0.?S OtPT. uF..A v Y. MANC lbLn.0 ^. W. (4 -0 03 b4 -O u ba 45 3 0.07 D tJ2 8. OF NAVY. f4A WA L C A sLiss ivt 19-00318-03 25 0 0 0.00 O' 5 A. 4 4-l f 8 72-01 2 !. 0 0 0.00 D LP T. Up I.4 df. 2 d' b L 04-17976-01 to 15 1 0 05 JaPT. OF 4AWY. a OWT. Or NAVY, J5b H. 0 4 -14 130 -C 1 2J 0 C 0 00 1 DtPT. OF t<A VV. .6 b J. L4-177bb-01 11 0 0 0.00 0 5381. ter NAvf. .b b 1 w-1bO13-Cl to O O 0.00 u oP l. or hAvY. tra b e '. 94-16048-O1 19 19 '2 0.09 DLPT. UP THC NAVY 09-21405-01 IJ 8 1 0.30 OldT. OF THt NA vy 31 -! tr$ 25-0 2 1J 4 0 0.05 Ot.PT. O fc IHL NAVY. 04-04404-03 'o e 1 0.10 GeP1. DF TH NAVY. J6 -0 53 14 -0 5 7 0 0 0.00 DtPt. uF l et. nA VY. Ob 'i ti. 09-197 70-C 1 t e-1 0 0.CS D a D UE ',t.L L i t<t i W '4 8 H JY J7 -1 75 07 - 01 14 12 2 0 14 E. L. L UPJ at; Lt. L COMPANY J 7 -1 (@ J7 -01 ? C C 0.00 E s.'a TL ette T ES i l ts, A NO lt4M4 CT lia 29-096l4-01 21 24 20 0.83 E laLL O btRV4GL3 in%. 29-37056-03 51 31 to 0.33 A C t, t, u F L sN AD A. INC. 09-21233-01 25 22 3 0 14 E LP As t e f4A l dW A L gab L.u M P AN f 42-0 J2 01 -O k 4 4 1 0.29 E tAJ IT NJLL u Ab CtN PA NY 31-17491-01 7 0 0 0.00 C aA d LOMP AN Y 35-1o191-05 429 429 56 0 13 F ACiukt dutuAL HC bd ARLat 4.n s>ue< 20-04007-0.* b 2 0 0.C5 F INLA Y It b i lN G LA bo *.A T.s541 LS b3 -1 /8 56 - 01 7 5 4 0.84 F uiTEl< mHtELER tH Eed t,Y L t *< P. 31-03776-05 32 14 5 0 36 F kAt4K LI N HL bt. A,4 Crt C U 414. e4 J T-0 06 37-1 1 to 1 0 0.05 F..OEllLi tei 6.e4 UddF4 lb uN.tA. 45-0 t9$ 90- 31 10 a 3 0.39 G t44t% FIELJ F4 Ad lo wlsPet IC F A tlL, 12-13850-01 25 20 15 0.7J G m44 b C A N LO MP AN Y O/-19523-*05 0 0 0 0.C0

i. 6m.H,.L D YN AM ICL L0 e520 Hal !U r4 06-01761-06 10a 94 23 0.24 G a s.CH AL D f.. AM a b ;. s J edeure Al a0 4.

20-11915-01 21 9 1 0.10 G aJ L AT 40LT ION IL LT 184i. 04-00616-04 241 186 58 0 31

4. LADS IONd L AO L.

INC. l i t t_ ) 34-01764-02 5 3 0 0.13 Gie Al L At t b T ESil % CoetP. 83-21306-01 0 0 0 0 00 G 6<& hl.oLL COaqP AN f. I .s. Jd-0 48 J9-01 30 12 3 0.26 .H. L. Nutt!NG LO. 34-14924-01 g 4 0 0.08 H. H. I It.sPt C T 10N bl6.V I CO IN L. 15-06209-01 ti e 6 0.73 t* La x -44 AY StRv!CES IN C. 17-19236-0! o 6 7 1 10 68

APPENDlX A (cont.) INDUSTRIAL RADIOGRPHERS Multiple Locations 1984 Total Workers with Collective Average Licensee Name License Number Individuals Measurable Dose Nees'ble Dose Monitored Dose (man-rerrs)(rems Or CSV) H htDY A bb JC I A lf.5 Li u. b0 -199 4 6-01 0 3 1 0.31 et ut e.O N ILbi4Nb LA lkJ NA f ae< Y. es. Jw -0 C6 81 -0 3 as 8 1 0.14 Hs1JbiON I NSMi CT lu N iddHVtLL 42-23150-01 20 20 02 3.10 H ut tes lN bdN Ac4E4 V U-t*; Lit INS ! !I. 22-1 b6 54 -01 270 31 2 0 05 1#ULPLhDC*I I esSit ti edes 42-l 94 41-C 1 J 2 3 1.69 Itd)LPtNOLNi Tid!. II PA. L A u. 03-15981-02 SF 49 25 0.51 1 #4)uJ TH I A L VA t+4 % lH m LClloN 24 -l 'As bO-01 1 C 0 0.00 I toub IH I AL IN E.P LC 3 I t IN 34-14071-01 4( 43 30 0.69 I tOUS IR I AL LA t;OH A id H I L !. I NC. 48-04226-02 b 6 5 0.79 I NJua I>< t A a. ID I LO W3 A14Y 45-19494-01 il 9 4 0.43 I tOU; TH I A L FO I GL HV IC L :, 13-06147-04 7 6 2 0.30 4 t&sdb le4 i A L 1t bi IN u La bt f esA id e. Y J7-l6406-01 1J l 0 0.05 I td5PL t.I ION t. ItC b7 IH b LUPPAN Y 11-19921-01 23 23 26 1 11 8 tc,PL t T 10 N bC i4V aC L dJHI* OF.

• ts.

.J7-11636-01 o 5 7 1 32 t it PC o? ltile dCHVICa. INL. 48-2): 54-05 34 25 13 0.53 'l I:4f tk out I A I4 i c h I t i K, t e r*PA hY 0b-0 76 72-0 4 ab 2b 31 1.?? I P41 LH NA II UN AL T L b I I s e, L M i. 29-14027-01 46 2 0 0 11 J.T. s O LL a h g.uMPAaY le(. 12 -1 b0 25-01 u 4 3 0 7J J AC ab uN VI LL L rt i P YA f3> ', Iw. 09-12613-01 lu 7 1 0.20 J #4 K-M M b t d V I LL 1, INC. dt-lbbbC-Cl 16 lb 13 0.88 J tstiS. TIT HJ Ja-214 id -01 34 30 lb 0 51 L e t e t t s.d i t. 'a i l td u L A f d N A lde. Y 22-l aus 47-O I o 2 1 0.40 L Al Y IN SPI L i ! OtJ St R v1Lf .,7 -2 l e 73 -C 1 C 0 C.C0 L t. C.da l N Lr.4 5 e 6s ILSII Nu to. 10-0034o-03 2eJ 196 22 C.11 L tilluss fe ST AN G LAt'UHA B UNI t S 07 -0 a t '#3-0 3 h it 5 0.56 Lla Art. rw LH APina dL ul ia, 4. L u'e s t e4 Au-Qu?2o-Oi 11 4 0 0.05 M,4 NA Ce u .Ns. i n -141 11 -) ! 2# 15 4 0.24 M A'32.A u nt.,L I l b e4 AI L W I A L'. H L s. i0-198J0-0I / 4 C 0.08 M AilJ4 l A Lb i L.> T I %.i L Mud A fue< Y 46-1 71 b1 -01 9 9 IC 1.16 M AliL.asLY b 0 4 H L1 LL T bt-kw A C ; a b-214 79 -01 0 0 0 0.00 met L At > t a.'. ob -D'v9 63 -01 ( 7 2 '3.23 M oi-Csa M L N t.I te:, L ed l N o L Ao. e 3 - t u6 62 - O l 37 36 22 0.62 M e-T -t et; n L t. t.1 :G et t.4. L A.t. 43-11213-Oi 11 9 9 1.03 M L T AL uG IC. I N C. 02-19726-01 94 UI 39 0.48 M LI AL SA Ld b JNC. 43-1/142-01 b 4 3 0.64 M r. I I L L INC. 42 - 1 tib 34 -O I 2 *> 9 5

0. *i3

• 4 lb -C t ed I sc e *h C i l u N 49-1oo70-01 93 93 44 0.40 4 luta.u 34t,bb LO'dP l ed A1 4. si.

J4-0al15-02 y o o 0.00 M ID wC..I liebPLL t !ON 'iL N V IC.. LIIA 48-16296-01 13 9 eg C 83 M ANNV i l s MA NU VA bi oet th tu H P, J 7-! 14 60-31 1 0 0 0.00 MLNNOL A-w A V CO. 17-12201-02 g 4 3 0.69 Mts.lA.A x -.4..Y I NC. ib-211J4-01 l 1 3 2 50 M Lu a SJ ev-c. W C.. so S%.. Y a s. s. I I -l.,>9 aeb -0 8 o 1 !3 J 0.26 69

APPENDIX A (cont.) INDUSTRIAL RADIOGRAPHERS Multiple Locations - 1984 \\ Total Workers witti Collective Average Licensee Name License Number Individuals Measurable Dose Meas *ble 1)ose Monitored Dose (man-rems) (rems or cSv) N Allo aAs. I N l4J L L i l ssN t, L UN t u L. 09-21209-01 0 0 0 0.00 N s.d Y M PI..eA V A L b0 0 tu :( fd =! O2 20-0 3 2/ I O C.05 t4,W V i t. P I. Ub b ACADAA 44-14646-US 24 2? I 0.05 N atV f. OLP AN IM t s e t us: 0.:c, V J1-44014-01 9 9 1 0 05 NmVY. i>LP A>4 e A LN I uF u... L J1 -1 '/9 70 -01 14 le 2 0.!! Ps AV Y. OI P Alf I4 Era l a d-us O .;l-1 3096-01. IJ 0 0 0.00 MnVf. ut P AH 8 4 t.N 4 14 u da. P 91-1 N 2ft-OS 20 2 0 0 05 3 hnVV. J 6.P As l4 N i W Obb Y .31 -I te C2-01 1 O O 0 00 N sd f. DEP Ae( 14._s4 f UF T *it 04s -0 J1

• l -01 24 1

0 0.05 l N AV f. Utt~ 2 AR I.4 L N I bt' feh t g-1.62 52 -01 l es 0 0 0.00 N M f. .stPAN 8 4 LN 8 OF i.t t Ota-O FI 50-0 3 l es 17 2 0.1I r N AV Y. D e P Ae< I4 D4 T OF IHs aeb-0e052-0J ts G 72 6 0 09 i N e# V. OLP A% IM t te l Oe l a ss. g5 -l b6 bO-0 2 19 0 0 0.00 P4 mV V. J r.>2 An (4 Ld l uF i s t. b-0 40 7u -01 02 79 12 0.15 i N s# V. D Le* I. OF li st. 10 6. C, 09-199 J2 -0 4 13 11 1 0.05

• e AV Y. b a.P t. OF THL.

Ubb et. 04-199 66--O I 1/ 17 1 0.05 N 4V f. J t.P l e UF l H 1'. Uat. (4-21246-01 lu 7 0 0.05 N Ot* L J4 V l tt;... I ldC. 03-19821-08 IS lb 0.72 74 ul L uM HJ S t e.N L C ure l'4 t s L 5t H V 42-2 Il 35-01 0 0 0 0.00 N a m Y uH A ILbilN6 Latu.JH A lvs l C L S I -O c9 J3-01 7 5 2 0.37 N t_s a)RI eg L W S a n JU 'a T H A AL % OR t*. J 4-168 05-31 4 3 0 0.05 N tWhJ td i N(" W h INJO Si sti AL COR P 46-11569-03 C 0 0 0.00 3 - re t utPue<T NC d t. 5tt i p t ad !L u t ra. 45-09428--02 95 89 34 0.38 es Is i t 'a il ho b e < v! Lei J7-luJ48-02 13 3 1 0.20 N tf4LE ate <J LT IVE INtP t s l a t #4 S L t. V. 47-18863-01 18-Il ta C.68 J N aNDC LT HU Ci l V L IC b l !NG Cd HP. 29-IV742-01 24 24 5 0.21 M t1J ic e4 LuttPut AT ION 24-03783-01 l t:1 13 1 0.06 l htNFOLA Sill a)U I LD IN L Aub JH You 40-l/042-05 17 11 1 0.07 N J4 Its A MI H I LA N IN'AC I s tJ4 ..wt. J7-2 33 70-01 24 21 14 0.66 N (JI TH LA aT LR N HC SL AH oi L i t' L I 29-1 t$0 06-0 5 0 0 0 0.00 N LLLei Ae4 t.t4L NG Y LCHV ICE 1m;. 4 2 -165 b9 -01 120 88 61 0.69 N LCLt:An thSTALLATIOie h av. Co. 09-2 J0 42-01 en 2 0 0.05 Pe sel 1.=T 64 na l l L.s* AL 12-17506-01 5 3 0 0 05 UALArtOMA TH LT ING LA t3004 A TO Hi t.h Jb-8 05 77-01 14 7 1 0 13 0 a.D 00*4INach IR ut G STLtL C t>4 P. AS-1dS81-C1 3 3 0 0.13 P tNHA rsOLE t AS IL HN P IPt

4. l Nc.

Lti a 5-1 77 29 -01 9 9 1 0.09 P.e4 AE H &nudLiw t AL x +4 Air LAG. 96-01337-03 la 8 3 0 35 P At t l 6 TC ST I N G LA t15 INb. a 4 -168 97-0 2 16 6 1 0 39 P ut L 4l lN A MtI N I C A. LTD. 10-199 ts0-01 0 0 0 0.00 PINN IN LP C C I! ON Co. 35-21144-01 9 9 7 0.74 p t>< !N A CowP. 20-21490-01 0 0 0 0 00 l P TOTO h FILLO IN SP l'L 1104. IN L. 21-21010-01 J l 0 0 05 I P il lSLRAHb H uti. ML) l N LS Sit t:L LO. 14-01637-04 IC 4 1 0.11 70

APPENDIX A (cont.) INDUSTRIAL RADIOGRAPHERS Multiple ' Locations -1984 Total Workers with Collective Average Licensee Name Licer.:e Number Individuals Measurable Dose Meas'ble Dose Monitored Dose (man remd (rems or cSv) P ll ib:*dNte we b 40 8.. t b LI:.LL L 37 -O s6 07-0 2 1.9 7 2 0.27 P al lbesdew et Iti bi lN w LAtatnaluHY a 7-O r2 70-2 5 S2o 32J 176. 0.b5 P LANI a tt$P L T.oN Co. 04-210 32-C l 9 0 0 0.00 PtM4Aoch AT and I L A d4

• V Cas4 PA N r 05-0 74 BH-V a 2

1 1 0.63-P aas ta l'4;PL Li t ura. I

• a..

07 -214 26 -C 1 C 0 0.00 P dm e< P 16 81su b CuMPAN 37-09945-01 4 4 1 0.31 P e4.C I Li sse ( lawPO*te.Ni s L. AP. a7-lu260-01 b3 25 2 0 07 P 64)ut L5 ; 3CdVICLbetNC. 34 - l '>5 94 - 01 II 8 2 C.21 PIO ueG 5LI VE F AHetl CA IOis h 24-28200-01 C 0 0 0.00 - P LA.L1/N P Ow v4 Pdo ud CI S J7 -J cC 4 2-31 94 50 16 0 32 Q.C. LA.AJns f D.41 LS a s #C. 09-11579 4 3 27 25 9 0.34 u smo L I IV lLb II % L #4 J6< Al am f 14 -179 P9-O l r. 6 4 0.56 w aa4LI TV A AJ< ANCE L Adict a t ued Ad 5 10-190 7M-O I 7 4 2 0.61 M Aa lu ud h2 tt f I Ndit C f IJN. I NC. 35-21451-03 2o 24 12 0.49 64 e A C T on ud..InOLL aa. 06-1'36a-01 1.s 6 1 0.13 s H LL I A M L I c...T i re w L 4 od'4 A id e< l s.* 19-11176-01 l e. 10 3 0.J1 d IcetAND KwurGEL. uri t L.s NL M A L L S4'-09037-01 G S 8 3. Sti etat q u.L IN IC HN ai Id hA L Co -176 24 -0 J 0 0 0 0.00 1 b L 5 I NdPr L T luN CO ##.P y 12-19700-01 19 13 7 0.54 b 4.T54-Lee dY C O

• PA i.Y C4 -1 9. o 7 -01 13 11 2

0.17 LLA>THWahi X-HAY CtH O. 03-21354-03 3 t> 3En 40 1.12 5e4cd 5 lip.NCE S D4 VI C d I P.C. 09-07550-01 41 26 20 0.72 S it Ci nV 4 LA buhA fo.dl a S 14. 29-07266-01 4 3 0 0.0S Sa a bbr't 1.u a St e< w 1%. :. 1 g -198 99 -0 3 0 0 0.00 s S 1. L(Ulb TudTING L AdOt. AIO4 ILS .4-00166-02 lb 14 19

1. J5 S lur4 L d t u bi a. H tP4 8NLLe=iNG Lia.

20-0 00 0 3 -C 2 90 42 10 0.23 G LJ4 4 af TLS!!NG I.41 in N A Tl L1 AL 4,4 -1 % 10 -0 1 0 0 0 0.00 S tutA lor < ars a O S T 41 aL A-HAY L.s. 12-v 23 70 -01 12 6 1 0.09 T LN t LU ltA., 42-09073-02 2a 24 6 C.26 I Lter.t abt6. V4wLLY AJ IHuHil Y ae l -O bd J2 -0 6 35 21 3 0.33 T a34 6. A C CH PO RA II LN 34-19o07-01 5 0 0 0.C0 T LbillA. I t4d i t t u li..s h ALL%A SG-1(445-01 .3 4 2 0 37 T dmN5 shb A N.) Lx.1 TT UA 1 a. El-17095-01 0 0 0 0.00 l ed NS -i. / a I C KN IN54tLT i ge. St r< v J7-14 eda-01 ha 74 61 0.62 T cM45-w uR LU 70511 % g A nn.. A *s. 04-2 4 63-01 11 11 4 0.34 i s.3 -S ( A IE l te5 PL L T 10 4 t. u ub vi. a7-196 40-01 0 0 0 0.00 1 AJ TO >' LTC. G.>-2 0 7 55-01 2C 1J 9 0.69 i4LLA uAMMA 54 A Y I NL. J5-1ft7d-01 '! d .14 19

1. 33 7]

APPENDIX A (cont.) INDUSTRIAL RADIOGRAPHERS Multiple Locations-1984 Total Workers witn Collective Average Licensee - Name License Number Individuals Measurable Dose Meastle Dose Momtored Dose (man-rems)(rems or cSv) 14A.SA I NSPECT IO.4 Ld RV I LL. 1 NC. 36-23362-01 4 :s 40 22 0.54 T eate - Ca f f ILSTaNG Aau 64 i2 -O lJ 76-0 2 40 28 18 0 64 Tsith PokTL TE ST it4G. I ta t.. 40-2 J4 76-01 11 8 10 1.22 0.L. IE ST ING C0.. 124.. 29-02477-09 0 0 0.00 5 u LJ4 A TE CH NO LD bY. IN L.. bO -2 J3 63 -01 0 0 0 0.00 0 h!04 (J ul Ltia COMP AN Y 4 7 -1 til 82-01 23 20 12 0 61 U NI TE ta IN:PECTION. INC. JS -2 J4 36-01 16 14 6 0.41 U N1 1CD STATES ItS I I NG C34aA t47 J7-It 445-02 82 41 11 0.26 U NI TE D TriCHNOLOG1 E S CodP 06-0(522-05 0 0 0 0.00 l h al VC H S AL ILCHNICAL I t. L i l NG LA J7-0 04 bJ-0 J to 12 8 0.65 l U ni vE kS AL T LS ilidi L Alwx 4 Tut Itb 29-1o397-01 27 6 1 0.15 l WANLGAb I NOOS T*4 3 A L GL bi lH4 LAu 2t$-1 43 47-0 2 5 J 2 0.56 l W64GINIA (,E PA RTME N T OF HibH W 4Y 4b-1 J3 80-0 2 2 O C 0.00 0 4. W.L LA.0bu LUNSTRUCTuMS. IreC 42-16S73-05 3 0 0 0.00 O CS TE A I t.D OS Te41 A L X-k A T 04-28380-01 49 39 37 0.94 1 d t.h TL wN b lR L:s h. I NC.- 49 -2 J4 90-01 13 11 1 0.06 U C5 T..HN X-HAY CtN PA NY 3$-199 93-0 8 IJ 9 5 0.51 A 1 8 LS I l th OF MILHibAN z l-O rA 72-01 Si 23 5 0.23 46-0 J414-0 3 28 26 14 0.Sl A -+< AY. 4 tw. X -btA tt IH bP LC1101 L Let e*aNY J5 -195 07 -01 u 5 6 1 16 A set f. O tP AN IM t.74 T OF T rtc 29-C C0 47-O tl O O O 0.00 MLLOY L A%4 aT UH Id b SNC. 45-1 J7 J3-0 4 0 .O O 0.00 l l e ASist FO lW N 084IVtMbtIf /4 -0 01 ts7-12 G 0 0 0.00 r 72 1 l l

t I APPENDIX A (cont.) MANUFACTURERS AND DISTRIBUTORS 1984 Total Workers with Collective Average Pr w am Licensee Name License Numbe' Individuals Measurable Dose Meas'ble Dose Tm Monitored Dose (man-rems) (rems or c5vJ 4880TT L490Rafa#!ES 12-00621-03 BROAD 1310 175 12 0.07 ACCUR AY CORPOR ATION 34-C0255-C3 BROAD 3ur 223 17 c.ca A pg. aSe tA CDs4P OedatIJs; 12-128 J6-o n BROAD 229 7s 22 0.29 E..<. o uv io u AN o 50 43 sA. 29-3 e139-0 2 . BROAD 4ou 234 41 o.ta es a.ut e.o.< t uN C bM PA N y 35-oL5o2-o., BROAD br 57 to o.17 M n.Lt.44,400s/r.s u AA 24-o 2cu-01 BROAD 35o 326 184 o.56 No# t. twGLA N D NUC u. A.4 C un t, 20-0 o3 2o-0 9 BROAD 9" 50 9 0.17 N M E ta,LA N N JC LL d4 C u tt; 2o-11866-05 BROAD 62u 227 123 0.54 N LW L tKou NU t4JCLLA9 CtFoi io-o cJ20-3 3 BROAD e ss 20s 146 o.72 P li in AY C De< Pu e<A I I UN 82-1Lo23-o3 p n.0 AD 36 o o 0.00 et,.4 tr. y a N 6 t he tu t *46 us.

• 2 -o l4 H5-0 4 l BROAD 92 60 is o.3o 4

i e ~t**.s at ar;w A e a o. L h. 10-0 e2 77-c 3 BROAD 6* 2a 1o 0.36 u eJoren w oe m Y 21-001o2-03 BROAD d oo oc 3 c.os A 1,4 00 I NC 01 PO R A7E O i9-o 20 Bs-o n OTHER 27 1 o o.18 A su 41 c. LNe.auY us-LA.4ADA L I M, 54 -0 03 o0 -o

• OTHER o

o o o.oo - A TUMI L LN LA uY OF CA..Aun LIM, S4 -o o3 03 -0 9 OTHER 26 25 6 c.2s a soal t On.r4 uY OF (AP.A a,. L IM. b4-o03o3-12

OTHER, o

o o 0.00 c u4 ra< a a m e4 uC c Aa c a tt o.- 0-06799-o2 OTHER 2. 12 2 0.15 E u kC itt ALL e v Apu lr4LC 4ts Y M-!b461-on OTHER 28 at 4 0.18 GwA o a,. J.Ob I l C LA ta)H A s.M41 i L so-1 b2 IS-o n OTHER 19 13 37 1.11 A av -w AY INC. 12-111o*-o2 OTHER c o o 0.00 34-o 2c6-07 'OTHER C o o o.oc

1. 4 Ac t e.Cn.a ua s, g r4C.

37-21345-01

• 0THER c

o e c.oo M it tiaCA,4ua r. f r.c. 37-23326-01 'OTHER o o o o.oo M,(Lar4.u aan. g e.C. Ntd tf4hLANO teucuE A+4 Cim : 10-00320-19 OTHER 4 4 e c.c5 a7-e 13 22-o 1

• 0THER o

6 o.n9 NuLd AR PNA h4 AC Y. l.4. 37-1 vs bb-01 'OTHER su 6 1 c.13 N WLd An Pt4A(44 AC Y N ULLL AM QChtARCet Co@ 37-0 24 o t -o

• OTHER o

o o 0.00 v.a 4 AT.p t.s I tac. .1-192 :9-o n

• 0THER 14 4

o o.os p in <S Ar m t., j us. a4-ioeda-on

• 0THER 2o 19 4

o.21 p.4,<*< TupLs 1.C. 44-190 c7-c i

• 0THER 12 3

o o.09 ,OTHER P s AW Aiim.o I #C. a4 -l 90.od -o 1 tc s o o.cn 9 wn es a e, Cm 13 -194 51 -c I 'OTHER t 0 o o.co s vidson Lei.s. 12 -1 v3 33 -c I 'OTHER 40 35 4 0.12 s v. so,< s a.4 9. 24-1v3oo-on ,OTHER 19 17 3 0 17 svNcua cowp. a4-1o4br-o1

• 0THER le 3

o o.05 syNcos w.49 3*-t aa e4 - c i ,OTHER 11 5 2 o.31 s vN co.< Luke. as-t 9a 63 -o i 'OTHER 4 6 o o.07 s v 4 son Co,4 9. 37-2 a 0 92-01 OTHER tu-4 1 0 18 Activity includes distribution of radiophamaceuticals 73 4

APPENDIX A (cont.) FUEL FABRICATORS AND PROCESSORS 1984 Total Workers with Collective Average Individuals Measurable Dose hastle Dose Licensee Name License Number Monitored Dose - (man-rems) (rems or cSv) ATOMICS INTEoNATIONAL SNF-0021 1: 24 477 si o.33 B'A B C O C K & VILCor'CO.

• S N M-0 414 109 25' 3

o.12 BABCOCK AND WILf0Y SN"-1169 1 79 121 46 0. 3 53 RASCOCK AND WILCCX INC S4"-0042 243 se59 127 0.07 COMBUSTION ENGINFFRING INC. SN*-1067 2 12 96 29 o.29 COMBUSTION ENGINEERING, INC. SNM-CO33 69 36 3 o.o9 EXXON NUCLEAR CCPPANY INC, SNM-1227 6 73 621 75 0 12 GENERAL AT0*IC COMPANY SN"-0696 1500 4 2 42 o.no GENERAL ELECTRIC CO. $NW-1007 12 2a 787 109 'o.14 N u.LL M fvtt bl 4V A C. d 184.. bN M-o 124 900 62b 37 o.06 U 6441Lle ad) LLI A M LU NP.

• tN M-L 7 77
• O o

o o.oo ' U NI Ic. ) twJ L L L A,4 L1)NP 44 A T s V 4 LN A-43 0ts 126 64 4 o.o6 0 F.S T i t Gt iv u > 6 LLt C led IC tis <l' LN M-11 o7 7 Jr 646 283 o.44 WESTINGN3USE ELFCTRIC CCap-sNu-size c o o 0.00 LOW LEVEL WASTE DISPOSAL FAC. C it M.4)CL LA h bYsTLWi. INL* 40 -19:> 24 -o 2 546 262 57 o.22 N 4LL AH d reg INtiti4116 C U Ml'AIJY Ib-I 92 o4 -o 1 J 79 35 16 o.44 INDEPENDENT SPENT FUEL STORAGE INSTALLATION b uu At cLLcTult Lu

• Af e v LN%-cboO J2 32 13 0.41 l

I

• Engaged primarily in decommissioning activities.

l l 74

APPENDIX B Annual Whole Body Doses at Licensed Nuclear Power Facilities 1984

Apper. dix B ANNU ALWHOLE BODY DOSES AT LICENSED NUCLEAR POWER FACILITIES CY 1984 beber of Indeveduals see,h Who% Body Does a the Fenowong Range (ress Of Csv) PLAd7 NAME ANO TYPE orande westde 0.10-0.25 - 0.50-0.75 - 1.0 - 2.0 - 3.0 - 4.0 - 5.0 - 6.0 - 7.0 - 8.0 - 9.0 - 10.0-Mons-orsede E xposure <0.10 0 25 0 50 0 75 10 26 30 40 50 s0 70 00 90 to 0 12 0 12 0 ,ored E aposure. Ce t tec tt,, Dose Arkansas 1, 2 PWR 956 671 311 268 147 94 195 46 9 1 2,698 1,742 805 Beaver Valley PWR 1,166 588 281 187 110 85 110 32 2,559 1,393 504* Big Rock Point BWR 110 147 35 27 21 12 35 15 5 407 297 155 Browns Ferry 1,2,3 BWR 3,538 739 481 531 284 231 462 186 41 7 6,500 2,962 1,940*

• Brunswick 1,2 BWR 1,288 2,273 467 433 300 268 766 428 111 6,334 5,046 3,260*
• Calvert Cliffs 1,2 PWR 433 741 205 138 76 45 145 17 2

1,802 1,369 479 Cook 1,2 PWR 2,031 534 293 216 163 106 215 26 6 3,590 1,559 762 Cooper Station BWR 1,840 833 142 139 98 82 193 109 2 3,438 1,598 799' a Crystal River 3 PWR 1,142 385 128 26 9 1 1,691 549 49'

• Davis Besse PWR 899 657 203 127 62 22 17 1,987 1,038 177'
• Dresden 1,2,3 BWR 1,011 617 330 240 173 203 459 217 20 2

3,272 2,261 1,774 Duane Arnold BWR 964 309 102 77 40 43 37 2 1 1,575 611 189 2,334 2,046 902" Farley 1,2 PWR 288 742 467 252 147 124 255 56 3 Fitzpatrick BWP 684 664 208 199 88 91 232 72 54 2 2,294 1,610 971'

• Fort Calhoun PWR 60 351 89 110 97 65 145 44 10 2

973 913 563 Ginna PWR 594 239 114 102 76 53 102 18 8 1 1,307 713 394

Appendix B ANNUALWHOLE BODY DOSES AT LICENSED NUCLEAR POWER FACILITIES CY1984 %enber of Indeve&sals weth VWhose Body Doses a the Followens Range (rems or Csv) benber PLANT NAME AND TYPE Number Meer ueable urable 0.10-0.25-0.50-015-10-20-3.0 - 4.0 - 6.0 - 6.0 - 7.0 - 8.0 - 9.0 - 10.0-Moa6 . eeabao (et tutt,e E xpoeuee <0.10 0 25 0 50 0 75 to 20 30 40 60 60 70' 80 to 10 0 12 0 12 0 nored Empomwe Dose Haddam Neck PWR 453 403 208 137 93 96 284 151 46 12 1,883 1,430 1,216* Hatch 1,2 BWR 1,034 1,412 750 542 357 232 497 169 48 3 5,144 4.110 !,218 Indian Point 2 PWR 378 731 351 296 231 193 732 279 103 3 3,297 2,919 .!,644* Indian Point 3 PWR 671 269 147 92 59 33 55 2 1 1,329 658 230 Kewannee PWR 332 194 95 75 65 34 16 2 1 814 482 139* La Crosse BUR 138 188 16 5 1 4 20 11 17 26 426 288 252 La Salle 1 BWR 1,141 690 256 168 80 27 24 2,386 1,245 252 Maine Yankee PWR 228 425 141 120 99 111 289 69 8 1,490 1,262 884-McGuire 1 PWR 1,284 769 291 279 111 73 124 16 2,947 1,663 507 Millstone 1 BWR 831 779 310 288 210 148 220 32 5 2,823 1,992' 836* Millstone 2 PWR 119 112 43 41 30 21 32 5 1 404 285 120* Monticello BWR 1,025 432 217 162 135 113 281 230 197 105 2,897 1,872 2.462 Nine Mine Point BWR 780 627 214 175' 103 86 225 72 28 2,310 1,530 890 North Anna 1,2 PWR 958 1,474 260 257 208 154 432 177 76 24 4,020 3,062 1,945 Oconee 1,2,3 PWR 806 634 354 324 205 170 325 53 10 2,891 2,085 1,106*: Oyster Creek BWR 1,559 564 325 327 243 162 428 211 107 2 3,928 2,369 2,054

Appendix B ANNUALWHOLE BODY DOSES AT LICENSED NUCLEAR POWER FACILITIES CY1984 Number of Indeveduals esth WWhole Body Does a the Following Range (rens or c5v) Nom PLANT NAME AND TYPE w arahee uretde 0.10 0 25 - 0 50-0.75 1.0 - 20-3.0 - 40-50 60-70-eO-9.0 - 10.0-Mons-ershoe

ellective E mpoeste

<010 02% 0 50 0 75 to 20 to 40 50 60 70 80 90 10 0 12 0 12 0 see d E mposure Dose Palisades PWR 373 671 188 145 88 61 143 40 7 1 1,717 1,344 573 Peach Eottom 2,3 BWR 2,303 872 619 504 304 217 428 224 125 20 5.616 3,313 2,450 Pilgrim BWR 0 1,170 813 459 322 269 800 457 204 48 4,452 4,542 4,082 Point Beach 1,2 PWR 390 588 173 128 117 99 169 76 21 1 1,762 1,372 789 Prairie Island 1,2 PWR 377 244 126 80 39 28 28 1 916 539 147 Quad Cities 1,2 BWR 1,043 444 180 168 11/ 110 388 241 27 3 2,721 1,676 1.579 Rancho Seco 1 PWR 501 437 137 93 48 31 43 7 1,303 802 222 5 Robinson 2 PWR 1,183 1,939 379 295 201 189 579 341 204 5,310 4,127 2,880<

• Salem 1,2 PWR 1,194 472 283 239 113 77 153 53 4

1 2,589 1,395 681 San Orofre 1 PWR 8,171 3,345 468 259 135 78 88 1 12,545 4,374 513* San Onofre 2 PWR 3,484 2,124 486 266 133 57 68 6 6,624 3',140 473* l Sequoyah 1,2 PWR 1,496 723 436 418 242 188 311 51 4 3,869 2,373' 1,117'

• St. Lucie 1,2 PWR 1,440 682 368 295 183 116 290 143 13 3,530 2,090 1,263 Summer 1 PWR 854 493 225 185 104 67 40 1

1,974 1,120 295'

• Surry 1,2 PWR 224 1,223 482 313 182 139 508 260 73 18 3,422 3,19E 2,247 Susquehanna BWR 1,721 2,061 528 187 28 17 5

1 4,548 2,827 308 Three Mile Island 1,2 PWR 1,604 327 173 142 108 86 180 45 1.8 2,683 1,079 688

Appendix B ANNUALWHOLE BODY DOSES AT LICENSED NUCLEAR POWER FACILITIES CY 1964 Nuenber of Inde,eduals esth Whose Body Doses en the f oHowene Range (m or del PL ANT NAME AND TYPE heee meabae weshae 0.10-0.25 0.50-0.75 - 10-2.0 30 40-5.0 - 60-7.0 80-90-10.0 hoons. erehle Collecttwe N her E sposure < 0.10 0 25 050 0 75 to 20 30 40 so s0 70 80 90 10 0 12 0 12 0 toned E sposure Dose Trojan PWR 326 401 174 168 101 61 111 25 1 1,368 1,042 433*< Turkey Point 3,4 PWR 1,042 714 306 294 156 101 273 128 31 7 3,052 2.010 1,255 Vemont Yankee BWR 731 176 172 176 129 83 179 37 2 1,685 954 603 Yankee Rowe PWR 1,512 272 65 64 57 52 119 25 2.166 654 348*' Zion 1,2 PWR 906 308 149 148 138 88 205 47 21 6 2,016 1,110 786 Totals - BWRs 21,741 14.997 6.165 4,907 3,033 2,398 5,679 2.714 994 218 62,846 41,105 27,074 Totals - PWRs 37,875 24,887 8,599 6,585 4,133 2,998 6,774 2,253 681 77 94,862 56,987 2&l40 Grand Totals - LWRs 59,616 39,884 14764 11492 7,166 5.396 12,453 4,967 1675 295 Fort St. Vrain HTGR 1,616 62 8 1,686 70 3*'

APPENDIX C Personnel, Dose and Power Generation Summary 1969 - 1984

• A discussion of the methods used to collect and calculate the information contained in this appendix is given in Section 2.1.

._ = _. _ _ - _.. 1 Appendix C l Personnel, Dose and Power Generation Summary l I Collective Person-rees Person-ress Average Mega-Unit Total Dose (-cSv) per '(-cSv) per Meas'ble Pers on-watt-Availa-Personnel (person-Work Function' ' Personnel Type Dose ress Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-cfv)/ (MW-Yr) Factor able Doses or-cSv) tions & Others tor Utility or cSv). MW-Yr 5 i ARKANSAS 1. 2 .1975 588.0 76.5 147 21 0.14

0. 0 i

Docket 50-313; DPR-51, NPF-6 1976 464.6 56.6 476 289 27 262 100 189 0.61 0.6 1st commercial operation 12/74,- 1977 610.J 76.8 601 256 28 228 111 145 0.43 0.4 1 Type - PWRs 3/80 1978 627.2 77.5 722 189-32 157 109 80 0.26

0. 3 I

Capacity - 836, 858 MWe 1979 397.0 55.3 1321' 369 54 315 252 117 0.28 . 0. 9 l '1980 452.8 63.7 1233 342 81 261 213 129 0.28

0. 8 I

1981 1104.7 68.3 2225 1102 130 972 843 259 0.50 ' 1. 0 1 1982 905.4 58.6 1608 803 97 706 505 298 0.50-09 l 1983 915.0 54.6 2109 1397 97 1330 1145 252 0.66 15 l 1984 1289.1 77.4 1742 806 89 717 533 273 0.46 06 1 BEAVER VALLEY 1 1977 355.6 57.0 331 87 8 79 58 29 0.26 0.2 a2 Docket 50-334; DPR-66 1978 304.2 40.8 646 190 11 179 152 38 0.29 0.6 ^2 1st commercial operation 10/76 1979 221.0 40.0 704 132 22 110 67 65 0.19 0.6 Type - PWR 1980 39.8 6.8 1817 553 76 477 477 76 0.30 13.9 Capacity - 810 MWe 1981 573.4 73.6 1237 229 38 191 142 87 0.19 4 1982 326.7 41.6 1755 599 126 473 481 118 0.34 1.8 1983 561.2 68.2 1485-772 158 614 615 157 0.52 1.4 1984 576.7 71.8 1393' 504 125 379 302 202 0.36 0.9 BIG ROCK POINT 1969 48,1 165 136 0.82 2.8 Docket 50-155, DPR-6 1970 43.5 290 194 0.67 4.5 1st commercial operation 3/63 1971 44.4 .260 184 0.71 4.1 0.93 4.2 Type - BWR 1972 43.5 195 181 Capacity - 70 MWe 1973 50.9 241 285 119 166 1.18 5.6 1974 40.7 70.3 281 276 54 222 42 234 0.98 E.8 1975 35.1 59.8 300 180 58 122 20 160 0.60 f.1 1976 29.5 50.1 488 289 82 207 105 184 0.59 5.8 1977 43.6 73.4 465 334 94 240 60 274 0.72 7.7 e 1978 48.5 77.9 285 175 93 82 9 166 0.61 !.6 1979 13.0 23.5 623 455 89 366 102 353 0.73 3!. 0 l ~ t

,__,3 ~ Appendix C (Continued) Personnel,- Oose and Power Generation Summary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Pe rson watt-Availa-Personnel (person-Work Function Personnel Type Oose. rems-Reporting Organization Year Years bility With Measur - rems Opera-Maint. Contrac-Station & (rems (-cSv)/ (MW-Yr) Factor able Doses or-c5v) tions & Others tor Utility or cSv) PW-Yr BIG ROCK POINT (Continted)

7. 2 1980 48.9 79.0 599 354 16 338 91 263 0.59 1981 56.9 90.6 479 160 58 102-38 122 0.33 2.8 1982

<3.6 70.8 521 328 129 199 68 260 0.63

7. 5 1983-42.3 71.0 493 263 32 231 55 208 0.53 6.9 1984 50.3 78.6 297 155 37 118 20 135 0.52 3.1 BROWNS FERRY 1, 2, 3 1975 161rf 17.8

.380 325 0.14

2. 0 Docket 50-259, 50-260, 50-296; 1976 337.6' 26.9 2207 234 0.11

0. 7 DPR-33, -52, -68 1977 1327.5 73.0 1858 863 60 803 249 614 0.46-

'O.6 1st commercial operation 8/74, 1978 1992.1 73.5 2376 1792 4 1788 259 1533 -0.75 0.9 a3 3/75, 3/77 1979 2393.0 79.1 2689 1667-0 1667 289 1378 0.62

0. 7

'3 Type - BWRs 1980 2182.1 73.6 2712 1825 4' 1821 49 1776 0.67 D. 8 Capacity - 1065, 1065, 1065 MWe 1981 2132.9 69.5 3379 2380 100 2280 404 1976 0.70 1.1 1982 2025.4 67.6 3277 2220 181 2039 317 1903 0.68

1. I '

1983 1641.0 54.3 3302 3363 276 3087 908 2454 1.02

2. 0 1984 1431.9' 54.2 2962 1940 229 1711 541 1399 0.66

1. 4 BRUNSWICK 2, 1 1976 297.2 56.0 1265 326 15 311 222 104 0.26 1.1 Docket 50-324, 50-325; DPR-62, -71 1977 291.1 55.7.

1512 1119 48. 1071 782 337 0.74

3. 8 1st commercial operation 11/75, 1978 1173.1 83.7 1458 1004 99 905 695 309 0.69

3. 8 '

3/77 1979 810.0 60.1 2891 2602 97 2505 2074 528 0.90

3. 2 Type - BWR 1980 687.2 52.2 3788 3870 111 3759 3098 772 1.02

5. 6 Capacity - 790, 790 MWe 1981 925.2 56.9 3854 2638 159 2479 1890 748 0.68

2. 9 1982 540.3 50.3 4957 3792 162 3630 2841 951 0.76

5. 5 1983 636.7 40.6 5602 3475 152 3323 2428 1047 0.62

5. 5 1984 761.3 51.5 5046 3260 143 3117 2363 897 0.66

4. 3

Appendix C (Continued) Personnel Dese and Power Generation Summary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose re ms-Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-c Sv)/ (MW-Yr) Factor able Doses or-cSv) tions & Others tor Utility or cSv) PnkYr CALVERT CLIFFS 1, 2 1976 753.4 95.2 507 74 28 46 8 66 - 0.15 0.1 Docket 50-317, 50-318; DPR-53, 1977 583.0 72.1 2265 547 36 511 224 323 0.24 0.9 -69 1978 1188.5 75.8 1391 500 13 487 143 357 0.36 0.4 1st commercial operation 5/75, 1979 1161.0 74.0 1428 805 33 772 423 382 0.56 0.7 4/77 1980 1309.9 84.1 1496 677 15 662 402 275 0.45 0.5 Type - PWRs 1981 1379.7 83.1 1555 607 29 578 378 229 0.39 0.4 Capacity 825, 825 MWe 1982 1238.3 73.7 1805 1057 84 973 402 655 0.59 0.8 l .1983 1397.2 81.6 1915 668 5 663 143 525 0.35 0.5 1984 1389.4 79.2 1369 479 61 418 78 401 0.35

0. 3 l

oo CDOK 1, 2 1976 807.4 83.1 395 116 13 103 71 45 0.29 0.1 Docket 50-315; DPR-58, -74 1977 573.0 75.1 802 299 21 278 138 161 0.37

0. 5 I

Ist commercial operation 8/73, 1978 744.8 73.6 778 336 49 287 139 197 0.43 '). 4 7/78 1979 1373.0 65.3 1445 718 45 673 454 264 0.50

3. 5 Type - PWRs 1980 1552.4 74.1 1345 493 46 447 323 170 0.37

2. 3 Capacity - 1020 MWe, 1060 MWe 1981 1557.3 73.4 1341 655 48 607 442 213 0.49

3. 4 1982 1461.6 69.8 1527 699 67 632 472 227 0.46

3. 5 1983 1456.5 71.2 1418 658 50 608 467 191 0.46 3.5 1984 1526.0 75.3 1559 762 42 720 597 165 0.49

0. 5 COOPER STATION 1975 456.4 83.6 579 117 30 87 19 98 0.20 0.2 Docket 50-298; DPR-46 1976 433.3 75.5 763 350 39 311 210 140 0.46 0.8 1st commercial operatica 7/74 1977 538.2 86.2 315 197 50 147 66 131 0.63

0. 4 Type - BWR 1978 576.0 91.0 297 158 40 118 58 100 0.53 0.3 Capacity - 764 MWe 1979 591.0 87.6 426 221 50 171 89 132 0.52 0.4 1980 448.3 71.2 785 859 70 789 644 215 1.09 1.9 1981 457.1 71.2 935 579 63 516 382 197 0.62 1.3 1982 622.3 84.6 743 542 66 476 361 181 0.73 0.9 1983 396.6 63.3 1383 1293 57 1236 1081 212 0.93 3.3 1984 411.9 67.2 1598 799 46 753 635 164 0.50 1.9 l

l

q Appendix C (Continued) Personnel, Dose.and Power Generation Summary Collective Person-rems Person-ress Average Mega-Unit Total Dose ( cSv) per' (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose rems Rtporting Organization ' Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-cSv)/ (MW-Yr) Factor able Doses or-cSv) tions & Others tor Utility or cSv) Mb-Yr CRYSTAL RIVER 3 1978 311.5 41.4 643 321 8 313 244 77 0.50 1.0 Docket 50-302;'DPR-72 1979 453.0 58.9 1150 495 29 466 346 149 0.43 1.1 I Ist commercial operation 3/77 1980 402.1 53.2 1053 625 24 601 382 243 0.59 1.6 l Type - PWR 1981 490.4 62.2 1120 408 18 340 236 172 0.36 0.8 j Ctpacity - 821 MWe 1982 589.8 76.0 780 177 9 168 116 61 0.23 0.3 1983 452.1 58.8 1720 552 71 481 353 199 0.32 1.2 1984 774.2 94.5 549 49 10 39 22 27 0.09 0.1 DAVIS-BESSE 1 1978 326.4 48.7 421 48 13 35 14 34 0.11 0.1 Docket 50-346; NPF-3 1979 381.0 67.0 304 . 30 8 22 5 25 0.10 0.1 1st commercial operation 11/77 1980 256.4 36.2 1283 154 4 150 121 33 0.12 0.6 Type - PWR 1981 531.4 67.4 578 58 1-57 32 26 0.10 0.1 ,, Ctpacity - 874 MWe 1982 390.8 51.5 1350 164 12 152 139 25 0.12 04 'n 1983 592.1 73.0 718 '80 6 74 46 34 0.11 . 0 1~ 1984 518.5 62.5 1088 177 10 167 122 55 0.16 03 DRESDEN 1,* 2, 3 1969 99.7 286 Docket 50-010, 50-237, 50-249; 1970 163.1 143

2. 9 DPR-2, -19. -25 1971 394.5 715

0. 9 1st commercial operation 7/60, 1972 1243.7 728

0. 6

1. 8 7/70, 11/71 1973 1112.2 1341 939 143 796 344 595 0.70

0. 8 Type - BWRs 1974 842.5 54.9 1594

'1662 57 1605 1.04-

2. 0 Capacity 197, 772, 773 MWe 1975 708.1 54.6 2310.

3423 271 3152 2252 1171 1.48 4.8 1976 1127.2 80.8 1746 '1680 228 1452 749 931 0.96

1. 5 1977 1132.9 77.0 1862 1693 316 1377 693 1000 0.91 1.5 19,8 1242.2 79.5 1946 1529 204 1325 619 910 0.79

1. 2 1979 1013.0 74.7 2407 1800 191 1609 641 1159 0.75

1. 8 1980 1074.4 55.0 2717 2105 236 1869 1093 1012 0.77 2.0 1981 1035.7 51.5 2408 2802 120 2682 1850 952 1.16

2. 7 1982 1085.3 77.9 2572 2923 136 2787 1731 1192 1.14 2.7 1983 913.6 65.6 2854 3582 176 3406 2127 1455 1.26

3. 9 1984 789.8 55.3 2261 1774 153 1621 814 960-0.78

2. 2

• Dresden 1 is shutdown, but it is still included in the count of commercial-reactors shown elsewhere in the report.

i Appendix C (Continued) Personnel Oose and Power Generation Summary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-cSv) per. (-cSv) per Meas'ble Pers on-watt-Availa-Personnel (person-Work Function Personnel Type Dose ren.s Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-ftation & (rems (-c! v)/ (MW-Yr) Factor able Doses or-c5v). tions & Others tor Utility or-cSv) MW-Yr i DUANE ARNOLD 1976 305.2 78.0 350 105 14 91 62 43 0.30 0.3 i Docket 50-331; DPR-49 1977 353.6 78.9 538 299 36 263 220 79 0.56 0.8 1st commercial operation 2/75 1978 149.2 33.2 1112 974 59. 915 932 42 0.88

6. 5 Type - BWR 1979 352.0 78.0 757 275 35 240 219 56 0.36

0. 8 Capacity - 515 MWe 1980 339.1 73.3 1108 671 32 639 570 101 0.61

2. 0 1981 277.7 69.8 1286 790 56 734 598 192 0.61

2. 8 1982 278.5 74.7 524 229 18 211' 175 54 0.44

0. 8 1983 283.0 62.9 1468 1135 42 1093 1016 119 0.77

4. 0 1984 329.4 72.9 611 189 27 162 117 72 0.31 06 FARLEY 1, 2 1978 713.8 86.5 527 108 39 69 34 74 0.20 01 g; Docket 50-348, 50-364; NPF-2, -8 1979 211.0 28.6 1227 643 108 535 460 183 0.52 30 1st commercial operation 12/77, 1980 557.3 69.3 1330 435 106 329 185 250 0.33 08 7/81 1981 310.2 41.4 1331 511 96 415 270 241 0.38 16 Type - PWR 1982 1271.5 79.2 1453 48a 155 329 196 288 0.33 0.4 Capacity - 797,,809 MWe 1983 1356.5 82.9 1938 1021 241 700 479 542 0.53 0.8 1984 1447.0 86.6 2046 902 177 725 504.

398 0.44 0.6 FITZPATRICK 1976 489.0 71.6 600 202 0.34 0.4 Docket 50-333; DPR-59 1977 460.5 68.4 1380 1080 14 1066 937 143 0.78 2.3 1st commercial operation 7/75 1978 497.0 72.1 904 909 166 743 597 312 1.00 1.8 Type - BWR 1979 349.0 50.8 850 859 169 690 538 321 1.01 2.5 Capacity - 810 MWe 1980 509.5 70.3-2056 2040 118 1922 1808 232 0.99 4.0 1981 562.9 74.7 2490 1425 187 1238 1072 .353 0.57 2.5 1982 583.6 75.0 2322 1190 136 1054 .862 328 0.51 2.0 1983 546.2 70.6 1715 1090 158 932 667 423 0.64 2.0 1984 576.2 76.8 1610 971 82 889 467 504 0.60

1. 7

i Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas *ble Pe" son watt-' Availa-Personnel (person-Work Function Personnel Type Dose re ms-Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems ( cSv)/ (MW-Yr) . Factor able Ooses or-cSv) tions & Others tor Utility or cSv) Mll-Yr FORT CALHOUN 1974 294.0 83.5 327 71 24 47 0.22 0.2 Docket 50-285; DPR-40 1975 252.3 67.4 469 294 92 202 0.63 .2 1st commercial operation 9/73 1976 265.9 69.5 516 313 28 285 38 275 0.61 .2 Type - PWR 1977 351.8 79.4 535 297 33 264 72 225 0.56 ('. 8 Capacity - 478 MWe 1978 342.3 75.1 596 410 59 351 151 259 0.69 .]. 2 1979 440.0 95.7 451 126 19 107 47 79 0.28 (.3 l 1980 242.3 60.4 891 668 38 630 426 242 0.75 1.8 1981 260.9 72.3 822 458 61 397 254 204 0.56 1.8 1982 418.0 89.7 604 217 44 173 99 118 0.36 (.5 1983 330.4 .73.1 860 433 66 367 205 228 0.50 1.3 1984 279.2 59.9 913 563 91 472 313 250 0.62 2.0 0 GINNA 1971 327.8 340 430 69 361 108 322 1.26 1.3 Docket 50-244; DPR-18 1972 293.6 677 1032 71 961 278 754 1.52 1.5 1st commercial operation 7/70 1973 409.5 319 224 55 169 84~ 140 0.70 C.5 Type - PWR 1974 253.7 62.4 884 1225 1,39 4.8 Capacity - 470 MWe 1975 365.2 76.7 685. 538 0.78 1.5 1976 248.8 58.2 758 636 29 607 210 426 0.84 2.5 1977 365.6 85.5 530 401 15 386 120 281 0.76 1.1 1978 386.5 80.6 657 450 20 430 98 352 0.68 1.2 1979 355.0 72.8 878 '592 68 524 207 385 0.67 1.7 ,1980 370.5 76.0 1073 708 64 644 302 406 0.66

1. 9 1981 399.0 82.1 925 655

' 49 ' 606' 251 404 0.71 1.6 1982 289.0 58.8 1117 1140 80 1060 546 594 1.02 3.9 1983 365.0 74.6 969 855 42 813 378 477 0.88 2.3 1984 378.1 77.2 713 394 57 337 195 199 0.55 1.0

i Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective ~ Person-ress Person-rems . Average Mega-Unit Total Dose-(-cSv) per (-cSv) per Meas'ble Person. watt-Availa-Personnel (person-Work Function Personnel Type Dose rems Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (reas (-cSv)/ (MW-Yr) Factor able Doses or-cSv) tions & Others tor Utility. or cSv) FW-Yr 'HADDAM NECK (CONN. YANKEE) 1969 438.5 138 106 27 79 0.77 0.2 Docket 50-213; DDR-61 1970 424.7 734 689 463 226 0.94

1. 6 1st commercial operation 1/68' 1971 502.2 289 342 166 176 1.18 0.7 i

Type - PWR 1972 515.6 355 325 181 144 0.91 0.6 Capacity - 569 MWe 1973 293.1 951 697 544 153 0.73 2.4 1974 521.4 91.2 550 201 0.36 0.4 1975 494.3 89.9 795 703 20 683 0.88 1.4 1976 482.9 82.5 644 449 5 444 253 196 0.70 0.9 1977 480.7 83.9 894 641 59 582 440 201 0.72 1.3 1978 563.4 98.6 216 117 25 92 18 99 0.54 0.2 1979 493.0 87.5 1226 1161 73 1088 783 378 0.95 2.4 1980 426.8 75.0 1860 1353 175 1178 1076 277 0.73 3.2 o$ 1981 487.5 84.3 1554 1036 174 862 809 227 0.67' 2.1 1982 543.9 93.4 559 126 46 80 22 104 0.23 0.2 1983 453.7 77.8 1645 1384 106 1278 1017 367' O.84 3.1 1984 404.0 71.7 1430 1216 154 1062 803 413 0.85 3.0 HATCH 1, 2 1976 496.3 83.8 630 134 79 55 4 130 0.21 0.3 Docket 50-321, 50-366; DPR-57; 1977 446.8 66.3 1303 465 96 369 220 245 0.36

1. 0 NPF-05 1978 513.0 72.8 1304 248 88 160 52 196 0.19 0.5 1st commercial operation 12/75, 1979 401.0 54.6 2131 582 85 497 382 200 0.27 1.5 9/79 1980 1008.7 70.9 1930 449 143 306 163 286 0.23 0.4 Type - BWR 1981 870.9 64.3 2899 1337 200 1137 792 545 0.46 1.5' Capacity - 752, 748 MWe 1982 768.0 56.6 3418 1460 218 1242 1064 396 0.43 1.9 1983 934.7 68.6 3428 1299 253 1046 851 448 0.38 1.4 1984 658.6 117.3 4110 2218 311 1907 1861 357 0.54 3.4 i

( Appendix C (Continued)- Personnel, Dose and Power Generation Summary Collective Person-ress Person-rems Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose rems teporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (ress (-cSv)/ (MW-Yr) Factor able Doses o r-cSv) tions & Others tor Utility or cSv)- Md-Yr HUMBOLDT BAY" 1969' 44.6 125 164 69 95 12 152 1.31 ' 3. 7 4 Docket 50-133; DPR-7 1970 49.3 115 209 130 79 37 172 1.82 - 4. 2. 1st commercial operation 8/63 1971 39.6 140 292 114 178 65. 227 2.09

7. 4 Type - BWR 1972 43.1 127 253 81 172 57 196 1.99

5. 9 1

Capacity - 63 MWe 1973 50.1 210 266 60 206 1.27

5. 3 1974 43.4 83.9 296 318 103 215 1.07 T. 3 1975 45.3 83.9 265 339 131 208 112 227 1.28 F. 5 1976 23.5 46.4 523 683 37 646 50 633 1.31 29.1 1977 0

0 1063 1904 24 1880 .973 931 1.79 1978 0 0 320 335 13 322 145-190 1.05 1979 0 0 135 31 ~ 11 20 2 29 0.23 1980 0 0 142 22 10 12 3 19 0.15 os 1981 0 0 75 9 0.12 "2 1982 0 0 71 19 5 14 0 19 0.27 i 1983 0 0 84 17 4 13 0 17 0.20 INDIAN POINT 1,* 2, 3** 1969 206.2 298

. 4 Docket 50-3, 50-247, 50-286; 1970 43.3 1639 37.8 DPR-5, -26, -64 1971 154.0 768 li. 0 ist commercial operation 10/62, 1972 142.3 967

0. 8 8/73, 8/76 1973 0

2998 5262 709 4553 2847 2415 1.75 Type - PWR 1974 556.1 59.4 1019 910 0.89 1.6 1975 584.4 74.8 891 705 166 539 47 658 0.79 1.2 1976 273.9 34.8 1590 1950 154 1796 172 1778 1.23 7.1 1977 1278.3 75.3 1391 1070 189 881 383 687 0'.77 ('. 8 1978 1172.3 67.8 1909 2006 260 1746 759 1247 1.05 1.7 a Humboldt Bay has been shutdown since 1976 and in 1984, it was decided that it would not be placed in operation again. Therefor'e, it is no longer included in the count of commercial reactors.

• Indian Point I was defueled in 1975 and in 1984, it was decided that it would not be put in operation again. Therefore. it is no longer included in the count of commercial reactors.
  • Indian Point 3 was purchased by a different utility and now reports separately.

y i b i )

Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective Person rems Persen-rems Average Mega-Unit Total Dose (-cSv) per (-c5v) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose reis Reporting Organization Year Years bility With Measur-rems Opera-MaintI~~ Contrac-Station & (rems (-c:iv)/ (MW-Yr) Factor able Doses or-cSv) tions & Others tor Utility or cSv) MW Yr' INDIAN POINT 1,* 2 1979 574.0 71.4 1349 1279 209 1070 612 667' O.95 22 Docket 50-3, 50-247, 1980 510.8 64.8 1577 971 181 790 398 573 0.62 19 DPR-5, -26 1981 367.5 46.0 2595 2731 237 2494 1595 1137 1.05 74 1st commercial operation 10/62, 1982 532 4 65.4 2144 1635 343 1292 883 752 0.76 31 8/73 1983 702.6 84.0 1057 486 200 286 217 269 0.46 0.7 Type - PWR 1984 416.7 51.9 2919 2644 650 1994 1863 781 0.91 6.3 Capacity - 864 MWe INDIAN POINT 3** 1979 568.0 66 5 808 636 63 ' 573 482 154 0.79 1.1 Docket 50-286; DPR-64 1980 367.3 53.2 977 308 47 261 210 98 0.32 0.8 23 1st commercial operation 8/76 1981 365.8 59.8 677 364 46 318 255 109 0.54 1.0 Type - PWR 1982 171.5 22.5 1477 1226 42 1184 1094 132. 0.83 7.1 Capacity - 965 MWe 1983 7.8 2.6 941 607 38 569 494 113 0.65 77.8 1984 714.4 76.3 658 230 48 182 127 103 0.35 0.3 %EWAUNEE 1975 401.9 88.2 104 28 1 27 12 16-0.27 0.1 Docket 50-305; DPR-43 1976 405.9 78.9 381 270 16 254 193 77 0.71 0.7 1st commercial operation 6/74 1977 425.0 79.9 312 139 8 131 76 63 0.44 0.3 Type - PWR 1978 466.6 89.5 335 154 11 143 89 65 0.46 0.3 Capacity - 503 MWe 1979 412.0 79.0 343 127 6 121 79 48 0.37 0.3 1980 433.8 82.1 401 165 7 158 103 62 0.41 0.4 1981 451.8 86.7 383 141 7 134 94 47 0.37 0.3 1982 458.4 87.6 353 101 5 96 51-50 0.29 0.2 1983 444.1 83.7 445 165 10 155 119 46 0.37 0.4 1984 455.3 85.7 482 139 7 132 90 49 0.29 0.3

• INDIAN POINT 1 was defueled in 1975 and in 1984 it was decided that it would not be placed in operation again. Therefore, it is no longer included in the count of commercial reactors.
  • INDIAN POINT 3 was purchased by a different utility and now reports separately.

Appendix C (Cont;nued) Personnel, Dose and Power Generation Summary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose rems. j Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-cSr)/ (MW-Yr) Factor able Doses or-cSv ) tions & Others tor Utility or-cSv) MW-Yr LACROSSE 1970 15.3 111 40 71

7. T Docket 50-409; DPR-45 1971 33.1 218 158 0.72 4.tr 1st commercial operation 11/69 1972 29.2 151 172 1.14 5.5 Type - BWR 1973 24.4 157 221 1.41 9.3 Capacity,48 MWe 1974 37.9 81.0 115 139 89 50 6

133 1.21 3.) 1975 32.0 69.6 165 234 1.42 7.1 - 4 1976 21.2 47.6 118 111 ~0 71 6 105 0.94 .5. 2 4 1977 11.3 33.7 141 224 60 164 8 216 1.59 19.6 1978 21.6 62.0 182 164 69 95 6 158 .0.90 7.E 1979 24.0 71.8 153 186 65 121 21 165 1.22 7, 7 1980 26.4 68.5 124 218 63 155 11 207 1.76 8.3 1981 29.6 76.0 187 123 62 61 3 120 0.66 4.2 33 1982 17.2 44.6 148 205 65 140 16 189 1.39 11.9 1983 24.8 59.7 160 313 103 210 31 282 1.96 12.6 1984 38.5 80.5 289 252 141 111 5 247 0.87 6.5 LASALLE 1

• 1984 677.8 68.9 1245 252 30 222 86 166 0.10 0.4 Docket 50-373; NPF-11 1st commercici operation 1/84 Type - BWR Capacity - 1036 MWe MAINE YANKEE 1973 408.7 782 117 I

59 58 0.15

0. 3 Docket 50-309; DPR-36 1974 432.6 68.7 619 420 64 156 188 232 0.68 1.0 1st commercial operation 12/72 -

1975 542.9 79.9 440 319 15 304 181 138 ~0.72

0. 6 Type - PWR 1976 712.2 95.0 244 85

?7 "8 26 59 0.35 0.1 Capacity - 810 MWe 1977 617.6 82.2 508 245. ~6 199 112 133 0.48 0.4 1978 642.7 84.1 638 420 54 366 262 158 0.66 0.6 1979 537.0 68.4 393 154 70 34 26 128 0.39 0.3 1980 527.0 72.2 735 462 117 345 277 185 0.63

0. 9 1981 624.2 78.2 868 424 11 413 308 116 0.49 0.7 1982 542.5 69.1 1235 619 33 586 462 157 0.48 1.1

• LASSALE 1 was counted for the first time in 1984.

l I l Appendix C (Continued) i Personnel, Dose and Power Generation Summary Collective Person-rems Person-reas Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type -Dose ress Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (reas (-cSv)/ i (MW-Yr) Factor able Doses or-cSv) tions & Others tor Utility or cSv) MW-Yr MAINE YANKEE (Continued) 1983 677.1 -83.6 592 164 40 124 72 92 0.28

0. 2 -

1984 605.7 74.4 1262 884 9 875 702 182 0.70

1. 5 MCGUIRE 1 1982 524.9 80.4 1560 169 26 143 29 140 0.11 0.3 Docket 50-369; NPF-9 1983 558.3 55.4 1751 521 35 486 123 398 0.30 0.9 Ist commercial operation 12/81 1984 764.1 68.5 1663 507 40 467 110 397 0.30 0.7 Type - PWR Capacity - 1180 MWe MILLSTONE POINT 1 1972 377.6 612 596 50 546 340 256 0.97

1. 6

,, Docket 50-245; DPR-21 1973 225.1 1184 663 125 538 422 241 0.56

2. 9 ha 1st commercial operation 3/71 1974 430.3 79.1 2477 1430 0.58

3. 3 Type - 8WR 1975 465.4 75.6 2587 2022' O.78

4. 3 Capacity - 654 MWe 1976 449.8 76.1 1377 1194 54.

1140 955 239 0.87

2. 6 1977 575.7 89.6 1075 392 118 274 159 233 0.36 07 1978 556.6 87.6 1391 1239 140 1099 907 332 0.89 22 1979 505.0 77.3 1769 1793 198 1595 1326 467 1.01 36 1980 405.8 69.0 3024-2158 100 2058 1864 294 0.71 53 1981 304.3 51.6 2506 1496 96 1400 1201 295 0.60 4,9 1

1982 490.2 79.9 1370 929 78 851 587_ 342 0.68 1.9 1983 640.1 95.6 309 244 63 -181 74 170 0.79 0.4 l 1984 516.1 78.8 1992 836 80 756 532 304 0.42 1.6 l MILLSTONE POINT 2 1976 545.7 78.7 620 168 26 142 73 95 0.27 0.3 Docket 50-336; DPR-65 1977 518.7 65.7 667 242 38 204 153 89 0.36 0.5 1st commercial operation 12/75 1978 536.6 67.3 1420 1621 72 1549 1534 87 1.14 3.0 Type-PWR 1979 ~520.0 62.8 757 472-81 391 305 167 0.62. 0.9 Capacity - 833 MWe 1980 579.3 69.2. 892 636 76 560 514 122 0.71 1.1 1981 722.4 '82.6 890 531 44 487 393 138 0.60 0.7 l 1982 595.9 70.6 2083 1413 27 _ 1386 1219 194 0.68

2. 4 1983 294.0 34.2 2383 1881 170 1711 1548 333 0.79 6.4 1984 782.7 93.5 285 120 11 109 63 57 0.42 0.2 1

i i i

Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective Person-rens Person-rems Average Mega. Unit Total Dose (-cSv) per (-cSv) per Meas'ble Pers on-watt-Availa-Personnel (person-Work Function Personnel Type Dose ress Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-civ)/ i (MW-Yr) Factor able Doses or-cSv) tions & Others tor Utility or cSv) MW-Yr l l MONTICELLO 1972 424.4 99 61 40 21 1 60 0.62 0.1 Docket 50-263; DPR-22 1973 389.5 401 176 48 128 67 109 0.44 0.4 i 1st commercial operation 6/71 1974 349.3 74.9 842 349 91 258 0.41

1. 0 Type - BWR 1975 344.8 72.2 1353 1353 1.00 3.9 Capacity - 525 MWe 1976 476.4 91.5 325 263 59 204 51 212 0.81 0.5 1977 425.6 79.9 860 1000 135 865 661-339 1.16 2.3 1978 459.4 87.2 679 375 62 313 165 210 0.55 0.8

'1979 522.0 97.6 372 157 62 95 51 106 0.42

0. 3 1980 411.8 78.2 1114 531 82 449 248 283 0.48

1. 3

-1981 389.3 72.6 1446 1004 101 903 756 248 0.69

2. 5 1982 291.1 63.3 1307 993 130 863 760 233 0.76 3.4 1983 494.6 96.3 416 121 57 64 23 98 0.29 0.2 d$

1984 33.7 9.2 1872 2462 208 2254 927 1535 1.32 73.1 NINE MILE POINT 1 1970 227.0 821 44 12 32 17 27 0.05

0. 2 Docket 50-220; DPR-63 1971 346.5 1006 195 43 152 63 132 0.19

0. 5 1st commercial operation 12/69 1972 381.8 735 285 59 226 28 257 0.39

0. F Type - BWR 1973 411.0 550' 567 139 428 118 449 1.03 1.4 Capacity - 610 MWe 1974 385.9 70.5 740 824 42-782 279 545 1.11

2. L 1975 359.0 72.1 649 681 68 613 203 478 1.05 1.1 1976 484.6 88.2 392.

428 52 376 229 199 1.09 0.1 1977 347.4 59.2 1093 1383 41 1342 883 500 1.26

4. t) 1978 527.7 95.1 561 314 59 255 26 288 0.56

0. si 1979 354.0 66.1 1326 1497 106 1391 940 557 1.13

4..!

1980 533.9 92.3 1174 591 75 516 251 340 0.50 1.:L 1981 385.2 66.0 2029 1592 144 1448 1064 528 0.78

4. :L 1982 133.5 21.4 1352 1264-63 1201 944 320 0.93

9. fi 1983 329.8 56.2 1405 860 50 810 576 284 0.61

2. fi 1984 426.8 71.9 1530 890 163 727 372 518 0.58 2.'

l i.

Appendix C (Continued) Personnel, Oose and Power Generation Summary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-cSv) per (-c5v) per Meas'ble Persod watt-Availa-Personnel (person-Work Function Personnel Type Oose rems Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-cSv )/ (MW-Yr) Factor able poses or-cSv) tions & Others tor Utility or CSv) MW-Y a NORTH ANNA 1, 2 1979 507.0 61.7 2025 449 78 371 190 259 0.22

0. 9 j

Oocket 50-338; NPF-04, - 09 1980 681.8 86.5 2086 218 128 90 85 133 0.10 0.3 1st commercial operation 6/78, 1981 1241.9 71.5 2416 680 188 492 343 337 0.28 0.5 12/80 1982 777.7 45.8 2872 1915 78 1837 1207 708 0.67 2.5 Type - PWRs 1983 1338.4 76.1 '2228 665 129 536 296 369 0.30 0.5 Capacity - 890, 890 MWe 1984 1021 3 5S.8 3062 1945 154 1791 1416 529 0.54 1.9 OCONEE 1, 2, 3 1974 650.6 60.1 844 517 18 499 144 373 0.61 0.8 Docket 50-269, 50-270, 50-287; 1975 1838.3 75.5 829 497 72 425 90 407 0.60 0.3 OPR-38 -47, -55 1976 1561.4 63.0 1215 1026 65 961 219 807 0.84 0.6 1st commercial operation 7/73 1977 1566.4 65.9 1595 1328 244 1084 294 1034 0.83 0.8 q3 9/74, 12/74 1978 1909.0 75.8 1636 1393 179 1214 340 1053 0.85 0.7 Type - PWRs 1979 1708.0 67.7 2100 2001 123 878 181 820 0.48 0.6 Capacity - 860, 860, 860 MWe 1980 1703.7 70.1 2124 1055 117 938 162 893 0.50 0.6. 1981 1661.5 66.8 2445 1211 113 1098 275 936 0.50 0.7 1982 1293.1 52.5 2445 1792 97 1695 364 1428 0.73 1.4 1983 2141.5 82.2 1902 1207 88 1119 316 891 0.63 0.6 1984 2242.9 85.7 2085 1106 63 1043 260 846 0.53 0.5 ~ OYSTER CREEK 1970 413.6 95 63 21 42 11 52 0.66 0.1 Docket 50-219; OPR-16 1971 448.9 249 240 50 190 92 '148 0.96 0.1 1st commercial operation 12/69 1972 515.0 339 582 150 432 167 415 1.72 1.3 Type - BWR 1973 4 ?4. 6 782 1236 195 1041 683 553 1.58 2.5 Capacity - 620 MWe 1974 434.5 70.4 935 984 166 818 162 822 1.05 2.: i 1975 373.6 73.3 1210 1140 169 971 271 869 0.94 3.( 1976 456.5 79.3 1582 1078 70 1008 587 491 0.68 2.4 1977 385.7 70.1 1673 1614 76 1538 1048 566 0.96 4.2 1979 431.8 74.3 1411 1279 134 1145 696 583 0.91

3. 0 1979 541.0 85.9 842 467 95 372 135 332 0.55

0. f t 1980 232.9 41.4 1966 1733 97 1636 1182 551 0.88

7. d.

Appendix C (Continued) Personnel, Dose and Power Generation Sumn.ary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-c5v) per (-c5v) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Oose rems v- .;rtirg Crganization Year Years bility With Measur-rems Opera-Maint. Contrac-Statica 0 (rems (-c5v)/ (MW-Yr) Factor able Doses or cSv) tions & Others tor Utility or cSv) MW-Yr Gv >TE F EEE (Cnntinued) l 1981 314.8 59.8 1689 917 48 869' 479 438 0.54

2. 9 l

1982 242.7 62.5 1270 865 33 832 491 374 0.68 3.6 l l 1983 2,'. 3 11.5 2303 2257 65 2192 1863 394 0.98 80 9 1984 37.1

9. 6 2369 2054 134 1920 1538 516 0.87 55.4 l

l c^tISA Es 1972 216.F 78 0.4 D cn ket. '55; CfR-?J 1973 26o.8 975 1133 16 1117 661 472 1.16 3.9 1st c o~no rc i a ! operation 12/71 rn4 10.7

5. 5 774 627 0.81 58.6 T >i e - PWR 1975 302.0 64.5 495 3u6 0.6?

1. 0 Ca; ic f ty - 635 PWe 1976 346.9 55.?

742 646 23 673 109 587 0.94

2. 0 8

1977 616.6 91.4 332 100 13 87 23 77 0.30 0.2 l 1978 320.2 49.7 849 764 52 712 173 591 0.90 2.4 1979 415.0 59.9 1599 854 99 755 360 494 0.53 2.1 1980 288.3 42.9 1307 424 191 233 312 112 0.32

1. 5 1981 418.2 57.2 2151 902 167 735 737 165 0.42 2.2 1132 404.3 5a.7 1554 330 73 257 203 127 0.21 0.8 1993 454.4 60.3 2167 977 145 832 494 483 0.45

2. 2 1984 98.7 15.2 1344 573 79 494 339 334 0.43

5. 8 PEACH COTICM 3

1"75 1234.3 80.9 971 228 0.23

0. 2 Lu<iet 5:-277 50-279; CPR-44, -56 1776 1379.2 73.0 2136 840 180 660 434 406 0.39 0.6 ist e omme rc ia l e:m ra tion 7/74, lo77 105?.4 58.7 2827 2036 223 1813 1374 662 0.72 1.9

/74 1978 1636.3 84.0 2244 1317 162 1155 709 608 0.59 0.8 i Tyr> - P R 1979 1740.0 84.5 2276 1388 245 1143 717 671 0.61

0. 8 Capscity - 1051. 1935 MWe 1930 1374.2 66.3 2774 2302 311 1991 1596 706 0.83

1. 7 1981 1151.8 58.0 2857 2506 273 2233 1880 626 0.88

2. 2 1982 1583.3 76.9 2734 1977 313 1664 1347 630 0.72

1. 2 1983 824.7 40.5 3107 2963 331 2632 2422 541 0.95

3. 6 1684 1165.8 57.1 3313 2450 225 2225 2045 405 0.74 2.1 t

Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective Person-rems Person-ress Average. Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose rems Rrporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (ress (-cSv)/ (MW-Yr) Factor able Doses or-cSv) tions &_0thers tor Utility or cSv) MW-Yr PILGRIM 1 1973 484.0 230 126 49 77 0.55 0.3 0.91

1. 8.

Docket 50-293; DPR-35 1974 234.1 39.2 454 415 Ist commercial operation 12/72 1975 308.1 71.3 473 798 142 656 412 386 1.69 2.6 Type - BWR 1976 287.8 60.7 1317 2648 66 2582 2270 378 2.01 9.2 l Capacity - 663 MWe 1977 316.6 61.4 1875 3142 146 2996 2176 966 1.68 9.9 1978 519.5 83.1 1667 1327 157 1170 895 432 0.80 2.5 1979 574.0 89.4 2458 1015 131 884 516 499 0.41 1.8 1980 360.3 56.2 3549 3626 207 3419 3076 550 1.02 10.1 i 1981 .408.9 65.9 2803 1836 70 1766 1418 418 0.66 4.5 1982 389.9 63.9 2854 1539 314 1225 1094 445 0.54 3.9 1983 559.5 87.2 2326 1162 296 886 776 386 'O.50 2.1 1984 1.4 0.4 '542 4082 647 3435 3767 315 0.90 g3 o' 0.4 POINT BEACH 1, 2 1971 393.4 164 1.5 Docket 50-266, 50-301; DPR-24. -27 1972 378.3 580 1st commercial operation 12/70, 1973 693.7-501 588 72 516 1.17 0.8 10/72 1974 760.2 81.3 400 295 70 225 81 214 0.74 0.4 1.35 0.6 Type - PWRs 1975 801.2 82.9' 339 459 Capacity - 485, 485 MWe 1976 857.3 86.7 313 370 58 312 107 263 1.18 0.4 1977 873.9 87.3 417-429 63 366 212 217 1.03 0.5 1978 914.4 90.9 336 320 71 249 111 209 0.95 0.3 1979 808.0 80.8 610 644 65 579 449 195 1.06 0.8 1980 727.2 82.5 561 598 60 - 538 420 178 1.07 0.8 1981 760.4 83.6 773 596 83 513 364 232 0.77 0.8 1982 757.2 84.3 767 609 72 537 375 234 0.79 0.8 1983 648.2 72.7 1702 1403 81 1322 1179 224 0.82 2.2 1984 788.9 78.6 1372 789 121 668 457 332 0.56 .1. 0 ~ PRAIRIE ISLAND 1, 2 1974 181.9 43.9 150 18 5 13 0.12 0.1 0.26 0.1 I Docket 50-282. 50-306; DPR-42. -60 1975 836.0 83.3 477 123 1st commercial operation 12/73, 1976 725.2 76.6 818 447 68 379 235 212 0.55 0.6 12/74 1977 922.9 87.2 718 300 73 227 60 240 0.42 0.3

Appendix C (Continued) Personnel Dose anu Power Generetion Summary Collective Person-rems Person-ress Average Mega-Unit Total Dose ( cSv) per (-cSv) per Meas'ble Person. watt-Availa-Personnel (person-Work Functica Personnel Type Dose rems Reporting Organization Year Years b!11ty With Measur- ' rems Opera-Maint. Contrac-Station & (rees (-cSv)/ (MW-Yr) Factor able Doses or c5v) tions & Others tor Utility or cSv) MW-Yr PRAIRIE ISLAND 1, 2 (Continued) Type - PWRs 1978 941.1 92.2 546 221 43 178 48 173 0.40 0.2 Capacity - 503, 500 MWe 1979 865.0 86.0 594 180 29 151-49 131 0.30 0.2 1980 800.7 79.9 983 353 40 313 141 212 0.36 0.4 1981 844.9 80.5 836 329 153 176 128 201 0.39 0.4 1982 944.9 90.4 645 229 30 139 68 161 0.36 0.2 1983 921.1 86.8 654 233 14 219 73 160 0.36 0.3 1984 972.4 91.7 539 147 18, 129 52 95 0.27 0.2 ei QUAD CITIES 1, 2 1974 958.1 72.3 678 482 36 446 0.71 0.5 '" Docket 50-254, 50-265; DPR-29, -30 1975 833.6 68.4 1083 1618 114 1504 692 926 1.49 1.9 1st commercial operation 2/73, 1976 951.2 73.1 1225 1651 269 1382 648 1003 1.35

1. 7 3/73 1977 970.1 84.0 907 1031 108 923 373 658 1.14 1.1 Type - 8WRs 1978 1124.5 88.6 1207 1618 156 1462 722 896 1.34 1.4 Capacity - 769, 769 MWe 1979 1075.0 84.6 1688 2158 215 1943.

1250 908 1.28 2.0 1980 866.9 64.4 3089 4838 291 4547 3657 1181 1.57 5.6 1981 1156.9 81.1 2246 3146 100 3046 2623 523 1.40

2. 7 I

r 1982 1018.7 76.0 2314 3757 177 3580-2653 1104 1.62 3.7 1983 1088.5 79.2 1802 2491 166 2325 1937 554 1.38 2.3 1984 994.6 65.7 1678 1579 122 1457 1078 501 0.94 1.6 RANCHO SECO 1976 268.1 30.4 297 58 6 52 17 41 0.19 0.2 Docket 50-312; DPR-54 1977 706.4 77.1 515 390 61 329 248 142 0.76

0. 5 1st commercial operation 4/75 1978 607.7 80.5 508 323 76 247 176 147 0.64 0.5 Type - PWR 1979 687.0 91.1 287 126 27 99 64 62 0.44 0.2 Capacity - 873 MWe 1980 530.9 60.4 890 412 110 302 281 131 0.46

0. 8.

1981 321.2 40.2 772 402 83 319 266 137 0.52 1.3 1982 409.5 53.3 766 337 49 288 217 120 0.44 0.8 f 1983 347.9 46.8 1338 787 '158 629 604 183 0.59 2.3 1984 460.0 58.3 802 222 73 149 '115 107 0.28 0.5

v Appendix C (Continued)~ Personnel Dose and Power Generation Summary Collective Persoi rems Person-rems Average Mege-Unit-Total. Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type

Dose, rems Reporting Organization Year Years bility With Measur-rems Opera-Ma.at.

Contrac-Station & '(rems (-c5v)/ (MW-Yr) Factor-able Doses' or-cSv) tions & Others tor Utility cr cSv) HW-Yr ROB 1h50N 2 1972-580.0 245 215 42 173 137 78 0.88 0.4 0.84 1.5 Docket 50-261; DPR-23 1973 455.1 831 695 1st commercial operation 3/71 1974 578.1 83.3 853 672 185 487-0.79

1. 2 1.34

2. 3 Type - PWR 1975 531.8-72.7 849 1142 Capacity - 665 MWe 1976 585.5 84.7 597-715 30 685 457 758 1.20

1. 2 1977 511.5 85 2 634 455 52 403-223 232 0.72

0. 9 '

1978 480.5 72.0 943 963 63 900 529 434 .1.02 2.0 1979 482.0 70.8 1454 .1188 60 1128 794 394 0.82 2.5 1980 387.3 62.2 2009 1852 79 1773 1379 473 0.92 4.8 1981 426.6 73.0 1462 733 45 688 513 220 0.50 '1. 7 1982 277.5 48.9 2011 1426 128 1298 945 481 0.71 5.1 1983 409.8 75.5 2244 923 96 827 628 295' O.41 2.3 1984 28.0 .7.0 4127 2880 196 2684 2549 331 0.70 g3 SALEM 1, 2 1978 546.4 55.6 574 122 28 94 32 90 0.21 0.2 Docket ' 50-272,-311; DPR-70,-75 1979 250.0 25.5 1488 584 100 484 359 225 0.39 2.3 1st commercial operation 6/77, 1980 680.6 69.2 1704 449-55 394 281 168 0.26 0.7 10/81 1981 743.0' 78.1 1652 254 4-250 152 102 C.15 0.3 Type - PW9s 1982 1440.4 72.6 3228 1203 66 1137 846 357 0.37 0.8 Capacity - 1079, 1106 MWe 1983 742.0 35.4 2383 581 10 571 463 118 0.24 0.8 1984 650.1 31.8 1395 681 10 671 469 212 0.70

1. 0 SAN ONOFRE 1 1909 314.1 123 42 10 32 5

37 0.34-0.1 Docket 50-206; DPR-13 1970 365.9 251 .155 13 142 59 96 0.62 0.4 1st commercial operation 1/68 1971 362.1 121 50 12 .38 3 47 0.41 0.1 Type - FWR 1972 338.5 326 256 29 227 117 139 'O.78 '0.8 Capacity - 435 MWe 1973 273.7 570 35-40 313 168 185 -0.62

1. 3 0.32 0.2 1974 377.8 86.1 219 71 0.69 0.7 1975 389.0 87.4 424 292

Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective Person rems Person-rems Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose rems Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-cSv)/ (MW-Yr) Factor able Doses or-cS v) tions & Others tor Utility or.cSv) MW-Yr SAN ONOFRE 1 (Continued) 1976 297.9 70.2 1330 880 147 733 629 251 0.66

2. 9 1977 281.2 63.7 985 847 77 770 451 396 0.86 3.0 1978 323.2 80.2 764 401 25 376 234 167 0.52 1.2 1979 401.0 90.2 521 139 23 116 65 74 0.27 0.3 1980 97.3 22.3 3063 2387 219-2168 2018 369 0.78 24.5 1981 05.9 26.7 2902 3223 100 3123 3104 119 1.11 33.6 1982 61.6 15.7 3055 832 81 751 729 102 0.27 13.5 1983

0. 0 -

0.0 1701 155 31 124 113 42 0.09 1984 34.7 9.4 4374 513 67 444 432 79 0.12 14.7 U$ SAN ONOFRE 2

• 1984 635.7 58.9 3140 473 38 435 398 75 0.15

0. 7 Docket 50-361; NPF-10 1st commercial operation 3/83 Type - PWR Capacity - 1070 MWe SEQUOYAH 1, 2 1982 583.5 52.8 1965 570 67 503 57 513 0.29 1.0 Docket 50-327. -328; DPR-77, -79 1983 1663.7 75.0 1772 491 74 417 46 445 0.28 0.3 1st commercial operation 7/81, 1984 1481.9 69.0

'2373 1117 153 964 111 1006 0.47 0.8 6/82 Type - PWR Capacity - 1148, 1148 MWe ST. LUCIE 1, 2* 1977 649.1 84.7 445 152 26 126 92 60 0.34 0.2 Docket 50-335,-387;DPR-67;NPF-16 1978 606.4 76.5 797 337 15 322 140 197 0.42' O.6 1st commercial oper. 12/76, 3/83 1979 592.0 74.0 907 438 25 413' 209 229 0.48 0.7 Type - PWRs 19G0 627.9 77.5 1074 532 82 450 195 337 0.50 0.8 Capacity - 822, 786 MWe 1981 599.1 72.7 1473 929 20 909 556 373 0.63

1. 6 1982 816.8 i

.0 1045 272 17 255 105 167

-0.26 0.3

• San Onofre 2 and St. Lucie 2 were counted for the f

-ime in 1984.

I 1 l Appendix C (Continued) Personnel, Lose and Power Generation Summary i Collective Person-rens Person-rems Average Mega- . Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-l watt-Availa-Personnel (person-Work Function Personnel Type Dose rems Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-cSv)/- (MW-Yr) Factor able Doses or-c5v) tions & Others tor Utility-or cSv) MW-Yr + ST. LUCIE 1, 2 (Continued) 4 1983 290.3 15.4' 2211 1204 5 1199 924 280 0.54 4.2 1984 1183.0 69.6 2090 1263 41 1222 808 455 0.60 1.1 SUMMER 1 a 1984 504.6 61.1-1120 295 29 266 202 93 0.26 0.6 Docket 50-395; hPF-12 i ]. Ist commercial operation 1/84 Type - PWR Capacity - 885 MWe ci c) SURRY 1, 2 1973 420.6 936 152 0.16 0.4 Docket 50-280, 50-281; DPR-32, -37 1974 717.4 49.8 1715 . 884 72 812 0.51

1. 2.'

1st commercial operation 12/72, 1975 1079.0 70.8 1948 1649 27 1622 1065 584 0.85 1.5 5/73 1976 930.7 60.4 2753 3165-444 2721 1873 1292 1.15 3.4 Type - PWRs 1977 1139.0 72.2 1860 2307 348 1959' 1380 927 1.24 2.0 i Capacity - 775, 775 MWe 1978 1210.6 77.2 2203 1837 726 1111 1029 808 0.83

1. 5 i

1979 343.0 42.3 5065 3584 173 3411 2975 609 0.71 10.4 l 1980 568.2 40.3 5317 3836 353 3483 -3117 719 0.72 6.6 1981 907.6 59.3 3753 4244 428 3816 3040 1204 1.13 4.7 1982 1323.3 88.5 1878 1490 399 1091 506 984 0.79 1.1 1983 916.2 61.3 2754 3220 571 2649 1786 1434 1.17 3.5 1984 1026.7 71.0 3198 2247 536 1711 1575 672 0.70 2.2 l j SUSQUEHANNA 1

• 1984 719.9 72.6 2827 308 71 237 128 180 0.11 0.4 i

j Docket 50-387; NPF-14 1st commercial operation 6/83 Type - BWR Capacity - 1032 MWe t

• Susquehanna 1 was counted for the first time in 1984.

I i

.~. Appendix C (Continued) Personnel, Oose and Power Generation Summary Collectirs Person-rems Person-rees Average Mega-Unit Total Dose (-c5v) per (-cSv) per Meas'ble Person-watt-Availa-Personnel .(person-Work Function Personnel Type Dose rems Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (ress (-cSv)/ (MW-Yr7 Factor able Doses or cSv) tions & Others tor Utility o r-cSv) ' MW-Yr 4

• THREE MILE ISLAND 1, 2 1975 675.9 82.2 131 73 Docket 50-289; DPR-50, -73 1976 530.0 65.4 819 286 23 263.

18 55 0.56 0.1 69 217 0.35

0. 5 1st commercial operation-9/74, 1977 664.5 80.9 1122 359 15 344 128 231 0.32 0.5 Type - PWRs 12/78 1978 690.0 85.1 1929 504-23 481 235 269 0.26

- 0. 7 Capacity - 776, 880 MWe 1979 266.0 21.9 4024 1392 197 1195 907 485 0.35 5.2 1980 0.0 0.0 2328 394 29 365 234 160 0.17 1981 0.0 0.0 2103 376 50 326 190 186 0.18 1982 0.0 0.0 2123 1004 62 942 433 571 0.47 i 1983

0. 0

0. 0 1592 1159 79 1080 637

'522 0.73 1984

0. 0 0.0 1079 688 49 639 330 358 0.64 o'

~ i TROJAN 1977 792.0 92.6 591 174 30 144 105 69 0.29 0.2 Docket 50-344; NPF-1 1978 205.5 20.6 711 319 81 238 124 195 0.45

1. 5 1st commercial ooeration 5/76 1979 631.0 58.I' 736 257 74 183 113 144 0.35 0.4 l

Type - PWR 1980 727.5 72.5 1159 421 77 344 305 116 0.36

0. 6 t

Capacity - 1080 MWe 1981 775.6 74.1 1311 609 113 496 363 246 0.46 0.8 1982 579.5 60.8 977 419 76 343 168 251 0.42 0.7 ( 1983 494.2 62.4 969 307 35 272 129 178 0.32

0. 6 1984 567.0 54.4 1042 433 40 393 230 203 0.42 0.8 TURKEY POINT 3, 4 1973 401.9 444 78 0.18

0. 2 Docket 50-250, 50-251; DPR-31, -41 1974 953.6 794 454 88 366 202 252 0.57 0.5 1st commercial operation 12/72, 1975 1003.7 74.9 1176 876 270 606 559 317 0.74 0.9 9/73 1976 974.2 71.2 1647 1184 89 1095 868 316' O.72 1.2 Type - PWRs 1977 979.5 72.1 1319 1036 94 942 522 514 0.78 1.1 1

Capacity - 666, 666 MWe 1978 1000.2 78.8 1336' 1032 90 942 546 486 0.77 1.0 l 1979 811.0 62.4 2002 1680 299 1381 997 683 0.84 2.1 1980 990.6 73.6 1803 1651 232 1419 1218 433 0.92

1. 7 1981 654.0 46.8 2932 2251 274 1977 1854 397 0.77 3.4 1982 915.7 65.2 2956 2119 197 1922 1656 463 0.'72 2.3 a

1983 878.4 62.8 2930 2681 272 2409 2119 562 0.92 3.1 1984 946.7 68.5 1010 1255 217 1038 876 379 0.62 1.3 SThree Mile Island I and 2 are shutdown. They are still included in the count of commercial reactors. i i

l. i l Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective Person-rems Person-rems Average Maga-Unit Total Dose (-cSv) per (-c5v) per Meas'ble Perron-watt-Availa-Personnel (person-Work Function Personnel Type Dose rems Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rees (-cSv)/ y i (MW-Yr) Factor able Doses .or-cSv) tions & Others tor Utility or cSv)- MW-Yr t'ERMONT YANKEE 1973 222.1 244 85 0.35 0.4 Docket 50-271; DPR-28 1974 303.5 357 216 24 192 103 113 0.60

0. 7.

Ist commercial operation 11/72 1975 429.0 87.8 282 153 70 83 63 90 0.54 0.4 I Type - BWR 1976 389.6 77.1 815 411 .36 375 246 165 0.50

1. 0 l

Capacity - 504 MWe 1977 423.5 85.1 641 258 83 175 90 168 0.40 0.6 1978 387.5 75.9 934 339 78 261 158 181 0.36 0.9 l 1979 414.0 82.1~ 1220 1170 546 624 642 528 0.96 2.8 1 1980 357.8 71.5 1443 1338 141 1197 926 412 0.93 3.7 i 1981 429.1 84.6 .1264 731 121 610 408 323 0.58

1. 7 I

1982 501.0 96.0 - 481 .205 60 145 80 125 0.43 0.4 r 1983 346.1 69.3 1316 1527 215 1312 787 740 1.16 4.4 1984 398.1-79.0 954 603 80 523 307 296 0.63 1.5 l g i. YANKEE ROWE 1969 138.3 193 215 83 132 78 133 1.11 1.5 l Docket 50-29; DPR-3 1970 146.1 355 255 90 165

158 97 0.72 1.7 l

1st commercial operation 7/61 1971 173.5 155 90 46 44 19 71 0.58 0.5 Type - PWR 1972 78.7 282 255 63 192 146 109 0.90 3.2 Capacity - 167 MWe 1973 127.1 133 99 47 52 0.74 0.8 1974 111.3 243-205 99 106 0.84

1. 8

} 1975 145.1 82.4 249 116 52 64 66 50 0.47 0.8 1976 152.2 89.8 152 59 17 42 4 55 0.39 0.*4 1 1977 124.6 73.9 725 356 28 328 174 182 0.49 2.9 I 1978 145.0 81.0 565 282 26 256 95 187 0.50 1.9 1979 149.0 81.6 441 127 16 111 52 75 0.29 0.9 1980 35.6 22.0 502 213 6 207 90 123 0.42 6.0 l 1981 '109.0 74.4 515 302 8 294 136 .166 0.59 2.8 1982 108.6 73.4 814 474 6 468 .215 259 0.54 4.4 l 1983 163.5 91.4 395 68 19 49 4 64 0.17 0.4 1984 124.8 71.4 654 348 15 333 141 207 0.53 2.8 l' I i

Appendix C (Continued) Personnel, Dose and Power Generation Summary Collective Person-rems Person-rems Average Mega-Unit Total Dose (-cSv) per (-cSv) per Meas'ble Person-watt-Availa-Personnel (person-Work Function Personnel Type Dose rems Reporting Organization Year Years bility With Measur-rems Opera-Maint. Contrac-Station & (rems (-cSv)/' (MW-Yr) Factor able Doses or cSv) tions & Others tor Utility or cSv) MW-Yr ZION 1, 2 1974 425.3 71.1 306 56 13 43 0.18 0.1 Docket 50-295, 50-304; DPR-39, -48 1975 1181.5 74.9 436 127 17 110 49 78 0.29 0.1 1st commercial operation 12/73, 1976 1134.9 61.9 774 571 64 507 257 314 0.74 0.5 9/74 1977 1358.6 75.0 784 1003 43 960 561 442 1.28 0.7 Type - PWRs 1978 1613.5 80.2 1104 1017 150 867 418 599 0.92

0. 6 Capacity - 1040, 1040 MWe 1979 1238.0 67.6

'1472 1274 168 1106 747 527 0.87 1.0 1980 1411.2 74.1 1363 920 97 823 560 360 0.67 0.7 1981 1366.9 72.3 1754 1720 50 1670 1155 564 0.98 1.3 1982 1186.4 64.3 1575 2103 42 2061 1688 415 1.34

1. 8 1983 1222.3 66.8 1285 1311 118 1193 905 406' 1.02 1.1 1984 1389.9 69.5 1110 786 23 763 556 230 0.71 0.6 5

w i

i i + i 4 i i j 1 APPENDIX D Number of Personnel and Collective Dose by ' ork and Job Function W 1984 i Nots: A 't' preceding a plant name indicates that the licensee's input was recategorized by NRC staff.

Appendix D NUMBER OF PERSONNEL AND PERSON-REM BY HORK AND JOB FUNCTION PLANT:,ARKP4S AS 1,2 (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REti). TOT AL PERSON-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CON 13ACT TOTAL HORK *, JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS PERSON-REMS REAGTOR E lRATIONS & SURV. T Malt 4TENANCE PERSONNEL 25 0 48 5.782 0.000 11.401 OPERATING PERSONNEL 62 0 0 25.863 0.000 0.000 HEALTH PHYSICS PERSONNEL 44 0 62 14.642 0.000 17.892 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 2 1 9 0.249 0.109 1.707 TOTAL 133 1 119 253 46.536 0.109 31.000 77.645 ROUTINE MAINTENANCE MAINTENAt4CE PERSOf4NEL 113 7 77 48.926 1.792 24.844 OPERATING PERSONr.EL 2 0 0 0.254 0.000 0.000 HEALTH PHYSICS PERSONNEL 31 0 19 7.364 0.000 3.431 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 1 2 0.000 0.101 1.506 TOTAL 146 8 98 252 56.544 1.893 29.781 8A.218 1 1N-SERVLCE INSP1CTION ~ 0 49 0.133 0.000 23.822-MAINT ENA!4CE PERS0tif4EL 1 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 5 1.405 0.000 0.622 SUPERVISORY PERSONNEL a 0 1 0.000 0.000 0.182 ENGINEERING PERSONNEL i 0 5 0.347 0.000 0.777 TOTAL 6 0 60 66 1.885 0.000 25.403 27.288 i SfP_ECI AL MAINTENANCE t1AINTENANCE PERSONNEL 98 6 474 43.684 1.594 288.310 o OPERATING PERSONNEL 9 0 0 4.695 0.000 0.000 6' HEALTH PHYSICS PERSONNEL 34 0 52 13.126 0.000 20.378 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 1 3 30 0.224 0.375 21.585 TOTAL 142 9 556 707 61.729 1.969 330.273 393.971 11ASTE PROMSMG MAINTEt4ANCE PERSONNEL 4 0 29 2.918 0.000 18.788 OPERATING PERSONNEL 3 0 0 0.502 0.000 0.000 t HEALTH PHYSICS PERSONNEL 22 1-5 14.703 0.000 0.866 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 29 0 34 63 18.123 0.000 19.654 37.777 RfFUELING F MAINTENANCE PERSONNEL 55 3 36 38.073 1.077 14.662 OPERATING PERSONNEL 14 0 0 4.995 0.000 0.000 HEALTH PHYSICS PERSONNEL 3 0 42 0.646 0.000 10.151 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 1.618 1.717 2.820 ENGINEERING PERSONNEL 3 3 4.,,. 163 45.332 2.794 27.633 75.759 TOTAL 75 6 82 TOTAL BY JOB FUNCTION Malt 4TENANCE PERSONNEL 296 16 713 1025 139.516 4.463 381.827 525.806 OPERATING PERSONNEL 90 0 0 90 36.309 0.000 0.000 36.309 HEALTH PHYSICS PERSONNEL 138 0 185 323 51.886 0.000 53.340 105.226 SUPERVISORY PERSONNEL 0 0 1 1 0.000 0.000 0.182 0.182 ENGINEERING PERSONNEL 7 8 50 65 2.438 2.302 28.395 33.135 GR At4D TOT AL 531 24 949 1594 230.149 6.765 463.744 700.658

• Workers may be counted in more than one category.

Appendix D(Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT: BEAVER VALLEY (PHR) 1984 NUMBER OF PERSONNEL (>100 M-RFM,1 TOTAL PERSON-REMS M STATION UTILITY CONTRACT TOTAL STATION' UTILITY CONTRACT T 0J_A L, HORK 3 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS ENpl0YEES EMPLOYEES 8 OTHERS PERSON-REMS Rf3 [QR_QPlRATIONS 8 SURV. MAltdENANCE PERSONNEL 5 0 6 2.730 0.000 1.870 OPERATING PERSONNEL 61 0 0 21.325 0.000 0.000 HEALTH PHYSICS PERSONNEL 45 0 59 29.783 0.000 43.135 SUPERVISORY PERSONNEL 14 0 1 4.880 0.000 0.135 ENGINEERING PERSONNEL 22 0 17 9.022 0.000 6.740 TOTAL 147 0 83 230 67.740 0.000 51.880 119.620 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 103 0 200 77.633 0.000 120.877 OPERATING PERSONNEL 4 0 0 1.300 0.000 3.000 HEALTH PHYSICS PERSONNEL 12 0 2 6.219 0.000 1.832 SUPERVISORY PERSONNEL 9 0 3 5.316 0.000 1.685 ENGINEERING PERSONNEL 11 0 13 6.190 0.000 10.630 TOTAL 139 0 218 357 96.658 0.000 135.024 231.682 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 0 0 36 0.050 0.000 43.690 OPERATING PERSONNEL 1 0 0 0.230 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.010 0.000 0.130 SUPERVISORY PERSONNEL 1 0 0 0.175 0.000 0.000 ENGINEERING PERSONNEL 3 0 4 1.510 0.000 5.580 TOTAL 5 0 40 45 1.975 0.000 49.400 51.375 1PlC_LAL MAINTENANCE MAINTENANCE PERSONNIL 6 0 72 7.705 0.000 23.485 mo 0PERATING PERSONNEL 0 0 0 0.000 0.000 0.000 N HEALTH PHYSICS PERSONNEL 0 0 0 0.110 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.175 0.000 0.000 ENGINEERING PERSONNEL 1 0 5 0.360 0.000 1.960 TOTAL 7 0 77 84 8.350 0.000 25.445 33.795 HASTE PROCESSING MAINTENANCE PERSONNEL 1 0 4 0.410 0.000 1.675 OPERATING PERSONNEL 2 0 0 1.165 0.003 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.050 0.000 0.225 SUPERVISORY PERSONNEL 2 0 0 0.735 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.010 0.000 0.020 TOTAL 5 0 4 9 2.370 0.000 1.920 4.290 EfLL4 LING MAINTENANCE PERSONNEL 11 0-23 11.975 0.000 18.655 OPERATING PERSONNEL 1 0 0 0.580 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.010 0.000 0.000 SUPERVISORY PERSONNEL 2 0 3 0.860 0.000 2.335 ENGINEERING PERSONNEL 4 0 4 3.720 0.000 6.555 TOTAL 18 0 30 48 17.145 0.000 27.545 44.690 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 126 0 341 467 100.503 0.000 210.252 310.755 OPERATING PERSONNEL 69 0 0 69 24.600 0.000 0.000 24.600 HEALTH PHYSICS PERSONNEL 57 0 61 118 36.182 0.000 ~45.322 81.504 SUPERVISORY PERSONNEL 28 0 7 35 12.141 0.000 4.155 16.296 ENGINEERING PERSONNEL 41 0 43 84 20.812 0.000 31.485 52.297 GRAND TOTAL 321 0 452 773 194.238 0.000 291.214 485.452

Appendix D (Cont.) e HUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT:tBIG ROCK POINT (BWR) 1984 NUMBER OF PERSONNEL (>100 M-REM) TOTAL PERSON-REMS STATION UTILITY CONTRACT TOTAL STATION UTI.ITY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLGYEES 8 OTHERS PERSONS EMPLOYEES EMPL )YEES & OTHER L PERSON-RFM5 REACVOR OPERATIONS & SURV. MAINTENANCE PERSONNEL 0 2 0 0.207 0.557 0.000 OPERATING PERSONNEL 30 1 0 20.644 0.145 0.007 HEALTH PHYSICS PERSONNEL 12 0 0 5.233 0.025 0.102 SUPERVISORY PERSONNEL 3 0 0 0.775 0.075 0.023 ENGINEERING PERSONNEL 1 3 0 0.401 0.929 0.003 TOTAL 46 6 0 52 27.260 1.731 0.135 29.126 ROUTINE MAINTENAtXE MAINTENANCE PERSONNEL 18 22 3 5.941 5.830 1.015 OPERATING PERSONNEL 3 1 0 0.859 0.246 0.000 HEALTH PHYSICS PERSONNEL 11 0 5 2.639 0.133 1.374 SUPERVISORY PERSONNEL 6 0 0 5.732 0.083 0.013 ENGINEERING PERSONNEL 0 0 0 0.005 0.000 0.000 TOTAL 38 23 8 69 15.176 6.292 2.462 23.950 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 0 4 3 0.039 1.155 1.317 OPERATING PERSONNEL 1 0 0 0.287 0.079 0.005 HEALTH PHYSICS PERSONNEL 3 0 2 0.572 0.005 0.355 SUPERVISORY PERSONNEL 0 0 0 0.050 0.000 0.000 ENGINEERING PERSONNEL 1 1 0 0.182 0.335 0.007 TOTAL 5 5 5 15 1.130 1.574 1.684 4.388 SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 15 17 to 15.598 6.887 3.561 mo OPERATING PERSONNEL 2 2 0 0.604 0.524 0.000

0) HEALTH PHYSICS PERSONNEL 13 0

5 6.163 0.030 1.596 i SUPERVISORY PERSONNEL 7 0 0 1.761 0.051 0.000 t ENGINEERING PERSONNEL 1 1 2 0.359 0.188 0.853 TOTAL 38 20 17 15 24.485 7.680 6.010 38.175 i WASTE PROCESSING MAINTENANCE PERSONNEL 7 0 0 1.644 0.121 0.000 i OPERATING PERSONNEL 8 0 0 1.645 0.000 0.000 HEALTH PHYSICS PERSONNEL 2 0 0 0.874 0.011 0.004 l SUPERVISORY PERSONNEL 0 0 0 0.280 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.053 TOTAL 17 0 0 17 4.443 0.132 0.057 4.632 REFUELING MAINTENANCE PERSONNEL 11 1 0 3.204 0.157 0.000 OPERATING PERSONNEL 22 0 0 7.135 0.000 0.351 4 HEALTH PHYSICS PERSONNEL 4 0 0 0.910 0.013 0.075 SUPERVISORY PERSONNEL 0 0 1 0.062 0.000 0.447 l ENGINEERING PERSONNEL 0 6 7 0.002 3.113 5.202 TOTAL 37 7 8 52 11.313 3.283 6.075 20.671 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 51 46 16 113 26.633 14.707 5.953 47.293 OPERATING PERSONNEL 66 4 0 70 31.174 0.994 0.363 32.531 , HEALTH PHYSICS PERSONNEL 45 0 12 57 16.391 0.217 3.506 20.114 SUPERVISORY PERSONNEL 16 0 1 17 8.660 0.209 0.483 9.352 ENGINEERING PERSONNEL 3 11 9 23 0.949 4.565 6.118 11.632 GRAND TOTAL 181 61 38 280 83.807 20.692 16.423 120.922

• Workers may'be counted in more than one category.

Appendix D (Cont.) e NUMBER OF PERSONNEL AND MAN-REM.BY HORK AND JOB FUNCTION PLANT:tB70HNS FERRY 1.2.3 (BNR) 1984 ~ NUMBER OF PERSON"EL (>100 M-REM) TOTAL PERSON-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS PERSON-REMS-REACTOR OPERATIONS & SURV. MAINTENANCE PERSONNEL 45 43 0 8.200 12.400 0.000 OPERATING PERSONNEL 121 0 0 30.300 0.000 0.000 HEALTH PHYSICS PERSONNEL 62 3 95 29.000 0.500 60.Suo SUPERVISORY PERSONNEL 1 56 16 0.100 17.900 4.000 ENGINEERING PERSONNEL -0 24 0 0.000 4.700 0.000 TOTAL 229 126 111 466 67.600 35.500 64.500 167.600 E0_UTINE MAINTENANCE MAINTENANCE PERSONNEL 452 557 0 252.000 317.400 0.000 OPERATING PERSONNEL 95 0 0 24.300 0.000 0.000 HEALTH PHYSICS PERSONNEL 49 2 96 14.300 0.300 53.900 SUPERVISORY PERSONNEL 0 13 47 0.000 4.200 26.100 ENGINEERING PERSONNEL 0 28 0 0.000 11.200 0.000 TOTAL 596 600 143 1539 290.600 333.100 80.000 703.700 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 7 0 0 0.806 0.000 0.000 OPERATING PERSONNEL 0 0 0 0 100 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0 000 SUPERVISORY PERSONNEL 0 14 0 0.000 2.800 0.0J0 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 7 14 0 21 0.806 2.800 0.000 3.606 SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 39 385 1 16.600 160.800 0.200 o OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000

• HEALTH PHYSICS PERSONNEL 13 0

41 4.600 0.000 29.300 SUPERVISORY PERSONNEL 1 61 177 0.100 79.200 216.300 ENGINEERING PERSONNEL 0 13 0 0.000 4.300 0.000 TOTAL 53 459 219 7 31 21.300 244.300 245.800 511.400 HASTE PROCESSING MAINTENANCE PERSONNEL 23 0 0 7.300 0.000 0.000 OPERATING PERSONNEL 11 0 0 5.400 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 3 1.300 0.000 3.500 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 38 0 3 41 14.000 0.000 3.500 17.500 REFUELING MAINTENANCE PERSONNEL 2 31 0 1.200 6.200 0.000 ,CPERATING PERSONNEL 15 0 0 4.200 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 7 0.000 0.000 1.500 SL'PERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 1 0 0.000 0.100 0.000 TOTAL 17 32 7 56 5.400 6.300 1.500 13.200 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 568 1016 1 1585 286.106 496.800 0.200 783.106 OPERATING PERSONNEL 242 0 0 242 64.200 0.000 0.000 64.200 , HEALTH PHYSICS PERSONNEL 128 5 242 375 49.200 0.800 148.700 198.700 SUPERVISORY PERSONNEL 2 144 240 386 0.200 104.100 246.400 350.700 ENGINEERING PERSONNEL 0 66 0 66 0.000 20.300 0.000 20.300 GRAND TOTAL 940 1231 483 2654 399.706 622.000 395.300 1417.006 l Workers may be counted in more than one category.

--. ~ -. - i i Appendix D (cont.) l NUMBER OF PERSONNEL AND MAN-REM BV HORK AND JOB FUNCTION 1984 j PLRNT: BRUNSHICK 1,2 ( B}iR.1 . (>100 M-REM) T0"At PERSON-REMS NUMBER OF PERSONNEL STATION UTILITY CONTRACT TOTAL STATION UTILIY CONTRACT TOTAL HORK & JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS PERSON-REMS - REAGTOR OP.f_ RATIONS & SURV. t1 Alt 4TENAt4CE PERSONNEL 1 0 3 0.903 0.000 1.204 OPERATING PERSONt4EL 111 0 0 105.533 0.035 0.200 SUPERVISORY PERSONNEL ~ 31 0 15 18.914 0.000 16.927 HEALTH PHYSICS PERSONNEL 2 0 0 0.846 0.030 0.000 ENGINEERING PERSONNEL 19 0 0 '7.594 0.170 0._451 TOTAL 164 0 18 182 133.790 0.235 18.782 152.807 l l LOUTINE MAINTENANCE Malt 4TENANCE PERSONt4EL 260 20 357 263.671 23.355 239.597 OPERATING PERS0 tit 4EL 0 0 19 . 0.000. 0.000 8.763 NEALTH PHYSICS PERSONNEL' 11 0 28 14.977 0.000 30.997 SUPERVISORY PERS0t4NEL 0 0 6 0.085 0.020 2.073 ENGINEERING PERSONNEL 34 5 144 14.052 1.503 128.585 r t TOTAL 305 25 554 884 292.785 24.878 410.015 727.678 IN-SERVICE INSPECTION 1 MAINTEt4ANCE PERS0 tit 4EL 15 1 57 5.572 1.557 30.691-l OPERATING PERSONNEL 0 0 1 0.000 0.000 0.570 NEALTH PHYSICS PERSONNEL 6 0 15 7.806 0.000 16.156 SUPERVISORY PERSOfit4EL 0 0 0 0.045 0.000 0.015 i ENGINEERING PERSONNEL 12 1 80 4.480 0.525 90.711 i TOTAL 33 2 153 188 17.905 2.082 138.143 158.128 i c SPECIAL MAINTENANCE EtAINTENANCE PERSONNEL 267 99 1021 208.116 116.778 1404.156 1' ' OPERATING PERSONNEL 'O O 101 0.000 0.000 132.460 i 5 HEALTH PHYSICS PERSONNEL 32 0 83 43.551 0.000 90.136 SUPERVISORY PERSONNEL 0 1 6 0.168 0.135 1.798 ENGINEERING PERSONNEL 47 18 256 23.235 8.755 157.798 TOTAL 346 118 1467 1951 275.070 125.668 1786.348 2187.086 t HASTE PROCESjill4G Malt 4TENAt4CE PERSONNEL 35 4 53 14.486 4.671 32.949 l OPERATIt!G PERSONNEL 24 0 0 14.705 0.000 0.142 HEALTH FHYSICS PERSONNEL 15 0 5 12.154 0.000 5.011-I SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 t i ENGINEERING PERSONNEL 1 0 3 0.175 -0.100 1.099 4 TOTAL 75 4 61 140 41.520 4.771 39.201 85.492 t i RffMU NG j MAINTENANCE PERSONNEL 25 8 69 17.952 9.342 102.055 .i F OPERATING PERS0t4NEL 6 0 0 5.554 0.000 0.085 l HEALTH PHYSICS PERSONNEL 6 0 15 7.730 0.000 15.998 SUPERVISORY PERSONNEL 0 0 0 0.010 0.000 0.000 i ENGINEERING PERSONNEL 5 3 39 1.571 1.029 22.129 TOTAL 42 11 123 176 32.817 10.371 140.267 183.455 j TOTAL I>Y JOB FUNCTION t MAINTENANCE PERSONNEL 603 132 1560 2295 510.700 155.703 1810.652 2477.055 OPERATING PERSONNEL 141 0 121 262 125.792 0.035 142.220 268.047 4 j HEALTH PHYSICS PERSONNEL 101 0 161 262 105.132 0.000 175.225 280.357 1 SUPERVISORY PERSONNEL 2 1 12 15 1.154 0.185 3.886 5.225 ENGINEERING PERSONNEL 118 27 522 667 51.107' 12.082 400.773 463.962 l GRAND TOTAL 965 160 2376 3501 793.885 168.005 2532.756 3494.646 ' Workers may be counted in o re than one category. I

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION PLANT:,CALVERT CLIFFS 1.2 (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REMI TOTAL PERSON-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL l H3RK A JOB FUNCTION Et:PLOYEES EMFLOYEES & OTHIRS PERSONS Ef1PLOYEES EMPLOYEES 8 OTHERS PERSON-R[MS' REACTOR OPERATIONS & SURV. 1 MAINTENANCE PERSONNEL 5 7 0 0.896 1.352 0.000 OPERATING PERSONilEL 61 0 0 25.060 0.000 0.000 HEALTH PHYSICS PERSONNEL 22 2 26 8.684 0.609 10.728 SUPERVISORY PERSONNEL 4 1 0 0.505 0.230 0.000 ENGINEERING PERSONNEL 2 0 0 0.23.0 0.000 0.000 TOTAL 94 10 26 130 35.375 2.191 10.728 48.294 ROUTINE MAINTENANCE MAINTENAt4CE PERS0t4NEL 129 49 32 39.631 10.566 7.235 OPERATING PERSONNEL 30 J 1 8.403 0.000 0.280 HEALTH PHYSICS PERSONNEL 36 3 34 19.116 0.326 12.138 SUPERVISORY PERSONNEL 2 0 3 0.274 0.000 0.353 ENGINEERING PERSONNEL 4 0 1 0.601 0.000 0.143 TOTAL 201 52 71 324 68.025 10.892 20.149 99.066 I IN-SERVICE INSPECTION Malt 4TENANCE PERSONNEL 18 36 16 11.093 40.042 7.046 OPERATING PERSONNEL 1 0 0 0.194 0.000 0.000 HEALTH PHYSICS PERSONNEL 10 3 4 1.812 0.322 0.686 SUPERVISORY PERSONNEL 1 3 2 1.890 0.582 0.718 ENGINEERING PERSONNEL 4 0 0 1.?45 0.000 0.000 TOTAL 34 42 22 98 16.234 40.946 8.450 65.630 SPECIAL MAINTENANCE Malt 4TENANCE PERSONNEL 92 35 22 42.711 9.129 4.884 C OPERATING PERSONNEL 9 0 0 4.275 0.000 0.000 -* HEALTH PHYSICS PERSONNEL 8 4 5 3.581 1.578 1.897 SUPERVISORY PERSONNEL 1 0' 3 0.235 0.000 0.577 ENGINEERING PERSONNEL 3 0 4 0.595 0.000 0.830 TOTAL 113 39 34 186 51.397 10.707 8.188 70.292 HASTE PROCESSING MAINTENANCE PERSONNEL 4 0 2 1.322 0.000 0.656 OPERATING PERSONNEL 2 0 0 0.281 0.000 0.000 HEALTH PHYSICS PERSONNEL 28 to 24 21.683 2.430 9.461 SUPERVISORY PERSONNEL 1 0 1 1.413 0.000 0.152 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 35 10 27 72 24.699 2.430 10.269 37.398 l j REFUELING MAINTENANCE PERSONNEL 52 41 6 30.050 19.036 1.308 OPERATING PERSONNEL 8 0 0 1.429 0.000 0.000 HEALTH PHYSICS PERSONNEL 7 6 12 1.438 1.145 2.864 SUPERVISORY PERSONNEL 1 0 1 0.111 0.000 0.101 ENGINEERING PERSONNEL 2 0 1 0.267 0.000 0.135 TOTAL 70 47 20 137 33.295 20.181 4.408 57.884 l TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 300(180) 168(121) 78 (69) 546 (370) 125.703 80.125 21.129 226.957 t OPERATING PERSONNEL 111 (95) 0 (1) 1 (1) 112 (97) 39.642 0.000 0.280 39.922 i HEALTH PHYSICS PERSONNEL III (57) 28 (15) 105 (68) 244(140) 56.314 6.410 37.774 100.498 SUPERVISORY PERSONNEL 1 0 (13) 4 (3) 10 (9) 2 4 (25) 4.428 0.812 1.901 7.141 ENGINEERING PERSONNEL 1 5 (16) 0 (0) _.. 6 (6) 21 (22) 2.938 0.000 1.108 4.046 GRAND TOTAL 547(361) 20 0 (1401 200 (1531 947(654) 229.025 87.347 62.192 378.564

• Workers may be counted in more than one category. Numbers in parentheses are total numbers of individuals.

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION 1984 PLANT:, COOK 1.2 (PHR) TOTAL PERSON REMS NUMBER OF PERSONNEL (>100 M-REM) STATIOM UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT _TOIAL _t40RK 8 JOB FUNCTI0t1 EMPLOYEES EMPLOYEES & OTMERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS PERSOA REMS MAINTENANCE PERSout4EL 3 0 8 0.380 0.000 1.485 R CTOR OPERATION.S & SURV. OPERATIt4G PERS0t4NEL 60 1 8 14.673 0.165 4.914 HEALTH PHYSICS PERSONNEL 10 0 42 1.809 0.000 14.125 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 0.100 0.595 0.100 ENGINEERING PERSONNEL 1 4 1 TOTAL 74 5 59 138 16.962 0.760 20.624 38.346 I MAINTENANCE PE RONNEL 106 5 311 77.885 2.404 166.632 ROUTINE MAINTENANCE OPERATING PERSONNEL 26 0 10 7.713 0.000 2.959 ~ HEALTH PHYSICS PERSONNEL 27 0 43 7.674 0.000 11.035 SUPERVISORY PERSONNEL 6 1 3 2.104 0.589 1.041 LNGINEERING PERSONNEL 8 2 6 2.012 0.223 1.335 TOTAL 173 8 37 3 554 97.388 3.216 183.002 283.606 Malt 4TENA!4CE PERSON!4EL 16 1 141 5.629 0.703 77.451 i ltESERVICE INSPECTION CPLRATING PERSONNEL 19 0 8 3.671 0.000 1.356 j HEALTH PHYSICS PERSONNEL 7 0 93 0.881 0.000 12.509 SUPERVISORY PERSONNEL 0 0 2 0.000 0.000 0.271 ENGINEERING PERSONNEL 2 1 8 0.467 0.125 1.502 TOTAL 44 2 202 248 10.648 0.828 93.089 104.565 MAINTENANCE PERSONNEL 9 3 246 1.521 0.663 171.518 SPECIAL MAINTENANCE - OPERATING PERSONNEL 3 0 22 0.479 0.000 5.685 N HEALTH PHYSICS PERSONNEL 2 0 28 0.235 0.000 6.742 SUPERVISORY PERSONNEL 0 1 3 0.000 0.297 0.551 l ENGINEERING PERSONNEL 2 6 8 0.450 1.325 4.933 TOTAL 16 10 307 333 2.685 2.285 189.429 194.399 MAINTENANCE PERSONNEL 14 0 44 5.144 0.000 16.505 HASTE PROCESSING 0.000 0.000 0.570 OPERATING PERSONNEL 0 0 1 HEALTH PHYSICS PERSONNEL 4 0 5 0.629 0.000 2.172 SUPERVISORY PERSONNEL 3 0 0 1.004 0.000 0.000 ENGINEERING PERSONNEL 1 0 0 0.260 0.000 0.000 TOTAL 22 0 50 72 7.037 0.000 19.247 26.284 MAINTEt4At4CE PERSONNEL 17 1 43 3.521 0.209 27.462 REFUELING 6 0 3 1.978 0.000 2.639 HEALTH PHYSICS PERSONNEL 0 0 13 0.000 0.000 2.827 , OPERATING PERSONNEL SUPERVISORY PERSONNEL 1 0 0 0.404 0.000 0.000 ENGINEERING PERSONNEL 3 0 1 0.406 0.000 0.165 TOTAL 27 1 60 88 6.309 0.209 33.093 39.611 _, 165(111) 10 ((6) 793(581) 968 (698) 94.080 3.979 461.053 559.112 _OTAL BY JOB FUNCTION T 1 1) 52 (35)~ 167 (117) 28.514 0.165 18 123 46.802 MAINTENANCE PERSONNEL 114 (81) HEALTH PHYSICS PERSONNEL 50 (35) 0 (0) 174 (73) 224 (108) 11.228 0.000 49.410 60.638 OPERATING PERSONNEL SUPERVISORY PERSONNEL 10 (9) 2 (1) 8 (5) 20 (15) 3.51 2 0.886 1.863 6.261 ENGINEERING PERSONNEL 17 (13) 1 3 (12) U (22) 54 (47) 3.695 2.268 8.035 13.998 GRAND TOTAL 356 f 249) 2 6 (20) 1051 (716) 1435(985) 141.029 7.298 538.484 686.811 Workars may be counted in more than one category.

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION e PLANT: COOPER STATION (BWR) 1984 RUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-RE.fiS STATION UTILITY CONTRACT _ TOTAL STATION UTIL11Y CONTRACT TOTAL WORK & JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS REACTOR OPERATIONS & SURV. MAINTENANCE PERSONNEL 9 0 16 0.500 0.000 0.615 OPERATING PERSONNEL 47 0 0 19.972 0.000 0.000 HEALTH PHYSICS PERSONNEL 18 0 7 11.120 0.000 0.626 SUPERVISORY PERSONNEL 16 3 6 3.410 0.208 0.092 ENGINEERING PERSONNEL 18 7 16 4.729 0.146 1.386 TOTAL 108 10 45 163 39.731 0.354 2.719 42.804 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 109 C 36 79.091 0.000 6.079 OPERATING PERSONNEL 3 0 0 0.022 0.000 0.000 HEALTH PHYSICS PERSONNEL 13 0 0 1.317 0.000 0.000 SUPERVISORY PERSONNEL 5 1 6 0.924 0.002 1.380-ENGINEERING PERSONNEL 3 6 12 0.675 0.424 1.158 TOTAL 133 7 54 194 81.829 0.426 8.617 90.872 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 0 0 8 0.000 0.000 4.445 OPERATING PERSONNEL 1 0 0 0.005 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 1 0.000' O.000 0.007 SUPERVISORY PERSONNEL 2 0 0 0.101 0.000 0.000 ENGINEERING PERSONNEL 0 1 1 0.000 0.052 0.160 TOTAL 3 1 10 14 0.106 0.052 4.612 4.770 SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 0 1 412 0.000 0.456 471.449 m-OPERATING PERSONNEL 37 0 0 3.258 0.000 0.000 W HEALTH PHYSICS PERSONNEL 16 0 17 8.829 0.000 13.263 SUPERVISORY PERSONNEL 3 4 68 0.438 1.331 83.680 ENGINEERING PERSONNEL 6 9 12 0.429 2.049 5.171 TOTAL 62 14 509 585 12.954 3.836 573.563 590.353 HASTE PROCESSING MAINTENANCE PERSONNEL 12 0 2 0.772 0.000 0.106 OPERATING PERSONNEL 20 0 0 3.341 0.000 0.000 HEALTH PHYSICS PERSONNEL 15 0 0 2.715 0.000 0.000 SUPERVISORY PERSONNEL 3 0 0 0.154 0.000 0.000 ENGINEERING PERSONNEL 1 0 0 0.108 0.000 0.000 TOTAL 51 0 2 53 7.090 0.000 0.106 7.196 REFUELING MAINTENANCE PERSONNEL 0 0 1 0.000 0.000 0.091

OPERATING PERSONNEL 40 0

0 5.863 0.000 0.000 HEALTH PHYSICS PERSONNEL 1 0 0 0.018 0.000 0.000 SUPERVISORY PERSONNEL 3 0 0 0.221 0.000 0.000 ENGINEERING PERSONNEL 2 0 0 0.124 0.000 0.000 TOTAL 46 0 1 47 6.226 0.000 0.091 6.317 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 130(109) 1 (1) 475(431) 606(541) 80.363 0.456 482.785 563.604 148 (50) 0 (0) 0 (0) 148 (50) 32.461 0.000 0.000 32.461 l OPERATING PERSONNEL HEALTH PHYSICS PERSONNEL 6 3 (18) 0 (0) 25 (17) 88 (35) 23.999 0.000 13.896 37.895 SUPERVISORY PERSONNEL 3 2 (16) 8 (4) 8 0 (69) 120 (89) 5.248 1.541 85.152 91.941 ENGINEERING PERSONNEL 30 (18) 2 3 (10) 41 (22) 94 (50) 5.865 2.671 7.875 16.411 GRAND TOTAL 40 5 f 211 F 32 (15) 621[539) 1056 (765) 147.936 4.668 589.708 742.312 Workers may be counted in more than one category.- Numbers in parentheses are total numbers of individuals.

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION 1984 PLANT: CRYSTAL RIVER 3 (PHR) TOTAL MAN-REMS NUMBER OF PERS0t4NEL ( >10 0 M-R E_tll STATI0t4 UTILITY CONTRACT TOTAL STATION UTIt.ITY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS IIAINTENANCE PERSONtaEL 1 0 0 0.316 0.071 0.110 ELACTOR OPERATI0t4S & SURV. OPERATING PERSONr.EL 26 0 0 6.934 0.000 0.480 HEALTH PHYSICS PERSONNEL 0 0 0 0.263 0.084 0.000 SUPERVISORY PERSONNEL 1 0 0 0.563 0.204 0.298 0 0 0.036 0.243 0.221 ENGINEERIt3G PER50t4NEL 0 ' O O 27 8.112 0.602 f.109 9.823 TOTAL 27 MAINTENANCE PERSONNEL 33 3 61 9.837 1.103 14.949 ROUTINE MAJNTfMANCE OPERATING PERSOf4NEL 0 0 .0 0.377 0.015 0.000 f HEALTH PHYSICS PERSONNEL 12 0 17 2.921 0.036 4.283 SUPERVISORY PERSONflEL 0 0 2 0.272 0.000 0.725 ENGINEERIllG PERSONt4EL 2 0 0 0.451 0.101 0.299 TOTAL 47 3 80 130 13.858 1.255 20.256 35.369 MAINTENAt4CE PERS0t4NEL 0 0 0 0.019 0.000 0.002 IN-SERVICE It4SPECTICH OPERATING PERSONflEL 0 0 0 0.000 0.091 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.032 0.000 EttGINEERING PERSONNE' O 1 0 0.132 0.225 0.054 TDTAL 0 1 0 1 0.1 51 0.348 0.056 0.555 0 0 0 0.000 0.000 0.000 SPECLAL MAINTENANCE s OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 , Malt 4TENAt4CE PERSONNEL

• HEALTH PHYSICS PERSONNEL 0

0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGIMEFRING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 l MAINTEt4ANCE PERSONNEL 0 0 0 0.006 0.000 0.016 NASTE PROC 1SSING OPERATIf4G PERSONNEL 1 0 0 0.524 0.000 0.000 ~ HEALTH PHYSICS PERSONNEL 3' O O 1.598 0.000-0.000 SUPERVISORY PERSONNEL 0 0 1 0.035 0.000 0.669 ENGINEERING PERSONNEL 0 0 0 0.002 0.000 0.004 TOTAL 4 0 1 5 2.165 0.000 0.689 2.854 MAINIEt4ANCE PERSONNEL 0 0 0 0.000 0.000 0.000 REEUELING OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 v.000 0.000 0.000 0.000 MAINTENANCE PERSONNEL 34 3 61 98 10.178 1.174 15.077 26.429 TOTAL BY JOB FUNCTTON OPERATING PERS0t4NEL 26 0 0 26 7.835 0.106 0.480 8.421 HEALTH PHYSICS PERSONNEL 15 0 17 32 4.782 0.120 4.283 9.185 $UPERVISORY PERSONNEL 1 0 3 .4 0.870 0.236 f.692 2.798 ENGINEERING PERSONNEL 2 1 0 3 0.621 0.569 0.578 1.768 ORAND TOT AL 78 4 81 163 24.286 2.205 22.110 48.601

Appendix D (cont.) i NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PL At4T : DAVIS-BESSE (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATI0t4 UTILITY C0fLT R AC T~ TOTAL STATION UTILITY CONTRACT TOTAL 20RJu& JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES Et1PLOYEES 8 OTHERS MAN-REMS BfMC TOR _QtLRATIONS 8 SURV. Malt 4TEriANCE7 LRSONNEL .0 1 27 0.310 0.005' 1.115 OPERATING PERSONNEL 76 0 29 7.820 0.000 1.155 HEALTH PHYSICS PERSONNEL 18 0 0 1.090 0.000 0.000 SUPERVISORY PERSONNEL 15 0 16 0.615 0.000 0.550 ENGINEERIt1G PERSONNEL 14 1 0 0.435 0.005 0.000 TOTAL 133 2 72 207 10.270 0.010 2.820 13.100 _R__0tLTIN E MAINT EN AtlCE Malt 4TEf4At4CE PERSONNEL III 20 267 7.600 1.385 17.255 QPERATItJG PERSONNEL 25 0 0 1.890 0.000 0.000 HEALTH PHYSICS PERSONNEL 28 0 74 5.770 0.000 31.150 SUPERVISORY PERSONNEL 18 0 11 1.280 0.000 0.510 ENGINEERING PERSONNEL 16 1 1 1.005 0.065 0.025 TOTAt 198 21 353 572 17.545 1.450 48.940 67.935 LN-SDLVJCE INSPECTION Malt 4TENAt4CE PERS0t4NEL 9 1 36 0.490 0.050 1.675 OPERATING PERSONNEL 2 0 0 0.285 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 1 0.000 0.000 0.060 SUPERVISORY PERSONNEL 4 0 2 0.240 0.000 0.035 { ENGINEERIJ1G PERSONNEL 2 0 2 0.170 0.000 0.020 TOTAL 17 1 41 59 1.185 0.050 1.790 3.025 iP_E_CI AL_MAJf4 TEN ANCE 1 _ MAINTEt4ANCE PERSONNEL 114 32 326 16.630 3.540 72.795 j - OPERATING PERS0t1NEL 33 0 0 2.165 0.000 0.000 m HEALTH PHYSICS PERSONNEL 16 0 25 3.460 0.000 4.065 { SUPERVISORY PERsnNNEL 23 0 to 5.490 0.000 2.545 ENGINEERit40 PERSONNEL 31 0 2 1.060 0.000 0.055 TOTAL 219 32 363 614 28.805 3.540 79.460 111.805 HASTE PROCESSING Malt 1TENANCE PERSONNEL 10 2 2 0.185 0.050 0.135 OPERATING PERSONNEL 14 0 0 0.320 0.000 0.000 HEALTH PHYSICS PERSONNEL 8 0 18 2.670 0.000 -1.250 SUPERVISORY PERSONNEL 2 0 0 0.040 0.000 0.000 ENGINEERING PERSONNEL 2 0 0 0.015 0.000 0.000 ]l TOTAL 36 2 20 58 3.230 0.050 1.385 4.665 l R EFL!FAJ NG MAltlTENANCE PERSONNEL 35 4 122 2.915 0.660 29.045 OPERATING PERSONNEL 23 0 0 1.125 0.000 0.000 HEALTH PHYSICS PERSONNEL 8 0 9 1.570 0.000 3.140 SUPERVISORY PERSONNEL 8 0 4 1.300 0.000 0.895 ) _JNGINEERLNG PERSONNEL 11 1 0 0.995 0.210 0.000 TOTAL 85 5 135 225 7.905 0.870 33.080 41.855 TOIAL BY JOB FUNCTI0tt MAINTENANCE PERSONNEL 289 60 780 1129 28.130 5.690 122.020 155.840 OPERATING PERSONNEL 173 0 29 202 13.605 0.000 1.155 14.760 HFALTH PHYSICS PERSONNEL 78 0 127 205 14.560 0.000 39.665 54.225 SUPERVISORY PERSONNEL 72 0 43 115 8.965 0.000 4.535 13.500 ENGINEERING PER10NNEL 76 3 5 84 3.680 0.280 0.100 4.060 i GRAND TOTAL 688 63 984 1735 68.940 5.970 167.475 242.385 l hrkersmaybecountedinmorethenonecategory.

Appendix 0 (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT DRESDEN 1,2,3 (BHR) 1984 TOTAL MAN-REMS f4UMBEP OF PERSONNEL (>100 M-REM) STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK & JOB FUNCTI0tt EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS ~ Rf_ACl0R OPERATIONS 3 SURV. MAINTEtlANCE PERSONNEL 30 8 0 37.110 4.870 0.000 OPERATIrlG PERSONNEL 65 0 1 80.980 0.000 0.610 HEALTH PHYSICS PERSONNEL 3 0 0 3.930 0.000 0.000 SUPERVISORY PERSONNEL 22 0 0 16.520 0.000 0.000 ENGINEERIflG PERSONNFL 4 1 0 1.010 0.230 0.000 TOTAL 124 9 1 134 139.550 5.100 0.610 145.260 MAINTENANCE PERSONNEL 200 99 405 247.380 60.340 533.620 _R_0.U_TJ N E_M A I NT E N AtlC E OPERATING PERSOHilEL 28 0 0 34.980 0.000 0.000 HEALTH PHYSICS PERSONNEL 38 0 5 43.260 3.000 9.690 SUPERVISORY PERSONNEL 73 0 0 55.060 0.000 0.000 ENGINEERING PERSONNEL 64 31 20 17.620 4.860 12.730 TOTAL 403 130 430 963 398.300 65.200 556.040 1019.540 Malt 4TENAtlCE PERSONNEL 43 40 81 53.600 22.330 106.720 LN-SERVICLJtLSPlCTION OPERATING PERSON!!EL 7 0 1 9.200 0.000 0.600 HEALTH PHYSICS PERSONNEL 7 0 8 7.870 0.000 16.600 SUPERVISORY PERS0!4NEL 10 0 0 7.710 0.000 0.000 ENGINEERING PERSONNEL 14 1 15 3.770 0.230 9.260 TOTAL 81 41 105 227 82.150 22.560 133.180 237.890 s MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 $P_ECHL.11 AJ NT EN ANCE

• OPERATING PERSONNEL 0

0 0 0.000 0.000 0.000

• HEALTH PHYSICS PERSONNEL 0

0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000. 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 MAINTENANCE PERSONNEL 23 13 54 28.860 7.790 71.150 HASTE PROCESSING OPERATING PERSONNEL 42 0 18 51.530 0.000 10.890 HEALTH PHYSICS PERSONNEL 17 0 1 19.670 0.000 1.390 SUPERVISORY PERSONNEL 29 0 0 22.020 0.000 0.000 ENGINEERING PERSONNEL 5 2 2 1.51 0 0.290 1.160 TOTAL 116 15 75 206 123.590 8.080 84.590 216.260 Malt 4TENANCE PERSONNEL 37 0 0 45.350 0.000 0.000 REFUELING , OPERATING PERSONNEL 6 0 0 7.360 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 0 3.930 0.000 0.000 SUPERVISCRY PERSONNEL 12 0 0 8.800 0.000 0.000 ENGINEERitlG PERSONNEL 4 2 0 1.260 0.110 0.000 TOTAL 63 2 0 65 66.700 0.110 0.000 66.810 Malt 4TENANCE PERSONNEL 333 160 540 1033 412.300 95.330 711.490 1219.120 ~ TOTAL BY JOB FUNCTION '48 0 20 168 184.050 0.000 12,100 196.150 . HEALTH PHYSICS PERSONNEL 69 0 14 83 78.660 0.000 27.680 106.340 , OPERATING PERSONNEL SUPERVISORY PERSONNEL 146 0 0 146 110.110 0.000 0.000 110.110 ENGINEERING PERSONNEL 91 37 37 165 25.170 5.720 23.150 54.040 GRAND TOTAL 787 197 611 1595 810.290 101.050 774.420 1685.760

i Appendi D (cont.) NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION PLANT: DUANE ARNOLD (BWR) 1984 NUMBER OF PER$0NNEL (>100 M-REM) TOTAL MAN-REMS JTATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL WORK & JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS I REACTOR OPERATIONS 8 SURV. 1 MAINTENANCE PERSONNEL 34 0 18 0.498 0.000 0.246 OPERATING PERSONNEL 50 2 12 22.347 0.056 1.482 .l HEALTH PHYSICS PERSONNEL 22 0 12 1.982 0.000 1.~ 16 7 j SUPERVISORY PERSONNEL 10 1 3 0.502 0.005 -0.030 ENGINEERING PERSONNEL 11 4 16 1.186 0.201 0.51 3 TOTAL 127 7 61 195 26.515 0.262 3.438 30.215 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 65 0 118 22.688 0.000 29.113 8 OPERATING PERSONNEL 12 0 11 0.230 0.000 0.144 HEALTH PHYSICS PERSONNEL 37 0 20 3.305 0.000 1.887 SUPERVISORY PERSONNEL 4 2 20 0.485 0.022 2.362 ENGINEERING PERSONNEL 4 9 24 0.192 0.328 1.099 TOTAL 122 11 193 326 26.900 0.350 34.605 61.855 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 12 0 78 0.120 0.000 13.826 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 25 0 21 3.088 0.000 2.821 i SUPERVISORY PERSONNEL 8 0 15 0.491 0.000 0.529 i ENGINEERING PERSONNEL 12 12 44 2.143 1.487 11.254 f TOTAL 57 12 158 227 5.842 1.487 28.430 35.759 SPECIAL MAINTENANCE , MAINTENANCE PERSONNEL 57 0 131 8.726 0.000 39.598 i - OPERATING PERSONNEL 14 0 7 0.231 0.000 0.105 j N HEALTH PHYSICS PERSONNEL 23 0 22 3.302 0.000 4.644 SUPERVISORY PERSONNEL 6 0 21 0.273 0.000 1.835 ENGINEERING PERSONNEL 13 8 49 1.388 0.256 9.857 TOTAL 113 8 230 351 13.920 0.256 56.039 70.215 ) HASTE PRCCESSING MAINTENANCE PERSONNEL 22 0 6 0.488 0.000 0.065 ) OPERATING PERSONNEL 20 0 14 2.987 0.000 4.228 HEALTH PHYSICS PERSONNEL 13 0 8 0.213 0.000 0.596 SUPERVISORY PERSONNEL 0 0 2 0.000 0.000 0.147 ENGINEERINC PERSONNEL 4 1 3 0.031 0.005 0.050 TOTAL 59 1 33 93 3.719 0.005 5.086 8.810 REFUELING MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 i , OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 TOTAL BY JOB FUNCTION 1 MAINTENANCE PERSONNEL 190 78) 0 (0 351(166) 541(244 32.520 0.020 82.848 115.368 2 ((2}1 OPERATING PERSONNEL 96 66) 4 4 (29) 142 (97 25.795 0.056 5.959 31.810 HEALTH PHYSICS PERSONNEL 120 48) 0 0) 8 3 (32) 203 (80) .11.890 0.000 11.115 23.005 SUPERVISORY PERSONNEL 28(19) 3 (3) 61 (37) 9 2 (59) 1.751 0.027 4.903 6.681 ENGINEERING PERSONNEL 4 4 (23) 34 (15) 136 3 71 214(100) 4.940 2.277 22.773 29.990 j GRAND TOTAL 478(234} 3 9 (20) 675 (325) 1192{580) 76.896 2.360 127.598 206.854 f Workers may be counted in more than one category. Numbers in parentheses are total numbers of individuals. l l

_m j Appendix D (Cont.) NUMBER OF PERSONNEL AND Mate-FLM BY WORK AND JOB FUNCTION l PLA4T:,FARLEY 1,2 (PHR) 1984 1 t4 UMBER OF PERSONNEL (>100 M-RFR TOTAL MAN-REMS' STATIOri UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS i E[A_C10R_QfERATIO?45 8 SURV. NAItiTEttAt4CE PERSONNEL 58 5 41 2.824 0.280 3.210 OPERATIt4G PERSONNEL 1.e 6 6 12 42.249 2.925 0.900 HEALTH PHYSICS PERSONNEL 93 8 103 37.148 1.421 46.913 SUPERVISORY PERSONNEL -177 18 22 20.034 1.470 1.693 ENGINEERiflG PERSONNEL 51 20 138 5.192 1.704 " 450 i j TOTAL 525 57 316 898 107.447 7.600 62.166 177.413 i E.0_UTlNLMAf tG1 NANCE ItAIt4T ENANCE PERSONt4EL 160 8 80 27.830 1.081 15.160 i OPERATIt4G PERSONt4EL 120 6 0 45.318 0.194 0.000 HEALTH PHYSICS PERSONNEL 44 1 38 7.225 0.004 1.426 SUPERVISORY PERSONt4EL 48 4 2 4.515 0.174 1.380 l ENGIrlEERING PERSONNEL 23 14 '83 0.994 0.555 14.493 1 TOTAL 395 33 303 731 85.882 2.008 32.459 120.349 l IN-SERVlCE INSPECTION MAI!4TENAf4CE PERS0 tit 4EL 2 1 21 0.104 0.020 1.675 l OPERATIf;G PERSONNEL 2 0 C 0.120 0.000 0.000 t HEALTH PHYSICS PERSONNEL 2 0 6 0.002 0.000 0.236 SUPERVISORY PERSONf4EL 5 2 0 0.238 0.129 0.000 l ENGI*IEERING PERSONNEL 8 10 41 0.975 3 709 3.842 i TOTAL 19 il 68 100 1.459 0.858 5.753 8.050 f SPECI A L_tjaltHfNANCE MAINIENANCE Ptn 0NNEL 144 8 398 115.054 2.871 274.741 OPE 9ATING PERSONilEL 120 6 1 32.465 0.198 0.060 j 1 $ HEALTH PHYSICS PERSOfiNEL 49 2 53 14.843 0.085 9.115 I SUPERVISORY PERSONNEL 60 3 7 12.081 0.667 0.650 r i ENGINEERIrlG PERSONNEL 34 ~ 10 449 7.016 1.926 112.921 TOTAL 407 39 908 1354 181.459 5.747 397.487 584.693 l j QT LPROCESSING 11 Alt 4TENANCt PERS0 tit 4EL 1 0 1 0.012 0.000 1.970 l DPERATIt4G FtRS0t4NEL 6 0 0 0.534 0.000 0.000 HEALTH PHYSICS PERSONNEL 6 0 6 0.795 0.000 0.104 SUPERVISORY PERSONNEL 3 3 0 0.821 0.000 0.000 EtlGIt4EERLN.G PERSONNEL 0 0 3 0.000 0.000 0.047 TOTAL ~16 0 to 26 2.162 0.000 2.121 4.283 i REEUELIttG t1 Alt 4TENANCE PERS0t4NEL 9 0 49 0.947 0.000 3.138 t OPERAT!NO PERSONNEL 1 0 0 0.028 0.000 0.000 HEALTH PHYSICS PERSONt:EL 3 0 6 0.604 0.000 0.451 SUPERVISORY PERSONNEL 9 0 0 0.341 0.000 0.000 ENGINEERT'fG_ PERSONNEL 3 3 9 0.221 0.159 0.635 I6TAL 25 3 64 92 2.141 0.159 4.224 6.524 N'i'!TENANCE PERSONf4EL 374 22 590 986 146.771 4.252 299.894 450.917 l TO. M BY JM TUNCTION OPERATIt4G PERSONNEL 395 IS 13 426 120.714 3.317 0.960 124.991 HEALTH PHYSICS PERSC4HEL 197 11 212-420 60.617 1.510 58.245 120.372 j SUPERVISORY PERSONNEL 302 27 31 360 38.030 2.440 3.723 44.193 ENGlt!EERING PERSONNEL 119 67 823 1009 14.398 5.053 141.388 160.839 GRAND TOTAL 1587 145 1669 3201 380.530 16.572 504.210 901.312 l

• Workers roy be counted ir. more than one category.

r

i Appendix D (Cont.) e NUMBER OF PERSONNEL AND MAN-REM BY NORK AND JOB FUNCTION PL ANT: tFITZPATRICK (BHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) JOTAL MAN-REPiS i STATION UTILITY CONTRACT TOTAL STATION UTILITY cot 4 TRACT TOTAL 1 i HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS i REACTOR OPERATIONS & SURV. ] MAINTENANCE PERSONNEL 50 0 to-5.932 0.000 0.888 OPERATING PERSONNEL 108 0 31 23.549 0.000 1.614 i HEALTH PHYSICS PERSONNEL 34 0 0 21.740 0.000 25.940 4 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 l Et!GINEERING PERSONNEL 19 0 5 2.351 0.000 0.041 TOTAL 211 0 46 257 53.572 0.000 28.483 82.055 ) ROUTINE MAINTENANCE I MAINTEt4At4CE PERSONNEL 205 0 190 185.108 0.000 52.407 I OPERATING PERSONNEL 78 0 11 11.186 0.000 1.786 HEALTH PHYSICS PERSONNEL 17 0 14 1.110 0.000 1.010 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 i ENGINEERING PERSONNEL 29 0 63 10.416 0.000 6.909 1 TOTAL 329 0 278 607 207.820 0.000 62.112 269.932 1 1 IN-SERVICE INSPECTION j Malt 4TENANCE PERSONNEL 83 0 84 5.805 0.000 5.986 j OPERATING PERSONNEL 98 -0 5 7.545 0.000 0.453 HEALTH PHYSICS PERSONNEL 11 0 6 0.412 0.000. 0.165 4 } SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL' 35 0 88 6.020 0.000 44.424 TOTAL 227 0 183 410 19.782 0.000 51.028 70.810 j LPl RAL MAINTENANCE P j MAINTENANCE PERSONNEL 153 0 380 161.104 0.000 267.983 m j 0PERATING PERSONNEL 80 0 11 16.535 0.000 2.860 t i o HEALTH PHYSICS PERSONNEL 10 0 9 0.585 0.000 1.326 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 31 0 130 7.320 0.000 45.756 TOTAL 274 0 530 804 185.544 0.000 317.925 505.469 HASTE PROCESSING MAINTENANCE PERSONNEL 144 0 19 26.613 0.000 2.124 OPERATING PERSONNEL 40 0 2 9.770 0.000 3.218 HEALTH PHYSICS PERSONNEL 9 0 4 0.996 0.000 0.255 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 2 0 9 0.024 0.000 1.894 TOTAL 195 0 34 229 37.403 0.000 7.491 44.894 I l REFUELING i MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 1 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 l HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 l SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 1 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 j TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 i TOTAL SY JOB FUNCTION . MAINTENANCE PERSONNEL 635 0 683 1318 384.562 0.000 329.388 713.950 t OPERATING PERSONNEL 404 0 60 464 68.585 0.000 9.931 78.516 } HEALTH PHYSICS PERSONNEL 81 0 33 114 24.843 0.000 28.696 53.539 J SUPERVISORY PERSONNEL 0 0 0 0 0.000 0.000 .99.024 125.155 0.000 0.000 ENGINEERING PERSONNEL 116 0 295 411 26.131 0.000 j GRAND TOTAL 1236 0 1071 2307 504.121 0.000 467.039 971.160

• Workers may be counted in more than one category.

I 4 t 1 I s

t Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PL ANT:' FORT CALHOUN (PWR) 1984 NUMBER OF PERSONNEL (>100 M-REM) T0"At MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILIY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOTEES EMPLOYEES & OTHERS MAN-REMS REACTOR OPERATIONS & SURV. l, Malt 4TENANCE PERSONNEL 5 1 20 1.750 0.775 17.893 OPERATING PERSONNEL 30 0 0 13.578 0.160 0.000 HEALTH PHYSICS PERSONNEL 17 0 0 19.585 0.000 22.035 SUPERVISORY PERSONNEL 3 0 23 0.944 0.187 0.000 ENGINEERING PEkSONNEL 15 2 13 4.238 1.575 4.997 TOTAL 70 3 56 129 40.095 2.697 44.925 87.717 E_0UTINE MAINTENANCE 'i MAINTEt4ANCE PERSONNEL 31 49 42 13.531 24.685 26.563 OPERATING PERSONt4EL 0 0 0 0.092 0.000 0.000 HEALTH PHYSICS PERSONNEL 1 0 2 0.250 0.000 2.429 SUPERVISORY PERSONNEL 0 0 0 0.135 0.045 0.000 ENGINEERING PERSONNEL 2 2 1 1.123 0.835 0.419 4 [ TOTAL 34 51 45 130 15.131 25.565 29.411 70.107 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 4 11 42 1.998 4.212 37.564 OPERATING PERSONNEL 0 0 0 0.083 0.000 0.000 HEALTH PHYSICS PERSONNEL 3 0 3 1.052 0.000 0.880 SUPERVISORY PERSONNEL 0 0 0 0.000 0.044 0.000 ENGINEERING PERSONNEL 5 6 6 2.532 2.662 4.546 .l TOTAL 12 17 51 80 5.665 6.918 42.990 55.573 SPECIAL MAINTENANCE l MAINTENANCE PERSONNEL 38 61 215 32.038 31.619 149.146 C OPERATING PERSONNEL 0 0 0 0.549 0.000 0.000 1 o HEALTH PHYSICS PERSONNEL 9 0 2 6.486 0.000 1.138 i SUPERVISORY PERSONt4EL 3 1 1 1.001 0.775 0.060 12 14.350 11.150 5.811 250 375 54.424 43.544 156.155 254.123 ENGINEERIN ERSONNEL i MAINTENANCE PERSONNEL 9 4 22 2.870 1.529 10.138 HASTE PROCESSING CPERATING PERSONNEL 20 1 0 5.122 0.446 0.000 HEALTH PHYSICS PERSONNEL 6 0 0 8.895 0.000 0.005 i SUF RVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.197 0.059 0.010 TOTAL 35 5 22 62 17.084 2.034 10.153 29.271 MAINTENANCE PERSONNEL 14 31 34 6.331 14.165 17.443 I REFUELING

• OPERATING PERSONNEL 26 0

0 4.272 0.035 0.000 HEALTH PHYSICS PERSONNEL 2 0 0 0.682 0.000 0.165 SUPERVISORY PERSONNEL 8 0 0 1.452 0.000 0.000 l l ENGINEERING PERSONNEL 2 0 6 1.344 0.230 1.710 TOTAL 52 31 40 123 14.081 14.450 19.318 47.829 I MAINTENANCE PERSONNEL 101 157 375 633 58.518 76.985 258.747 394.250 l TOTAL BY JOB FUNCTION 76 1 0 77 23.696 0.641 0.000 24.337 . HEALTH PHYSICS PERSONNEL 38 0 7 45 36.950 0.000 26.652 63.602 , OPERATING PERSONNEL SUPERVISORY PERSONNEL 14 1 24 39 3.532 1.051 0.060 4.643 38 105 23.784 16.511 17.493 57.788 ENGINEERING PERSONNEL 39 28 _ 444 [3'33] 899 (fcT!1 146.480 95.188 302.952 544.620 268 (135) 187 (100) GRAND TOTAL

• Workers may be counted in more than one category.

l Appendix 0 (Cont. ) PLANT:,GINNA NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION (PHR) 1984 NUMBER OF PERSONNEL f>100 M-REM) TOTAL MAN-REMS ] STATION UTILITY CONTRACT TOTAL STATION UTILITY C01 TRACT TOTAL j HCRK 8 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS REACTOR OPERATIONS & SURV. MAINTENANCE PERSONNEL 42 144 98 6.100 10.260 14.900 OPERATING PERSONNEL 23 1 0 11.080 0.S90 0.000 HEALTH PHYSICS PERSONNEL 14 3 46 1.170 0.160 12.140 SUPERVISORY PERSONNEL 20 8 20 4.730 0.850 1.490 ENGINEERING PERSONNEL 1 2 29 0.030 0.000 2.430 TOTAL 100 158 193 4 51 23.110 11.860 30.960 65.950 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 40 123 95 4.460 10.130 5.120 ) OPERATING PERSONNEL 17 0 0 0.270 0.000 0.000 HEALTH PHYSICS PERSONNEL 13 4 46 1.320 0.160 5.510 SUPERVISORY PERSONNEL 20 10 19 1.590 1.700 2.560 4 ENGINEERING PERSONNEL 1 1 17 0.010 0.010 5.850 i ^ TOTAL 91 138 177 406 7.650 12.000 19.040 38.690 j IN-SERVf0E INSPECTION i MAINTENANCE PERSONNEL 28 66 31 2.010 1.100 3.800 i OPERATING PERSONNEL 1 0 0 0.020 0.000 0.000 i HEALTH PHYSICS PERSONNEL 2 0 26 0.050 0.000 1.290 t SUPERVISORY PERSONNEL 11 7 15 0.770 0.430 1.080 ENGINEERING PERSONNEL 0 2 4 0.000 0.040 0.070 j TOTAL 42 75 76 193 2.850 1.570 6.240 10.660 SPECIAL MAINTENANCE j MAINTENANCE PERSONNEL 42 150 122 19.740 125.200 39.920 R$0PERATING PERSONNEL 17 1 0 0.680 0.020 0.000 i. -* HEALTH PHYSICS PERSONNEL 13 4 47 3.020 0.120 21.230 SUPERVISORY PERSONNEL 19 10 19 3.880 3.840~ 12.200 i ENGINEERING PERSONNEL 1 2 41 0.020 0.560 5.880 TOTAL 92 167 229 488 27.340 129.740 79.230 236.310 HASTE PROCESSING MAINTENANCE PERSONNEL 26 44 31 1.190 1.370 1.520 OPERATING PERSONNEL 9 0 0 0.330 0.000 0.000 HEALTH PHYSICS PERSONNEL 8 3 38 0.330 0.000 10.300 SUPERVISORY PERSONNEL 9 3 to 0.200 0.560 1.250 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTKL 52 50 79 181 2.050 1.930 13.070 17.050 REFUELING MAINTENANCE PERSONNEL 21 36 16 2.790 4.300 3.080 OPERATING PERSONNEL 4 0 0 0.730 0.000 0.000 , HEALTH PHYSICS PERSONNEL 2 0 23 0.260 0.000 52.350 i SUPERVISORY PERSONNEL 4 5 6 0.000 0.560 19.600 l ENGINEERING PERSONNEL 0 1 21 0.000 0.000 0.240 i TOTAL 31 42 66 139 3.780 4.860 75.270 85.910 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 199 (43) 563(151) 393(136) 1155(333) 36.290 152.360 68.340 256.990 OPERATING PERSONNEL 71 (U) 2 (1) 0 (0) 73 (24) 13.110 0.610 0.000 13.720 HEALTH PHYSICS PERSONNEL 5 2 (14) 14 (4) 226 (47) 292 (65) 6.150 0.440 102.820 109.410 SUPERVISORY PERSONNEL 8 3 (21) 43 ( 8 9 (24) 215 (56) 11.170 7.940 38.180 57.290 ENGINEERING PERSONNEL 3 (1) 8 820[2_49) 1858 (520) 66.780 161.960 223.810 452.550 117 (42) 123 [45) 0.060 0.610 14.470 15.140 GRAND TOTAL 408 (f02] 630 Q ) q Workers may be counteo in more than one category. t

__.m Appendix D (Cont.} NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION ] ' PLANT: HADDAM NECK (PHR) 1984 NUMBER OF PERSONNEL D100 M-REM) 70"At MAN-REMS 4 STATION UTILITY CONTRACT TOTAL STATION UTI'.IY CONRACT TOTAL HORK & JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & 0HERS MAN-REMS l BfAC10R OPERATIONS & SURV. MAINTENANCE PERSONNEL 7 0 2 3.210 0.160 0.890 l OPERATING PERS0t:NEL 51 0 11 60.700 0.050 3.660 I HEALTH PHYSICS PERSONNEL 32 2 75 19.460 2.710 59.150 SUPERVISORY PERSONt4EL 3 0 0 0.640 0.000 0.000 ENGINEERING PERSONNEL 3 3 0 1.380 1.100 0.130 I. IOTAL 96 5 88 189 85.390 4.020 63.830 153.240-j ct00 TINE MAINTENAtJCE - MAINTENANCE PERSONNEL 59 72 159 95.090 24.200 146.320 I OPERATING PERSONNEL 5 0 0 3.030 0.040' O.400 HEALTH PHYSICS PERSONNEL 23 2 66 12.770 0.390 23.850 l SUPERVISORY PERSONilEL 1 0 0 0.290 0.000 0.020 ENGINEERING PERSONNEL 12 16 18 3.660 5.190 11.470 TOTAL 100 90 243 433 114.840 29.820 182.060 326.720 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 17 11 145 11.630 4.230 141.650 4 CPERATING PERSONNEL 1 0 0 0.470 0.010 0.070 HEALTH PHYSICS PERSONNEL 3 1 32 1.840 0.420 12.560 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 4 ENGINEERING PERSONNEL 9 10 100 7.750 3.910 156.740 TOTAL 30 22 277 329 21.690 8.570 311.020 341.280 SPECIAL MAINTEMANCE i MAINTENANCE PERSONNEL 31 49 158 38.120 46.850 93.000 ro 0PERATING PERSONNEL 2 0 1 0.860 0.010 0.260

• • HEALTH PHYSICS PERSONNEL 8

0 24 2.580 0.260 10.710 j SUPERVISORY PERSONNU. 0 0 1 0.050 0.000 1.220 ENGINEERUJG PERSONNEL 4 18 12 . 210 11.910 7.990 i TOTAL 45 67 196 308 42.820 59.030 113.180 215.030 HASTE PROCESSING !!AINIENAt4CE PERSONNEL 0 0 2 0.310 0.070 'O.890 i OPERATING PERSONNEL 0 0 0 0.370 0.000 0.000 l NEALTH PHYSICS PEQSONNEL 16 1 46 22.490 0.240 39.970 SUPERVISORY PERSOH3EL 0 0 0 0.000 0.000 0.000 J, ENGINEERING PERSONNEL 1 2 0 0.340 0.480 0.150 1 TOTAL 17 3 48 68 23.510 0.790 41.010 65.310 .I REEUEL ING MAINTENANCE PERSONNEL 26 3 62 13.020 1.530 74.760 1 OPERATING PERSONNEL 0 0 2 0.430 0.010 2.600 HEALTH PHYSICS PERSONNEL 7 0 20 3.370 0.000 5.740 SUPERVISORY PERSONNEL 1 0 0 0.420 0.000 0.000 ENGINEERLNG PERSONNEt 1 0 7 0.380 0.080 2.650 TOTAL 35 3 91 129 17.620 1.620 85.750 104.970 l l ' MA: JY J0B FUNCTION N itTTENANCE PERSONNEL 140 135 528 803 161.380 77.040 457.510 695.950 T OPERATING PERSONNEL 59 0 14 73 65.860 0.120 6.990 72.970 HEALTH PHYSICS PERSONNEL 89 6 263 358 62.510 4.020 151.980 218.510 i ) SUPERVISORY PERSONNEL 5 0 1 6 1.400 0.000 1.240 2.640 t l E74GINEERING PERSONNEL 30 49 137 216 14.720 22.670 179.110 216.500 GRAND TOTAL 323 190 943 1456 305.870 103.850 796.830 1206.550 l -ur

Appendix D (cont.) . NUMBER OF PERSONNEL AND MAN-REM DY HORK AND JOB FUNCTION PLANT: HATCH 1.2 (BHR) 1984 NIJMBER OF PERSONNEL ( >100 M-REM) TOTAL MAN-RE!13 STATIO 1 UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL 4' 1 HORK 8 JOB FUNCTION EMPLOYE ES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS REACTOR OPERATIONS & SURV. j Malt 4TENANCE PERSONNEL 13 0 49 4.882 0.025 22.571 3 OPERATING PERSONNEL 104 0 0 57.466 0.020 0.034 HEAL 1H PHYSICS PERSONNEL 47 1 139 28.685 0.389 118.967 SUPERVISORY PERSONNEL 82 2 8 21.926 1.481 4.107 _fN3INEERING PERSONNEL 42 4 13 27.435 1.234 6.862 { TOTAL 268 7 209 504 140.394 3.149 152.541 296.084__ i ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 158 3 197 137.595 1.680 135.182 OPERATING PERSONNEL 30 0 1 17.870 0.000 0.109 HEALTH PHYSICS PERSONNEL 22 0 40 11.223 0.034 43.343 i SUPERVISORY PERSONNEL 16 3 8 6.309 1.608 5.401 ENGINEERING PERSONNEL 2 0 15 1.257 0.179 6.268 ] TOTAL 228 6 261 495 174.254 3.501 190.303 368.058 1 { JN-SERVICE INSPECTION Malt 4TEt4ANCE PERSONNEL 0 0 47 0.099 0.005 26.963 j OPERATING PERSONNEL 0 0 0 0.227 0.000 0.000 i HEALTH PHYSICS PERSONt4EL 0 0 4 0.154 0.046 1.354 SUPERVISORY PERSONNEL 1 0 7 0.766 0.013 4.349 I' ENGINEERING PERSONNEL 0 0 9 0.009' O.000 8.216 TOTAL 1 0 67 68 1.255 0.064 40.882 42.201 ) $PECIAL MAINTENANCE MAINTENAt4CE PERSONNEL 13 0 1402 10.624 0.084 1166.354 -d OPERATING PERSONNEL 1 0 1 1.048 0.000 0.272 U HEALTH PHYSICS PERSONNEL 0 0 45 0.157 0.000 43.244 SUPERVISORY PERSONNEL 1 3 45 0.242 1.943 26.513 4 ENGINEERING PERSONNEL 8 1 194 1.666 0.715 106.664 TOTAL 23 4 1687 1714 13.737 2.742 1343.047 1359.526 ,\\ HASTE PROCESSING MAINTENANCE PERSONNEL 0 0 47 0.070 0.005 22.043 OPERATING PERSONNEL 0 0 0 0.173 0.000 0.000 ) HEALTH PHYSICS PERSONNEL 0 0 8 0.174 0.000 7.510 i SUPERVISORY PERSONNEL 0 0 1 0.065 0.002 0.177 i ENGINEERING PERSONNEL 0 0 0 0.009 0.000 0.399 j TOTAL 0 0 56 56 0.49J 0.007 30.129 30.627 REFUELING j MAINTENANCE PERSONNEL 0 0 36 (.074 0.005 13.163 OPERATING PERSONNEL 0 0 0 0.173 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 4 L.154 0.000 1.283 SUPERVISORY PERSONNEL 0 0 1 0.053 0.002 0.177 ENGINEERING PERSONNEL 0 0 0 0.009 0.000 0.456 i TOTAL 0 0 41 41 0.463 0.007 15.059 15.529 J TOTAL BY JOB FUNCTION 1541.424 MAINTENANCE PERSONNEL 184 3 1778 1965 153.344 1.804 1386.276 OPERATING PERSONNEL 135 0 2 137 76.957 0.020 0.415 77.392 HEALTH PHYSICS PERSONNEL 69 1 240 310 40.547 0.469 215.701 256.717 4 j SUPERVISORY PERSONNEL 100 8 70 178 29.361 5.049. 40.724 75.134 ENGINEERING PERSONNEL 52 5 231 288 30.385 2.1 28 128.845 161.358 GRAND TOTAL 540 17 2321 2878 330.594 9.470 1771.961 2112.025 4 4

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY MORK AND JOB FUNCTION PLANT: INDIAN POINT 2 (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) T0"At MAN-REMS STATION UTILITY C0t4 T R ACT _ TOTAL STATION UTILI"Y CONTRACT TOTAL E RK 8 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS REACTOR OPERATLONS & SURV. MAINT ENAt4CE PERSONt4EL 75 161 670 19.998 30.277 158.772 OPERATING PERSONNEL 83 2 6 134.595 0.213 3.964 HEALTH PHYSICS PERSONNEL 19 0 149 35.805 0.000 165.880 SUPERVISORY PERSONNEL 54 29 58 24.872 6.842 8.369 ENGINEERIt4G PERSONNEL 50 43 28 20.260 9.739 13.189 TOTAL 281 235 911 1427 235.530 47.071 350.174 632.775 RQUIlNE MAINTENANCE MAINTENANCE PERSONNEL 71 141 321 75.757 28.921 64.324 OPERATING PERSONNEL 29 1 2 5.041 0.005 0.510 HEALTH PHYSICS PERSONNEL 5 0 53 0.075 0.000 1.920 SUPERVISORY PERSONNEL 28 22 17 15.988 3.343 3.361 ENGINEERING PERSONNEL 33 17 7 4.119 1.370 0.730 TOTAL 166 181 400 747 98.980 33.639 70.845 203.464 LN-SERVICE INSPECTION MAINTENAf4CE PERS0 tit 4EL 33 57 81 2.090 4.029 12.240 OPERATING PERSONNEL 5 1 1 0.270 0.045 0.010 HEALTH PHYSICS PERSONNEL 4 0 6 0.220 0.000 0.220 SUPERVISORY PERSONNEL 17 19 8 1.283 1.171 1.205 ENGINEERING PERSONNEL 6 5 6 0.370 0.120 0.117 TOTAL 65 82 102 249 4.233 5.365 13.792 23.390 SPECIAL MAINTENANCE f1AINTENANCE PERSONNEL T3 205 1153 28.719 120.451 1000,461 -.OPERATIllG PERSONNEL 70 2 8 15.101 0.810 1.250 l % HEALTH PHYSICS PERSONNEL 18 0 130 3.228 0.000 40.174 SUPERVISORY PERSONNEL 44 34 84 18.662 21.455 32.987 ENGINEERING PERSONNEL 47 37 26 7.550 15.884 17.494 TOTAL 252 278 1401 1931 73.260 158.600 1092.366 1324.226 RASJE PROCESSING MAINTENANCE PERSONNEL 58 53 321 8.096 1.315 137.532 OPERATING PERSONNEL 39 0 3 1.467 0.000 2.592 HEALTH PHYSICS PERSONNEL 8 0 41 0.147 0.000 10.375 SUPERVISORY PERSONNEL 21 8 17 5.276 0.083 8.861 ENGINEERING PERSONNEL 25 12 4 1.936 1.614 2.005 TOTAL 1 31 73 386 590 16.922 3.012 161.365 181.299 E R_UELING MAINTENANCE PERSONNEL 32 123 200 4.566 51.464 123.978 , OPERATING PERSONNEL 57 0 3 10.463 0.000 0.598 HEALTH PHYSICS PERSONNEL 1 0 6 0.180 0.000 0.350 SUPERVISORY PERSONNEL 17 13 4 3.808 8.733 0.280 ENGINEERING PERSONNEL 10 13 6 3.925 1.164 0.269 TOTAL 117 149 219 485 22.942 61.361 125.475 209.778 TOTAL BY JOB FUNCTION MAINTENANCE PERSONt4EL 322 (79) 740(211) 2746(1295 3808(1585) 137.226 236.457 1497.307 1870.990

• OPERATING PERSONNEL 283 (84) 6 (2) 23 (11 312 (97) 166.937 1.073 8.924 176.934 HEALTH PHYSICS PERSONNEL 5 5 (19) 0 (2) 385 (162 440 (183) 39.655 0.000 218.919 258.574 SUPERVISORY PERSONNEL 181 (57 125 (37) 188 (91) 494 (185) 69.889 41.627 55.063 166.579 ENGINEERING PERSONNEL 171 (51 _

127 (43). 77 (33) 375 (127) 38.160 29.891 33.804 101.85L, GRAND TOTAL 1012{290 9 98 (2051 3419(1592). 5429 t2177) 451.867 309.048 1814.017 2574.932

• Workers may be counted in more than on* category. Ntsibers in parentheses are total numbers of individuals.

Appendix D (cont.) NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION I PLANT: INDIAN POINT 3 (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 3 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS REACTOR OPERATIONS & SURV. ] MAINTENANCE PERSONNEL 15 1 1 3.746 0.331 0.104 j OPERATING PERSONNEL 41 0 2 14.476 0.000 0.166 HEALTH PHYSICS PERSONNEL 19 0 8 11.316 0.000 1.600 I SUPERVISORY PERSONNEL 22 0 1 12.910 0.000 0.242 ENGINEERING PERSONNEL 1 0 0 0.090 0.000 0.000 TOTAL 98 1 12 111 42.538 0.331 2.112 44.981 1 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 33 0 28 8.901 0.000 15.911 j OPERATING PERSONNEL 23 1 2 3.202 0.076 1.250 HEALTH PHYSICS PERSONNEL 17 0 34 5.141 0.000 0.700 1 SUPERVISORY PERSONNEL 5 0 0 1.090 0.000 11.282 1 ENGINEERING PERSONNEL 1 0 0 0.152 0.000 0.000 TOTAL 79 1 64 144 18.486 0.076 29.143 47.705 j IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 0 1 0 0.000 0.076 0.000 i OPERATING PERSONNEL 15 2 5 1.773 0.366 0.725 HEALTH PHYSICS PERSONNEL 0 0 1 0.000 0.000 0.083 SUPERVISORY PERSONNEL 5 0 0 0.655 0.000 0.000 ENGINEERING PERSONNEL 2 't 3 0.179 0.097 0.366 TOTAL 22 4 9 35 2.607 0.539 1.174 4.320 j SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 45 0 177 21.438 0.000 77.314 -'DPERATING PERSONNEL 18 1 8 4.623 0.076 1.408 $ HEALTH PHYSICS PERSONNEL 1 0 0 0.124 0.000 0.000 SUPERVISORY PERSONNEL 11 0 0 3.795 0.000 0.000 l ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 75 1 185 261 29.980 0.076 78.722 108.778 HASTE FR0 CESSING MAINTENANCE PERSONNEL 8 0 13 1.622 0.000 5.568 j OPERATING PERSONNEL 0 0 1 0.000 0.000 2.250 HEALTH PHYSICS PERSONNEL 1 0 0 0.138 0.000 0.000 7 SUPERVISORY PERSONNEL 1 0 0 0.518 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 10 0 14 24 2.278 0.000 7.818 10.096 REFUELING MAINIENANCE PERSONNEL 0 0 0 0.000 d.000 0.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 , HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 I SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 j ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 l 5 TOTAL BY JOB FUNCTION i MAlteTENANCE PERSONNEL 101 2 219 322 35.707 0.407 98.897 135.011 J , OPERATING PERSONNEL 97 4 18 119 24.074 0.518 5.799 30.391 . HEALTH PHYSICS PERSONNEL 38 0 43 81 16.719 0.000 2.383 19.102 SUPERVISORY PERSONNEL 44 0 1 45 18.968 0.000 11.524 30.492 ENGINEERING PERSONNEL 4 1 3 8 0.421 0.097 0.366 0.884 GRAND TOTAL 284 7 284 575 95.889 1.022 118.969 215.880

• Workers may be counted in more than one category.

-Appendix D (cont.) i NUMBER OF PERSONNEL APD MAN-REM BY NORK AND JOB FUNCTION PLANT: KEHAUNEE (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CONLRACT TOTAL STATION UTILITY. CONTRACT TOTAL HORK 3 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS R_TE CTOR OPERATIONS & SURV. ETAlt4T ENAt4CE PERS0t4NEL 3 0 9 0.144 0.000 1.687 OPERATING PER50t4NEL 13 0 1 3.787 0.000 0.035 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 3 0 0 0.340 0.000 0.000 ENGINEERING PERSOflHEL 5 2 2 0.460 0.141 0.454 TOTAL 24 2 12 38 4.731 0.141 2.176 7.048 M U_RNE MAIrlTENANCE t1AINT EtJANCE PERSONNEL 43 9 63 10.199 2.493 28.859 OPERATING PERSONNEL 7 0 2 1.235 0.000 0.136 HEALTH PHYSICS PERSONNEL 19 0 16 10.605 0.000 7.952 SUPERVISORY PERSONNEL 2 0 2 0.290 0.000 0.662 ENGINEERING PERSONNEL 1 2 5 0.096 0.247 1.643 TOTAL 72 11 88 171 22.425 2.740 39.252 64.417 LN-KRVlCE INSPECTION t1 Alt 4TENAf4CE PERSONNEL 5 0 14 0.01 2 0.000 1.233 OPERATING PERSONNEL 1 0 2 0.000 0.000 0.226 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 t ( ENGINFERING PERSONNEL 1 0 0 0.046 0.000 0.000 TOTAL 7 0 16 23 0.058 0.000 1.459 1.517 l f SPECIAt M_ALHT Ell A NC E MAINT EtJArtCE PERSONNEL 43 6 100 7.467 0.260 34.803 i C OPERATING PERSONNEL 10 0 0 0.316 0.000 0.000 I m HEALTH PHYSICS PERSONNEL 5 0 0 0.382 0.000 0.000 j SUPERVISORY PERSONNEL 4 0 1 0.428 0.000 0.080 ENGINEERING PERSONNEL 4 3 10 0.086 0.164 1.496 TOTAL 66 9 111 186 8.679 0.424 36.379 45.482 1 MASTE PROCESSING MAltiTENAtJCE PERSONNEL 19 4 6 0.479 1.197 0.774 OPERATING PERSONNEL 2 0 0 3.204 0.000 0.000 l HEALTH PHYSICS PERSONNEL 5 0 1 2.363 0.000 0.321 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 1 ENGINEERING PERSONNFL 0 0 0 0.000 0.000 0.000 l TOTAL 26 4 7 37 6.046 1.197 1.095 8.338 RJEUfLIf1G I, f1AINTENANCE PERS0t1NEL 24 4 16 2.484 0.638 6.490 OPERATING PERSONNEL 3 0 1 0.028 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 9 0.000 0.000 2.750 ENGINEERLNG PERSONNEL 0 1 0 0.000 0.000 0.000 TOTAL 27 5 26 58 2.51 2 0.638 9.220 12.370 10TALBY JOB FUNCTION Malt 4TENAf4CE PERSONNEL 137 23 208 368 20.785 4.588 73.846 99.219 OPERATING PERSONNEL 36 0 6 42 8.570 0.000 0.397 8.967 HEALTH PHYSICS PERSONNEL 29 0 17 46 13.350 0.000 8.273 21.623 SUPERVISORY PERSONNEL 9 0 12 21 1.058 0.000 3.472' 4.530 ENGINEERING PERSONNEL 11 8 17 36 0.688 0.552 3.593 4.833 GRAND TOTAL 222 31 260 513 44.451 5.140 89.581 139.172

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PtANT2 LACROSSE (BHR) 1984 t4 UMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL _ ORK 4 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS W BfE"CTOR OPEPATIONS & SURV. MAINTENANCE PERSofit4EL 21 0 0 17.838 0.010 0.000 CPERATING PERSONNEL 20 0 4 68.149 0.000 2.485 HEALTi PHYSICS PERSONNEL 11 0 0 23.727 0.000 0.000 SUPER /ISORY PERSONNEL 19 0 0 18.392 0.032 0.317 ENGINEERIN_G PERSONNEL 8 0 3 5.704 0.121 1.132 TOTAL 79 0 7 86 133.810 0.163 3.934 137.907 PGtJT1H E MAltlENANCE MAINT:NAt4CE PERSONNEL 19 1 0 26.793 0.630 0.103 CPERATING PERSONNEL 20 0 0 7.376 0.000 0.000 HEALTH PHYSICS PERSONNEL 7 0 0 3.353 0.000 0.000 l' SUPERVISORY PERSONNEL 14 0 0 9.931 0.000 0.000 ENGI_N M ING PERSONNEL 6 0 0 7.148 0.030 0.000 TOTAL 66 1 0 67 54.601 O 660 0.105 55.364 m JN-SERVICE INSP_ECI. ION MAINTENAt4CE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ] _fliGJNEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 SPECIAL MAINTENANCE Malt 4T ENANCE PERS0ilt4EL 17 3 4 11.800 2.810 1.104 C OPERATING PERSONNEL 11 0 0 4.149 0.000 0.000 N HEALTH PHYSICS PERSONNEL 4 0 0 1.205 0.000 0.000 SUPERVISORY PERSONNEL 17 0 0 11.533 0.000 0.000 _LNGINEE RING PERSONNEL 3 0 0 0.794 0.050 0.000 TOTAt 52 3 4 59 29.481 2.860 1.104 33.445 UA S Tf,_ P R O C ES_SI.4G l MAINitNANCE PERSONNEL 5 0 0 2.205 0.000 0.068 OPERATING PERSONNEL 8 0 0 2.446 0.000 0.000 i HEALTH PHYSICS PERSONNEL 8 0 0 6.660 0.000 0.000 ) SUPERVISORY PERSONNEL 6 0 0 6.414 0.000 0.000 1 _EJNGJJg_(LRING PERSONNEL 3 0 0 1.165 0.000 0.000 { TOTAL 30 0 0 30 18.890 0.000 0.068 18.958 EElU E L ING MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.017 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.035 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.015 0.000 0.000 TOTAL 0 0 0 0 0.067 0.000 0.000 0.067 TOTAI BY JOB FUNCTION MAINTENANCE PERSONNEL 6 2 (21) 4 (4) 4 f4) 7 0 (29) 58.636 3.450 1.275 63.361 OPERATING PERSONNEL 5 9 (20) 0 (0) 4 (4) 6 3 (24) 82.120 0.000 2.485 84.605 HEALTH PHYSICS PERSONNEL 30(11) 0(0) 0 (J) 3 0 (11) 34.962 0.000 0.000 34.962 SUPERVISORY PERS0t.NEL 5 6 (20) 0 (0) 0 (0) 5 6 (20) 46.305 0.032 0.317 46.654 ENGINEERING PERSONNEL 20 (8) 0 (0) 3 (3) 2 3 (11) 14.826 0.201 1.132 16.159 GRAND TOTAL 227(80); 4.(4) 1 1 (11) 242 (95) 236.849 3.683 5.209 245.741 ] hrbers may be counted in more than one category. Numbers in parentheses are total nunbers of individuals. 4

App:ndix D(Cont.) HUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION g PLANT: LASALLE 1 (BHR) 1984 t4 UMBER OF PERSONt4EL (>t00 M-REM) 10TAL MAN-REl'S _ STATION UTILITY qqNTRACT TOTAL STATION UTILITY C0b TRACT TOTAL HORK 8 JQ) FUNCTION EMPLOYEES EMPLOYEES $ OTHERS PERSONS EMPLOYEES EMPLOYEES &OTHERS MAN-REMS RfA_CTOR OP_fRATIONS & SURV. MAINTEt4At4CE PERS0 tit 4EL 14 1 0 5.563 0.024 0.000 OPERATING PERSONNEL 13 0 0 3.479 0.000 0.000 HEALTH PHYSICS PERSONNEL 8 0 0 4.112 0.000 0.000 SUPERVISORY PERSONNEL 39 0 0 4.515 0.000 0.000 ENGINEERING PERSONNEL 43 7 8 4.897 0.664 1.499 TOTAL 117 8 8 133 22.566 0.688 1.499 24.753 R00ENLMLt4T EN ANCE MAINTENANCE PERSONNEL 116 5 155 47.279 0.168 35.096 OPERATING PERSONNEL 26 0 0 6.958 0.000 0.000 HEALTH PHYSICS PERSONNEL 16 0 0 8.226 0.000 0.000 SUPERVISORY PERSONNEL 39 0 0 4.515 0.000 0.000 ENGIt4EERING PERSONNEL 0 7 50 0.000 0.664 8.991 TOIAL 197 12 205 414 66.978 0.832 44.087 111.897 IN-SERVICE INSPECTION MAINIENANCE PERSONt4EL 6 1 13 2.781 0.024 2.925 OPERATING PERSONNEL 7 0 0 1.741 0.000 0.000 NEALTH PHYSICS PERSONNEL 4 0 0 2.057 0.000 0.000 SUPERVISORY PERSONNEL 20 0 0 3.762 0.000 0.000 ENGINEERING PERSONNEL 43 16 4 4.896 1.331 0.749 TOTAL 80 17 17 114 15.237 1.355 3.674 20.266 SPECIAL MAINTENANCE MAINIEt4ANCE PERSONNEL 0 1 91 0.000 0.024 20.473 0 0 0 0.000 0.000 0.000 [ 0PERATING PERSONNEL cn HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 _ ENGINEERING PERSONNEL 0 7 21 0.000 0.664 3.746 TOTAL 0 8 112 120 0.000 0.688 24.219 24.907 HASTE PROCESSING MAINIEf4ANCE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 87 0 0 22.614 0.000 0.000 HEALTH PHYSICS PERSONNEL 12 0 0 6.170 0.000 0.000 .0 0 2.258 0.000 0.000 SUPERVISORY PERSONNEL 33 ENGINEERING PERSONNEL 0 '__ _ 0 0 0.000 0.000 0.000 TOTAL 132 O O 132 31.042 0.000 0.000 31.042 MAINIENANCE PERSONNEL 0 0 -0 0.000 0.000 0.000 REFUEL _ING 0 0 0 0.000 0.000 0.000 , OPERATING PERSONNEL HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONlEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 MAINTENANCE PERSONNEL 136 8 259 403 55.623 0.240 58.494 114.357 TOTAL BY JOB FUNCTION t , OPERATING PERSONNEL 135 0 0 133 34.792 0.000 0.000 34.792 HEALTH PHYSICS PERSONNEL 40 0 0 40 20.565 0.000 0.000 20.565 SUPERVISORY PERSONNEL 131 0 0 1 31 15.050 0.000 0.000 15.050 ENGINEERING PERSONNEL 86 37 83 206 9.793 3.323 14.985 28.101 GRAND TOTAL 526 45 342 913 135.823 3.363 73.479 212.865

• Workers may be counted in more than one category.

NRC mandated work contributed 25 man-rems. a l

Appendix D (cont.) NUMBER OF PERSONNEL AND MAN-REM BY NORK AND JOB FUNCTION e PLANT: MAINE YANKEE (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPL OYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS REACTOR OPlRATIONS & SURV. Malt 4TENANCE PERS0t4NEL 0 0 0 0.160 0.000 0.395 OPERATING PERSONNEL 17 0 0 4.500 0.000 0.000 HEALTH PHYSICS PERSONNEL 8 0 0 1.920 0.000 0.030 i SUPERVISORY PERSONNEL 2 0 1 1.035 0.000 0.775 ENGINEERING PERSONNEL 2 1 0 0.560 0.110 0.165 TOTAL 29 1 1 31 8.175 0.110 1.365 9.650 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 21 0 18 9.110 0.000 5.821 OPERATING PERSONNEL 7 0 0 2.275 0.000 0.000 HEALTH PHYSICS PERSONNEL 5 0 0 2.265 0.000 0.030 SUPERVISORY PERSONNEL 20 0 2 6.185 0.000 0.440 ENGINEERING PERSONNEL 0 0 0 0.450 0.000 0.105 TOTAL 53 0 20 73 20.285 0.000 6.396 26.681 IN-SERVICE INSPlCTION T MAINTENANCE PERSONNEL 10 0 118 4.230 0.010 76.260 4 OPERATING PERSONt4EL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.010 SUPERVISORY PERSONNEL 2 0 3 1.610 0.000 0.960 ENGINEERLNG PERSONNEL 10 0 14 5.320 0.000 10.760 i TOTAL 22 0 135 157 11.160 0.010 87.990 99.160 SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 15 0 338 7.975 0.420 333.261 -OPERATING PERSONNEL 4 0 0 1.060 0.000 0.000 $ HEALTH PHYSICS PERSONNEL 0 0 2 0.370 0.000 2.270 SUPERVISORY PERSONNEL 11 0 5 4.285 0.000 4.065 ENGINEERING PERSONNEL 11 0 36 4.700 0.005 28.085 TOTAL 41 0 381 422 18.390 0.425 367.681 386.496 HASTE PROCESSING MAINTENANCE PERSONNEL 2 0 5 0.525 0.000 2.050 OPERATING PERSONNEL 1 0 0 1.230 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 0 3.260 0.000 0.000 SUPERVISORY PERSONNEL 10 0 0 3.990 0.000 0.030 ENGINEERING PERSONNEL 0 0 2 0.000 0.000 0.225 TOTAL 17 0 7 24 9.005 0.000 2.305 11.310 REFUELING MAINTENANCE PERSONNEL 29 7 276 21.360 2.300 187.966 , OPERATING PERSONNEL 48 0 0 28.035 0.000 0.000 HEALTH PHYSICS PERSONNEL 18 0 61 10.565 0.000 57.035 SUPERVISORY PERSONNEL 59 0 27 50.167 0.025 16.075 ENGINEERING PERSONNEL 24 1 28 10.690 0.205 12.040 TOTAL 178 8 392 578 120.817 2.550 273.116 396.463 10LAL BY JOB FUNCTION 0 MAINTENANCE PERSONNEL 77 7 755 839 43.360 2.730 605.753 651.843 OPERATING PERSONNEL 77 0 0 77 37.100 0.000 0.000 37.100 HEALTH PHYSICS PERSONNEL 35 0 63 98 18.380 0.000 59.375 77.755 SUPERVISORY PERSONNEL 104 0 38 142 67.272 0.025 22.345 89.642 ENGINEERING PERSONNEL 47 2 80 129 21.720 0.320 51.380 73.420 GRAND TOTAL 340 9 936 1285 187.832 3.075 738.855 929.760 Workers may t:e counted in more than one category.

i l Appendix D (cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLAbi-P"CGUIDE 1 (PHR) 1984 TOTAL MAN-REMS f4 UMBER OF PEMONNEL (>100 M-REM) STATION OTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL C4 % JOB FUNCT_J0P1 EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS I t' A I N i tt. At.C E P tx SUNf 4EL 131 324 35 3.395 4.523 0.500 REACTOR CPERAT10'4S 4 SURV. l CPERATING PERSONNEL 97 to 21 16.211 0.775 0.215 HE AL TH PHYSICS PERSONNEL 64 0 108 7.959 0.000 6.245 l SbPERVISORY PERSCNNEL 12 0 0 0.405 0.000 0.000 4 _ ENGINEERING PERSONNEL 68 12 8 4.795 0.620 0.010 TOTAL 372 346 172 890 32.765 5.918 6.970 45.653 I ?.AINTtNANCE PERSONNEL 138 313 43 23.683 37.295 5.297 ) 30HT I!!E_M A] Nlf LM!K E ) OPER ATI!4G PERSON?iEL 91 8 39 14.880 2.095 23.204 i i HEALTH PHYSICS.PERSONf3EL 63 0 107 16.575 0.000 24.889 SUPERVISORY PERSCN?iEL 12 0 0 0.820 0.000 0.000 i E'MINL2U49 PERSONNEL 60 12 8 6.885 1.495 0.360 TGIAL 364 333 197 894 62.843 40.885 53.750 157.478 l I:AINTENANCE PERSONNEL 30 116 21 1.035 45.180 12.555 i J!: _S Ef V I CILI NSP ECT LON i CFECATINO PERSCNNEL 9 0 14 0.060 0.000 0.360 NEALTH FHYSICS PERSONNEL 38 0 60 6.540 0.000 7.655 SUPfRVISORY PERSONNEL 2 0 0 0.120 0.000 0.000 F N '.INE E D I NG P ERSONNEt 39 6 12 15.090 1.135 4.455 TOTAL 118 122 107 347 22.845 46.315 25.025 94.185 i l1Alf4T ENANCE PERSONt4EL 131 339 60 41.150 137.100 15.534 SP E CI A L_M AI NT E N ANC E C OPERATING PERSONNEL 57 7 23 2.685 0.105 0.510 OPEALTH PHYSICS PERSONNEL 53 0 85 11.855 0.000 14.130 i SUPERVISORY PERSONNEL 8 0 0 1.400 0.000 0.000 _L!MI NE E R I NG_P E RSONN Et 60 13 21 13.920 0.875 5.785 10 fat 309 359 189 857 71.010 138.080 35.959 245.049 MAINithANCE PERSONNEL 18 19 0 0.350 0.085 0.000 1 !!M TLPROCSSSING CPERATING PERSONNEL 22 2 13 0.320 0.000 1.950 HEALTH PHYSICS PERSONNEL 33 0 23 12.175 0.000 1.265 1 SUPERVISORY PERSONNEL 2 0 0 0.235 0.000 0.000 1 E!MINEERING PERSC*PIEL 12 1 0 0.075 0.000 0.000 TullL 87 22 36 145 13.155 0.085 3.215 16.455 ~ 4 MAIN ( f M ANCE PLRSOf4Htt 54 91 13 7.715 12.245 0.780 p r V1n l I Nx I pEL1 tit;G PERSCNNEL 39 1 7 3.260 0.000 0.320 H E *. L T t* 19fSICS PERSONNEL 33 0 34 0.535 0.000 0.985 S2 EWISORY PERSCNNEL 0 0 0 0.000 0.000 0.000 1 E?; ;UT E RIF PERSCNNEL 34 2 5 2.000 0.005 0.950 TGfAL 160 94 59 31 3 13.510 12.250 3.015 28.775 MAINILNANCE PERSONNEL 502 1202 172 1876 77.328 236.428 34.666 348.422 T O T *. L M JOS FUNCR 0_N GPERATING PERSONNEL 315 28 117 460 37.416 2.975 26.559 66.950 HEALTH PHYSICS PERSONNEL 284 0 417 701 55.639 0.000 55.169 110.808 i j SUPERVISORY PERSONNEL 36 0 0 36 2.980 0.000 0.000 2.980 ENGINEFf1NG PERSONNEL 273 46 54 373 42.765 4.130 11.540 58.455 GRAND TOTAL 1410 1276 760 3446 216.128 243.533 127.934 587.595 Weisers ay be counted in more than one category.

Appendix D (cont.) i NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION EAANT:oMillSTONE 1 (BWR) 1984 l NUMBER OF PERSONNEL f >10 0 M-REM) TOT AL MAN-RLMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS R]9iCTOR_0PERATIONS & SURV. MAINTENANCE PERSON!iEL 17 0 7 8.610 0.160 4.320 j OPERATING PERSONNEL 55 0 0 52.710 0.000 0.070 HEALTH PHYSICS PERSONNEL 21 1 12 6.880-0.400 4.340 SUPERVISORY PERS0!1NEL 1 0 0 0.020 0.000 0.140 JNGINEERlr4G PERSONNEL 1 4 3 0.600 1.490 1.360 TOTAL 95 5 22 122 68.820 2.050 10.250 81.100 R_0tLTINE MAINTENANCE MAINTENANCE PERSONNEL 50 12 176 20.590 6.350 67.450 CPERATING PERSONNEL 11 0 11 4.380 0.000 2.480 HEALTH PHYSICS PERSONNEL 19 1 31 7.080 0.320 9.460 SUPERVISORY PERSONNEL 0 0 1 0.060 0.000 0.420 ENGINEERING PERSONNEL 8 13 22 2.580 3.810 5.590 TOTAL 88 26 241 355 34.690 10.480 85.400 130.570 i IN-SERVICE INSPECTION 1 MAINTENANCE PERSONNEL 0 1 31 0.570 0.530 24.640 OPERATING PERSONNEL 1 0 0 1.030 0.000 0.010 HEALTH PHYSICS PERSONNEL 1 0 3 0.540 0.010 3.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 3 7 18 1.350 4.340 17.090 TOTAL 5 8 52 65 3.490 4.880 44.740 53.110 SPECLAL MAlNTENANCE _ MAINTENANCE PERSONNEL 75 64 506 49.010 20.520 300.720 j w 0PERATING PERSONNEL 16 0 8 5.820 0.060 2.970 l -* HEALTH PHYSICS PERSONNEL 20 0 52 8.650 0.090 21.670 SUPERVISORY PERSONNEL 0 0 6 0.040 0.020 2.600 ]j ENGINEERING PERSONNEL 11 27 56 4.030 12.180 34.600 TOTAL 122 91 628 841 67.550 32.870 362.560 462.980 iMSTE PROCESSING MAINTEt4ANCE PERSONNEL 4 0 21 1.490 0.000 16.490 l OPERATING PERSONNEL 8 0 0 2.930 0.000 0.020 HEALTH PHYSICS PERSONNEL 11 0 8 6.980 0.010 3.940 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 2 0 3 0.550 0.000 0.090 TOTAL 25 0 32 57 11.950 0.010 20.540 32.500 1 REFUELING i MAINTENANCE PERSONNEL 57 44 24 32.980 15.230 9.050 { OPERATING PERSONNEL 38 0 0 16.970 0.000 0.160 NEALTH PHYSICS PERSONNEL 5 0 17 2.060 0.200 5.070 i SUPERVISORY PERSONNEL 0 0 0 0.020 0.000 0.000 ENGINEERING PERSONNEL 7 3 2 3.430 1.130 0.770 TOTAL 107 47 43 197 55.460 16.560 15.050 87.070 ,T0_T_AL BY JOB FUNCTION MAINTENANCE PERSONNEL 203 121 765 1089 113.250 42.790 422.670 578.710 OPERATING PERSONNEL 129 0 19 148 83.840 0.060 5.710 89.610 HEALTH PHYSICS PERSONNEL 77 2 123 202 32.190 1.030 47.480 80.700 SUPERVISORY PERSONNEL 1 0 7 8 0.140 0.020 3.160 3.320 ENGINEERING PERSONNEL 32 54 104 190 12.540 22.950 59.500 94.990 GRAND TOTAL 442 177 1018 1637 241.960 66.850 538.520 847.330 1

• Workers may be counted in sure than one category.

I

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-xtiM BY HORK AND JOB FUNCTION PLANT: MILLSTONE 2 (PHR) 1984 NUMBER OF PERSONNEt (>100 M-REM) TOTAL MAN-REMS STATION UT R]TY C 0t4T R AC T TOTAL STATION UTILITY CONTRACT TOTAL J10R K & JOB FUNCTION EMPLOYEES EMPLOYEES 1 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS RE AGTOR OPERATJOSS & SURV. MAINTENANCE PERSONNEL 1 0 0 0.540 0.000 0.050 CPERATIt4G PERSONNEL 16 0 0 4.710 0.000 0.030 HEALTH PHYSICS PERSONNEL 10 0 2 4.130 0.020 0.660 SUPERVISORY PERSONNEL 0 0 0 0.050 0.000 0.020 ENGINEERING PERSONNEL 2 0 0 1.020 0.010 0.020 TOTAL 29 0 2 31 10.450 0.030 0.780 11.260 ROU_ TINE MAINTENat!CE Malt 4TEt4At4CE PERSONt4EL 54 0 15 26.260 0.030 5.070 0FERATIt4G PERSONt4EL 2 0 0 1.070 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 3 1.130 0.030 0.770 SUPERVISORY PERSONt4EL 0 0 0 0.000 0.000 0.000 ENGIt4EERIt4G PER5074NEL 3 0 1 1.070 0.160 0.670 TOTAL 63 0 19 82 29.550 0.220 6.51 0 36.260 LN-SERVI _CE INSPECTION MAINTEt4At4CE PERSONt4EL 0 0 0 0.000 0.000 0.000 CPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.010 0.000 0.000 SUPERVISORY PERS0t4NEL 0 0 0 0.000 0.000 0.010 ENGINEERIt4G PERSONNEL 2 0 0 0.530 0.160 0.000 TOTAL 2 0 0 2 0.540 0.160 0.010 0.710 8 $PECIAL MAINTENANCE MAINTEt4At4CE PER50f4NEL 18 0 52 6.46; 0.040 26.700 C OPERATING PERSONNEL 0 0 0 0.340 0.000 0.020 NHEALTH PHYSICS PERSONNEL 2 0 4 0.680 0.040 1.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 Ef4GINEERING PERSONNEL 0 0 13 0.120 0.220 5.950 TOTAL 20 0 69 89 7.600 0.300 33.650 41.550 HASTE PROCf DING Malt 4TENANCE PERSONNEL 0 0 29 0.110 0.000 13.180 OPERATING PER50t4NEL 6 0 0 1.850 0.000 0.000 HEALTH PHYSICS PERSONNEL 6 0 6 5.840 0.000 3.470 SUPERVISORY PERSONt4EL 0 0 0 0.000 0.000 0.000 f ,i ENGINEERING PERSONNEL 2 0 5 1.190 0.000 1.430 TOTAL 14 0 40 54 8.990 0.000 18.080 27.070 i Eff EU NG ?! Alt 4T ENAt4CE PERS0t4NEL 0 0 2 0.130 0.000 0.550 U , OPERATING PERSONNEL 0 0 0 0.080 0.000 0.010 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.110 SUPERVISORY PERSONt4EL 0 0 0 0.000 0.000 0.000 ENGIt4EERING PERSONNEL 0 0 16 0.020 0.090 3.580 TOTAL 0 0 18 18 0.250 0.090 4.230 4.550 MAINTENANCE PERSONt4EL 75 0 98 171 33.500 0.070 45.530 79.100 TOTAL _BY JOB FUt4CTION , OPERATING PERSONNEL 24 0 0 24 8.050 0.000 0.060 8.110 . HEALTH PHYSICS PERSONNEL 22 0 15 37 11.790 0.090 6.010 17.890 SUPERVISORY PERSONNEL 0 0 0 0 0.050 0.000 0.030 0.080 ENGINEERING PERSONNEt 9 0 35 44 3.950 0.640 11.650 16.220 GR AND TOT L 128 0 148 276 57.540 0.800 63.260 121.400 ' Includes sparger repair, flow restrictor replacement, steam 9ecerator modifications, decontamination, etc.

Appendix D (c0nt.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION UANT: MONTICELLO (EHR) 1984 NUMBER OF PERSONNEL D100 M-RQu TOTAL MAN-RfM STATI0f4 UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 8 JOE FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS HAN-REMS REACTQR OPERATIONS & SURV. MAINTEf4At4CE PERSONNEL 43 149 16 21,453 88.563 3.329 OPERATING PERSONNEL 42 0 0 33.099 0.000 0.000 HEALTH PHYSICS PERSONNEL 15 0 42 5.529 0.000 26.528 SUPERVISORY PERSONNEL 22 8 45 5.202 1.373 12.797 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 122 157 103 382 65.283 89.936 42.654 197.873 C200 TINE MAINTENANCE Malt 4TENANCE PERSONNEL 31 252 111 20.989 118.721 35.254 OPERATING PERSONNEL 4 0 0 0.682 0.000 0.000 HEALTH PHYSICS PERSONNEL 2 0 16 0.529 0.000 5.316 SUPERVISORY PERSONNEL 7 2 25 1.504 0.204 11.730 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 44 254 152 450 23.704 118.925 52.500 194.929 IM-H RVICE INSPECTION Malt 4T Et4ANCE PERSONNEL 1 16 14 0.118 7.117 5.669 OPER% TING PERSONNEL 2 0 0 0.221 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 3 14 0.000 0.584 5.618 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.0E0 TOTAL 3 19 28 50 0.339 7.701 11.287 19.327 s SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 37 495 305 47.322 1007.766 338.123 COPERATING PERSONNEL 48 0 1 43.130 0.000 0.355 l w HEALTH PHYSICS PERSONNEL 9 0 65 6.559 0.000 64.553 SUPERVISORY PERSONNEL 11 22 266 4.693 12.477 366.990 I ENGINEERING PERSONNEL 0 0 4 0.000 0.000 0.496 TOTAL 105 517 641 1263 101.704 1020.243 770.517 1892.464 MASTE PRJCESSING Malt 4TENANCE PERSONNEL 11 34 0 4.318 14.350 0.000 OPERATING PERSONNEL 2 0 0 0.683 0.000 0.000 HEALTH PHYSICS PERSONNEL 3 0 4 0.718 0.000 0.632 SUPERVISORY PERSONNEL 2 0 2 0.226 0.000 3.239 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 18 34 6 58 5.945 14.330 3.871 24.146 REFUELING MAINTENANCE PERSONNEL 0 2 0 0.000 0.267 0.000 OPERATING PERSONNEL 40 0 0 9.866 0.000 0.382 HEALTH PHYSICS PERSONNEL 0 0 2 0.000 0.000 0.000 SUPERVISORY PERSONNEL 2 0 0 0.824 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 42 2 2 46 10.690 0.267 0.382 11.339 TOTAL BY JOB FUNCTION Malt 4T ENANCE PERSONNEL 123 948 446 1517 94.200 1236.764 382.375 1713.339 OPERATING PERSONNEL 138 0 1 139 87.681 0.000 0.737 88.418 o HEALTH PHYSICS PERSONNEL 29 0 129 158 13.335 0.000 97.029 110.364 SUPERVISORY PERSONNEL 44 35 352 431 12.449 14.638 400.374 427.461 ENGINEERING PERSONNEL 0 0 4 4 0.000 0.000 0.496 0.496 GRAND TOTAL 334 985 932 2249 207.665 1251.402 881.011 2340.078

• workers may be rounted in more than one category.

aspecial maintenance includes maintenance in primary containment, rectrc. pipe replacement, reactor water clean up heat exchanger mods., and condenser retube.

s Appendh D (Cont.) NUMBER OF PERSONNEL AND MAti-REM BY HORK At4D JOB FUt4CTION e. PL ANT: 'NINE MIL E POINT (BWR) 1984 T_0TAL MAN-REM $ NUMBER OF PERSONNEL (>f00 M-REM; _ STATION UTILITY C_QNLR A C T TOLAL STATIAN UTILITY CONTRACT TOTAL HORK & JOB FUNCTION EMPLOYEES E t1P t 0Y E E S & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS mat 4-REMS ttAltiTENat4CE PERSONNEL 392 10 160 65.475 0.787 8.583 R_EA C T O R OP_E_RATJ ONS 4 SURV. OPER ATIt4G PERS0 tit 4EL 293 51 148 30.154 3.204 10.209 HEALTH PHYSICS PERSONNEL 119 4 18 14.889 0.092 4.842 SUPERVISORY PER5014NEL 47 3 13 9.773 0.012 0.558 ENGIt4EERING PERS0?4 net 40 24 75 5.575 0.825 5.487 TOTAL 391 92 412 1595 125.864 4.920 29.679 160.463 l tult4TENat4CE PER50t4t4EL 485 8 314 46.041 0.258 98.822 E0011t4LMA LNT EM AttCE CPERATIt4G PERSONNEL 345 33 166 18.586 0.827 13.578 HEALTH PHYSICS PERSONNEL 85 4 15 3.769 0.021 0.942 SUPERVISORY PERSONNEL 44 0 17 2.385 0.000 4.434 ENGINEERING PERSONNEL 59 to 81 1.665 0.080 8.854 TOTAt 1018 55 595 1666 72.444 1.186 126.650 200.260 Malt 4 T ENANCE PERSorit4EL 134 1 117 7.485 0.003 52.919 LN-SERVICE _IFSPECTION CPERATIt4G PERS0t4NEL 120 3 59 3.804 0.076 23.631 HEALTH PHYSICS PERSONNEL 7 0 9 0.048 0.000 0.329 SUPERVISORY PERS0 tit 4EL 10 0 6 0.586 0.000 3.481 Ef4GINEERING PERSON?tEt 14 4 55 1.109 0.211 9.265 TOTat 285 8 224 517 15.052 0.290 89.625 102.947 tiAlt4ILt4ANCE PERSOf4t4EL 1382 5 656 145.123 0.363 57.891 }PfClAt MAINTENANCE 468 24 294 39.507 0.397 22.709 4 HEALTH PHYSICS PERSONNEL 161 0 54 24.169 0.000 4.939 C OPERATIt4G PERS0t4NEL SUPERVISORY PERSONNEL 85 0 17 5.885 0.000 1.195 ENGINEERING PERSONNEL 120 21 167 5.786 0.647 14.004 TUiAt 2216 50 1188 5454 218.475 1.407 100.838 520.720 tult4T EN'!4CE PERSONr.EL 95 2 28 6.372 0.017 1.743 RASTE PROCESSING OPERATIt4G PERSONt4EL 71 4 30 38.426 0.050 5.242 HEALTH PHYSICS PERSONNEL 45 0 11 3.205 0.000 4.021 SUPERVISORY PERSONNEL 6 0 1 0.594 0.000 0.001 ENGIt4EERING PERSONt4Et to 1 10 0.155 0.018 2.994 TOTAL 227 7 80 514 48.750 0.085 14.001 62.856 ttAINTENANCE PERS0t4NEL 81 0 24 13.972 0.000 4.692 REFUELING OPERATING PERSONNEL 55 1 12 7.280 0.015 0.239 HEALTH PHYSICS PERSONNEL 15 0 2 0.247 0.000 0.045 SUPERVISORY PER50t4NEL 16 0 1 1.352 0.000 0.020 0 0.285 0.000 0.111 E!4GINEERit4G PERSONNEL 10 0 TOTAL 177 1 48 226 23.154 0.015 5.107 28.256 MAINIEt4At4CE PERS0t4NEL 2569 26 1299 3894 284.473 1.428 224.650 510.551 TOTAL BY JOB FUNCTION OPERATING PERS0tiMEL 1352 116 709 2177 137.757 4.569 75.608 217.934 HEALTH PHYSICS PERSONNEL 432 8 109 549 46.327 0.113 15.118 61.558 SUPERVISORY PER$0t4NEL 208 3 55 266 20.573 0.012 9.789 30.374 ENGIt4EERIt4G PER$0NNEL 255 60 375 686 12.560 1.781 40.715 55.065 GRAND TOTAL 4814 213 2545 7572 501.699 7.903 565.880 875.482 hrber* - *w tie counted in more tun one category.

) Appendix D (Cont.) i j NUMBER OF PERSONt:EL AND MAN-REM BY I40RK AND JOB FUNCTION j PLANT: NORTH ANNA 1,2 (PHR) 1984 NUM5ER OF PERSONNEL D100 M-REM) IQTAL MAN-REMS STATI0t4 UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL WOSK 8 JOB FUNCTION EPPLOYEES EttPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS RK(iOR CPEkATIONS & SURV. MAlf4T E!4At4CE PER50 rat 4EL 168 47 653 16.965 1.159 31.846 OPERATING PERSONNEL 228 1 18 41.839 0.005 0.515 HEALTH PHYSICS FERSOf4NEL 54 8 183 33.457 0.100 22.128 SUPERVISORY PER$0f4NEL 46 1 9 1.568 0.002 0.092 ) ENGINEERING PERSONNEt 47 22 74 1.358 0.234 1.225 i TOTAL 543 79 937 1559 95.187 1.500 55.806 152.493 E0yTINE f*AINTENAP+CE MAINTENAt4CE PERSONNEL 158 71 737 164.002 18.365 237.755 OPERATING PERSONNEL 134 0 23 63.347 0.000 1.300 I HEALTH PHYSICS PERSONNEL 46 6 189 33.585 1.196 93.678 SUPERVISCRY PERSONt4EL 37 5 7 4.464 0.300 0.440 ENGINEERING PERSONNEL 40 22 79 3.965 0.297 6.700 j TOTAL 415 104 1035 1554 269.363 20.158 339.873 629.394 i IN-SGVICE INSP[C110N ) Malt 4TENANCE PERS0r.NEL 12 8 53 0.990 0.260 4.094 ~ CPERATING PERSONNEL 13 0 1 2.478 0.000 0.010 HEALTH PHYSICS PERSONNEL 5 1 34 0.243 0.025 1.524 i SUPERVIS'RY PERSONNEL 1 0 0 0.015 0.000 0.000 ENGINEERING PERSONt4EL 3 1 4 0.015 0.010 0.064 TOTAL 34 10 92 136 3.741 0.295 5.692 9.728 iPfCI A(_fMNI[N ANCE MAINTENAr4CE PERSON!4EL 73 19 1139 11.445 1.944 786.286 C OPERATING PERSONNEL 35 0 22 5.566 0.000 6.674 usHEALTH PHYSICS PERSONNEL 36 2 149 6.124 0.115 81.222 I SUPERVISORY PERS074NEL 11 1 16 0.616 0.008 10.684 ErGINEERING PERSONNEL 12 12 68 2.453 1.354 32.024 j TOTAL 167 34 1594 1595 26.204 3.421 916.890 946.515 'i [4ASTF PROCESSING Malt 4TENAt4CE PERS0t4NEL 54 9 122 4.425 0.246 14.316 i OPERATING PERS0 tit 4EL 34 0 5 13.085 0.000 5.916 l HEALTH PHYSICS PERSONNEL 45 0 115 18.885 0.000 14.942 SUPERVISORY PERS0t4NEL 7 0 0 1.369 0.000 0.000 ) ENGINEERING PERSONNEL 1 0 7 0.002 0.000 0.485 TOTAL 141 9 249 399 37.766 0.246 35.659 73.671 ECLVELING { MAINTENAt4CE PERSONNEL 84 28 156 31.451 13.214 26.905 OPERATING PERS0t4NEL 75 3 18 14.849 0.166 1.780 j HEALTH PHYSICS PERSONNEL 14 2 112 0.452 0.014 11.497 SUPERVISORY PERS0t4t4EL 11 3 4 1.021 0.461 0.270 ) ENGINEERING PERSONNEL 6 12 26 0.200 1.541 3.110 I TOTAL 190 48 316 554 47.973 15.396 43.562 106.931 l l 1 TOTAL _pY JOB FUNCTION t MAINItt4At4CE PERSour4EL 549 182 2860 3591 229.278 35.188 1101.202 1365.668 CPERATING PERSONNEL 519 4 87 610 141.164 0.171 16.195 157.530 .j HEALTH PHYSICS PERSONNEL 200 19 782 1001 92.746 1.450 224.991 319.187 j SUPERVISORY PERS0t4NEL 113 to 36 159 9.053 0.771 11.486 21.310 -l i ENGINEERING PERSONNEL 109 69 258 436 7.993 3.436 43.608 55.037 E GRAND TOTAL 1490 284 4023 5797 480.234 41.016 1397.482 1918.732 NN NY EMkN k't NM tMft Me Cat @y. l m-

Appendix D (Cont. ) NUMBER OF PERS0;4NEL AND MAN-REM BY WORK AND JOB FUNCTION PLANT: OCONEE 1.2.3 (PWR1 1984 NUMBER OF PERiqNNEL D100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 8 JOB FilNCTION EPPLOYEES EMPLOYEES A OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS @ (TC D PERV IONS 4 SURV. MAINTEr4At4CE PERSONNEL 202 417 126 3.050 3.650 0.915 CPERATIt4G PERSONNEL 154 1 23 45.480 0.645 1.235 HEALTH PHYSICS PERSONNEL 62 2 44 2.300 0.070 0.840 SUPERVISORY PERSONNEL 35 0 0 1.135 0.000 0.000 ENGINEERING PERSONNEL 82 27 4 11.566 0.435 0.000 TOTAL 535 447 197 1179 63.531 4.800 2.990 71.321 ROUTINE MAINTENANCE MAINTENANCE PERS0r4NEL 221 474 93 118.055 96.107 41.540 OPERATING PERSONt4EL 137 1 55 19.060 0.235 55.340 HEALTH PHYSICS PERS0t4NEL 75 2 92 35.645 0.370 37.929 SUPERVISCRY PERSCNNEL 31 0 0 4.246 0.000 0.000 ENGINEERING PERSONNEL 79 16 3 11.455 1.500 0.960 TOTAt 543 493 243 1279 188.461 98.212 135.769 422.442 IN-SDtyICE INSPECTION MAINTENAt4CE PERS0t4NEL 86 206 70 7.305 45.435 33.775 OPERATING PERSONNEL 11 0 16 0.150 0.000 0.400 HEALTH PHYSICS PERSONNEL 42 1 65 2.935 0.000 8.235 SUPERVISORY PERSONNEL 3 0 0 0.015 0.000 0.000 EPGINEERING PERSONNEL 55 4 3 11.020 0.330 1.425 TOTAL 197 211 154 562 21.425 45.765 43.835 111.025 -l iP1GlAt MAINTENANCE MAINTEt4ANCE PERS0t4NEL 195 553 134 55.480 327.620 59.905 ,0PERATING PERSONNEL 68 1 36 2.125 0.015 2.150 w HEALTH PHYSICS PERSONNEL 54 1 88 12.685 0.015 22.280

• SUPERVISORY PERSONNEL 16 0

0 0.940 0.000 0.000 ENGINEERING PERSONNEL 79 24 4 19.845 8.680 0.685 TOTAL 412 579 262 1253 91.075 536.330 85.020 512.425 klA1TE PR0lESSING MAINTENar4CE PERSONNEL 79 62 0 2.420 3.185 0.000 OPERATING PERSONNEL 60 0 50 15.045 0.000 8.400 HEALTH PHYSICS PERSONNEL 60 1 22 8.675 0.015 0.800 SUPERVISORY PERSONNEL 15 0 0 1.535 0.000 0.000 ENGINEERING PERSONNEL 25 3 0 0.830 0.440 3.000 TOTAL 239 66 72 377 28.505 3.640 9.200 41.545 ~lA NTENANCE PERS0t4NEL 125 113 38 31.450 12.135 7.675 REFUE' ING , OPERATING PERSONNEL 123 1 13 20.985 0.245 1.565 M HEALTH PHYSICS PERSONNEL 28 1 61 1.435 0.005 6.805 $UPERVISORY PERSONNEL 9 0 0 1.490 0.000 0.000 ENGINEERING PERSONNEt 34 3 1 1.940 0.195 0.120 10TAL 319 118 113 550 57.500 12.580 16.165 86.045 ~NilNTEt4ANCE PERSof4NEL 908(223) 1825(574) 461 (167) 3194 (964) 217.760 488.132 143.810 849.702 TOTALBY JOB FUNCTION OPERATING PERSONNEL 553(155) 4 (1) 193 (62) 750 (218) 102.845 1.140 69.090 173.075 HEALTH PHYSICS PERSONNEL 321 (75) 8 (2) 372 (92) 701 (169) 63.675 0.475 76.889 141.039 SUPERVISORY PERSONNEL 109 (35) 0 (0) 0 (00) 109 (35) 9.361 0.000 0.000 9.361 ENGINEERING PERSONNEL 354 (92) 7 7 (29) 15 (5) 446 (126) 56.656 11.580 3.190 71.426 GRAND TOTAL 2245(5M) 1914 (606)- 1041 (326) 520 0 i15121 450.297 501.327 292.979 1244.603 isorkers may be courited in more than one category. flumbers in pareetheses are total fiumbers of individuals.

Appendix D (Cont.) NUMBER OF PERS0!NEL AND MAN-REM BY HOIK AND JOB FUNCTION PLANT: OYSTER CREEK (BWR) 1984 NUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION OTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL WORr 4 JOB FU**CTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS REACTOR OPERATIONS & SURV. MAINTENANCE PERSQhMEL 144 31 475 18.621 5.978 30.081 OPERATING PERSONNEL 156 1 10 35.844 0.015 0.990 HEALTH PHYSICS PERSONNEL 54 0 114 6.850 0.000 18.041 SUPERVISORY PERSONNEL 41 2 0 2.278 0.055 0.000 ENGINEERING PERSONNEt 46 0 11 2.461 0.000 0.487 TOTAL 441 34 610 1085 66.054 6.048 49.599 121.701 COUTINE MAINTENANCE MAINTENANCE PEPSchNEL 209 43 1013 84.437 11.574 313.269 CPERATING PERSONNEL 218 1 37 18.122 0.045 1.706 HEALTH PHYSICS PERSONNEL 61 0 103 7.440 0.000 15.075 SUPERVISORY PERSONNEL 94 1 1 8.070 0.125 0.005 i ENGINEERING PERSONNEL 55 0 15 2.077 0.000 0.937 TOTAL 637 45 1169 1851 120.146 11.744 330.992 462.882 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 3 1 23 0.160 0.000 2.885 OPERATING PERSONNEL 3 0 1 0.350 0.000 0.015 HEALTH PHYSICS PERSONNEL 1 0 5 0.028 0.000 0.090 SUPERVISORY PERSONNEL 1 0 0 0.090 0.000 0.000 ENGINEERING PERSONNEL 0 0 1 0.000 0.000 0.055 TOTAL 8 1 30 39 0.628 0.000 3.045 3.673 L SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 194 43 1244 99.222 25.405 790.082 -' OPERATING PERSONNEL 154 1 16 39.793 0.918 6.777 tdHEALTH PHYSICS PERSONNEL 34 0 119 22.971 0.000 42.168 SUPERVISORY PERSONNEL 55 2 1 1c.199 1.778 0.073 ENGINEERING PERSONNEL 56 0 15 10.362 0.000 2.545 TOTAL 493 46 1395 1934 182.5*7 28.101 841.645 1052.293 HASTE PROCESSING MAIN 1EhANCE PERSONNEL 97 0 336 4.267 0.000 127.119 OPERATING PERSONNEL 29 0 5 0.737 0.000 0.083 PEALTH PHYSICS PERSONNEL 22 0 67 1.584 0.000 7.178 $UPERVISORY PERSONNEL 9 0 0 0.368 0.000 0.000 ENGINEERING PERSONNEL 2 0 0 0.126 0.000 0.000 TOTAL 159 0 408 567 7.082 0.000 134.380 141.462 CEFUELING MAINTENANCE PERSONNEL 96 6 175 29.080 0.220 36.225 OPERATING PERSONNEL. 61 0 5 15.748 0.c00 0.949 , HEALTH PHYSICS PERSONNEL 15 0 21 0.478 0.000 1.281 SUPERVISORY PERSONNEL 13 0 0 2.637 0.000 0.000 ENGINEERING PERSONNEL 3 0 1 0.020 0.000 0.010 TOTAL 188 6 202 396 47.963 0.220 38.465 86.648 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 743(224) 124(44) 3266 0461 4 33(ITM) 235.787 43.177 1299.661 1578.625

• OPERATING PERSONNEL 621(242) 3 0) 74 (G IMI) 110.594 0.978 10.520 122.092 698 (OMO HEALTH PHYSICS PERSONNEL 187 (67) 0 (0) 429 (142) 616 2M) 39.351 0.000 83.833 123.184

$UPERVISORY PERSONNEL 215 (97) 5 (2) 2 U) 220 23.642 1.958 0.078 25.678 162 (79 O [0) 43 (23) 201 OC2) 15.046 0.000 4.034 19.080 1926T7M]) ENGINEERING PERSONNEL 132 (47) 3814 06751 58 72 (243J1 424.420 46.113 1398.126 1868.659 GRAND TOTAL

• Wo-ters may be counted in more than one category. Esters in parentheses are total numbers of individuals.

I

_m i h pendix D (Cont.) nut 0ER OF PECSONNEL AND MAN-CEM BY 640RK AND JOB FUNCTION PLANT. PALISADES (BW9) 1984 hUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY (Ot4 TRACT TOTAL STATION UTILITY CONTRACT TOTAL WCDK & JOB FU'4CTION EMPLOYEES EMPLOYEES 6 OTHIRS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS + RE".CTOR C F._f E A TJ 0?45. & SURV. ftAIr4IEr4ANCE PERSCr4NEL 1 1 4 0.698 1.036 1.932 1 I CPERATI?4G PERSCi4MEL 26 0 0 15.950 0.000 0.008 NEALTH PHYSICS PER50!4NEL 35 11 51 17.101 4.049 30.572 SUPERVISORY PERSO!4NEL 0 0 0 0.299 0.014 0.000 f ENGINEERING PERSONNEt 1 2 ft 0.551 1.280 0.000 TOTAL 63 14 55 132 34.599 6.379 32.512 73.490 ROUTINE t'AltiTf4ANCE a t:Alr4T E na:4CE PERS0!4NEL 50 38 27 30.407 31.146 12.872 i CPERATING PERSOf4NEL 7 0 0 4.190 0.000 0.000 ) HEALTH FHYSICS PERSONNEL 5 1 7 2.228 0.528 3.985 i SUPERVISCRY PERSC'4NEL 0 0 0 0.053 0.121 0.000 i ENGW3%I'4G PERSONNEL 1 4 0 0.507 3.332 0.000 IOTAL 63 43 34 140 37.385 35.127 16.857 89.369 l DadE#VICE INSPEC110*8 ttAINT EMataCE PERS0te:4EL 0 1 13 0.257 0.618 6.249 OPERATING PER$0!4NEL 11 0 0 6.707 0.000 0.003 HEALTH PHYSICS PERSONNEL 0 0 0 C.165 0.039 0.296 SUPERVISORY PERSON!4EL 1 0 0 0.496 0.103 0.021 ENGINEERING PERSON'4Et 7 40 0 4.305 32.593 0.163 a TOTAL 19 41 13 73 11.950 33.353 6.732 52.015 R ECIAt MAINTINANCE ) ttAINT Et4Ar4CE PERSO!4NEL 38 13 310 23.024 11.069 146.515 -OPERATING PERSGur4EL 17 0 0 10.261 0.000 0.004 l ? $ HEALTH PHYSICS PERSCt4NEL 12 4 18 6.002 1.421 10.729 d I SUPERVISORY PERSO!4t4EL 0 1 0 0.087 0.572 0.000 ENCINEERING PERSO'4NEL 6 29 0 3.585 23.545 0.000 TOTAL 73 47 328 448 42.959 36.607 157.248 236.814 l i r j tta_STE PROCE_SS_ING tialt4TEt4ANCE PER50f4NEL 23 0 4 13.977 0.000 2.007 OPERATING PERSONNEL 8 0 0 4.860 0.000 0.000 HEALTH PHYSICS PERSONNEL 5 2 8 2.711 0.642 4.847 SUPERVISORY PERS0!4NEL 0 0 0 0.089 0.000 0.000 i E'? git 4E.1 DING PERSON?4Et 0 0 0 0.032 0.211 0.000 1 TOTAL 3o 2 12 50 21.669 0.853 6.854 29.376 4 4 REFUEt_ING F1 Alt 4T ENA!4CE PERSONNEL 29 20 0 17.694 16.778 0.000 CPERATIt4G PERSOf4?4EL 6 0 0 3.819 0.000 0.002 HEALTH PHYSICS PERSCt4NEL 1 0 1 0.254 0.060 0.453 SUPERVISORY PERSONNEL 1 0 0 0.715 0.035 0.000 f LNGINEERING PERS0ti!4Et 3 9 0 1.582 7.335 0.000 TOTAL 40 29 1 70 24.064 24.208 0.455 48.727 1 10TAL BY JOB FUNCTIOf8 Malt 4TENANCE PERSONNEL 141 73 358 572 86.057 60.647 169.575 316.279 OPERATING PERS0t4NEL 75 0 0 75 45.787 0.000 0.017 45.804 HEALTH PHYSICS PERSONNEL 58 18 85 161 28.461 6.739 50.882 86.082 SUPERVISORY PERSONNEL 2 1 0 3 1.739 0.845 0.021 2.605 I Et4 git 4EERING PERSONNEL 18 84 0 102 10.562 68.296 0.163 79.021 l GRAND TOTAL 294 176 443 913 172.606 136.527 220.658 529.791 morters may be counted in store than one category.

4pendix D (Cont.) NUMBER OF PERSON %El AND MAN-REM BY HO'K AND JOB FUNCTION PLANT: PEACM BOTTOM 2.3 (BNR) 1984 t4 UMBER OF PERSONNEL (>100 M-REE TOTAL MAN-REMS ST A TIQ*4 UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL CM i JOB FP4CTION Et'PLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS R QQTCR CPE4 ? IONS & SURY. t' Alt 4 T Enat C PERSG:.'4EL 2 163 472 0.371 16.765 33.010 OP ER A T ING -P Eks004EL 71 26 129 39.540 2.357 19.304 HEALTH PHYSICS PERSONNEL 66 25 87 37.021 1.934 29.884 SUPERJISORY PERSONt4EL 1 4 5 0.095 0.104 0.203 ENGINEERING PERSONNEL 64 14 23 30.514 2.061 4.537 TOTAL 204 232 716 1152 107.541 23.201 86.938 217.680 RHU_T LN E_f*1_INTf M ANC E MAltaiE!4ANCE PERSCt.NEL 9 611 1728 0.812 228.742 1510.163 OPERATIt4G PERSONNEL 45 24 159 3.063 1.437 41.725 HEALTH PHYSICS PERSONNEL 48 8 122 9.188 0.423 114.560 SUPERVISORY PERS0t4NEL 0 4 5 0.000 0.106 0.089 ENGINEERLNG PERSONNEL 27 40 30 2.307 5.033 10.148 10 tat 129 687 2044 2860 15.370 235.741 1676.683 1927.794 LM-SERVICE INSPESTION MAINT Er4Ar4CE PERSCtet4EL 0 7 123 0.000 0.261 21.802 OPERATING PERSCt4NEL 1 0 0 0.017 0.000 0.000 HEALTH PHYSICS PERSONt4EL 0 0 5 0.000 0.000 0.309 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PgR$0t4NEL 0 1 2 0.000 0.048 0.385 TOTAL 1 8 130 139 0.017 0.30" 22.496 22.822 iPEC_l A L_MA INT EN ANCE MAINIENA!4CE PERSONNEL 0 8 329 0.000 0.162 124.872 [CPERATIt4G PERS0t4NEL 1 0 25 0.056 0.000 6.245 <> HEALTH PHYSICS PERSONNEL 1 0 5 0.018 0.000 0.119 SUPERVISORY PERSONt4EL 0 2 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 4 0 3 0.092 0.060 2.497 TOTAL p_ 10 362 378 0.166 0.222 133.733 134.121 14ASTE PROCESjlNG ttAltiiENat4CE PERSONNEL 0 26 210 0.000 1.024 18.418 OPERATING PERSONNEL 4 1 13 2.325 0.004 0.677 HEALTH PHYSICS PERSONNEL 5 3 21 0.777 0.080 1.614 SUPERVISORY PERSONf4EL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 1 4 4 0.010 0.110 0.37,5 TOTAL 10 34 248 292 3.112 1.218 21.032 25.362 _Rl[_U_ Et_ING ttAINT Et4ANCE PERSON 4EL 0 44 209 0.000 3.576 33.563 OPERATING PERSONNEL 6 1 7 0.522 0.020 0.310 HEALTH PHYSICS PERSONNEL to 1 21 0.642 0.042 3.212 SUPERVISORY PERSONNEL 0 1 0 0.000 0.031 0.000 ENGINEERING PERSONNEL 0 3 2 0.000 0.057 0.131 TOTAL 16 50 239 305 1.164 3.726 37.216 42.106 TOT AL_BY JOS FUNCTION MAINTENANCE PERSC!4NEL 11 (9) 859(639) 3071(1901) 3941(2549) 1.183 250.530 1741.828 1993.541 OPERATING PERSONNEL 128 (83) 5 2 (42) 333 (230) 513 (355) 45.523 3.798 68.259 117.580 HEAL TH PHYSICS PERSONNEL 130 (70) 3 7 (28) 261 (138) 428 (236) 47.646 2.479 149.698 199.823 SUPERVISORY PERS0 tat 4EL 1 (1) 11 (8) 10 (8) 22 (17) C.095 0.241 0.292 0.628 i ENGINEERING PERSONNEL 96 167) 6 U45) 64 14R 222 {l54} 32.923 7.369 18.021 58.313 ORAND TOTAL 366 f 2rl 1021 Uf?T 3739 (2319) 5126(3311) 127.370 264.417 1978.098 2369.885 hrten may be coeted in mre than one category. Rweers in parentheses are total numbers of individuals.

Appendix D (Cont.) e CUMBER OF PEOSONNEL A%D MA:3-EEM BY b40RK ACD JOB FUNCTID3 PLANT: PItCRIM (BWR) 1984 i t4 UMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HCRK 8 JDB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAH-REMS RflC1OR_0PEEATIC?45 & SURV. MAINTENAt4CE PERSot4NEL 131 11 2570 25.700 1.275 438.885 OPERATIf4G PERSONNEL 70 0 46 21.890 0.000 4.435 HEALTH PHYSICS PERSONNEL 59 0 203 10.005 0.000 77.665 SUPERVISORY PERSONNEL 75 59 87 8.135 3.045 13.230 j ENGINEERING PERSONNEt 42 24 243 2.815 1.190 20.790 TOTAL 377 94 3149 3620 68.545 5.510 555.005 629.060 R OUTINLt'AI NT EN ANCE MAINT Ef4ANCE PERSONNEL 98 7 2030 74.060 4.190 727.765 OPERATING PERS0?4NEL 50 0 20 37.215 0.000 2.760 HEALTH PHYSICS PERSONNEL 35 0 172 8.960 0.000 122.705 SUPERVISORY PERSONNEL 42 20 52 10.810 2.010 12.060 1 EPcGINEERING PERSONNEL 27 15 163 3.825 3.445 46.005 TOTAL 252 42 2437 2731 134.870 9.645 911.295 1055.810 IN-SERVICE INSPECTION MAIr4TENANCE PERSor4NEL 35 0 531 1.465 0.000 67.280 crtRATING PERSONNEL 33 0 11 2.850 0.000 2.140 MEALTH PHYSICS PERSONNEL 4 0 81 0.420 0.000 9.520 SUPERVISORY PERSONNEL 1 0 19 0.240 0.000 4.010 ENGINEERING PERSONNEL 24 0 70 3.025 0.000 11.315 TOTAL 97 0 712 809 8.000 0.000 94.265 102.265 SPECIAL MAINTENANCE MAINTENANCE PERSONt4EL 62 1 1769 11.650 0.155 1915.945 Z OPERATING PERSONNEL 40 0 15 4.485 0.000 9.435 ) HEALTH PHYSICS PERSONNEL 20 0 122 2.265 0.000 16.C15 SUPERVISORY PERSONNEL 27 12 57 5.190 1.350 40.035 ENGINEERING PERSONNEL 26 9 152 2.450 2.410 51.470 TOTAL 175 22 2115 2312 26.040 3.895 2032.900 2062.835 l HASTE PROCESSING 1 MAINTEHar4CE PERSONNEL 40 0 274 5.380 0.000 32.895 OPERATING PERSONNEL 8 0 2 5.995 0.000 0.700 HEALTH PHYSICS PERSONNEL 21 0 78 2.405 0.000 16.525 SUPERVISORY PERSONNEL 5 0 6 0.675 0.000 3.055 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 74 0 360 434 14.455 0.000 53.175 67.650 Rfft}EL ING Malt 4TENANCE PERSONNEL 44 0 187 27.900 0.000 8.965 ,CPERATING PERSLNNEL 28 0 0 2.245 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 47 0.000 0.000 4.495 $UPERVISORY PERSONNEL 14 0 0 4.795 0.000 0.000 ENGINEERING PERSONNEL 3 0 1 0.290 0.000 0.100 TOTAL 89 0 235 324 35.230 0.000 13.560 48.790 I 10TAL BY JOB FUNCTION MAINTENAt4CE PERSONNEL 410(126) 19(11) 7361(2542) 7790 (2679) 146.155 5.620 3191.735 3343.510

• OPERATING PERSCNNEL 229 (66) 0 (0) 94 (48) 323 (114) 74.680 0.000 19.470 94.150 1

HEALTH PHYSICS PERSONNEL 139 (57) 0 (0) 703 (191) 842 (248) 24.055 0.000 246.925 270.980 l SUPERVISORY PERSONNEL 164 (73) 91 (62) 221 (94) 476 (229) 29.845 6.385 72.390 108.620 ENGINEERING PERSONNEL 122 (45) 4 8 (24) 629 (253) GRAND TOTAL 1064 f 367) 158I97] 9008(3129) 10230 0(92)) 799 322 12.405 7.045 129.680 149.130 287.140 19.050 3660.200 3966.390 hrtersmaybecountedinmorethanonecategory. Ikseers in parentheses are total ntseers of individuals.

• WiC mandated work. including torus mods.. TM! mods.. scram discharge volume. IGSCC ISI. pipe hangers and bolts, and equipment qualifications, contributed 501.5 man-rems

i Appendix D (cont.) Pian /Polst Beects 1,2 (PWI) NUMBER OF PERSONNEL AND MAN-REM CY WORK AND JOS FUNCTION 1984 I feUMSER OF PE RsO4NEL (>100 nwenil TOTAL MAM REMS 3 STatsOmi UTILaTV COssTRACT TOTAL STATIOmi UTILITY COnlTRACT TOTAL gg g EnsPLOVEES EasPtovEES & OTHE RS PE RSOsas EasPLOVEES EnsPLOVEES & OTHE RS asAm REns Rememw operacoes a sinv. j [ Mane Permannes O _ mn ] __ Oraraone Pam-se J _560 4 __Hess* Phvecs_Parinaams _L s.ortw 55.430 P 4 j _ _ E*m Pwinanas 7,300 0.000 i TOTAL i 111.890 1.250 113_143-i ~Rautas eemnt-aammesamumperiannes 44.070 i [Mi@~ 1 0.000 _Hesse Phyiss Pwiannes 0.000 1 2, Personnse 0.000 j Enasneernes Perinanas 0 000 TOTAL i i 44.070 0.000 44.070 i j se servce - _ w I _ " E a Periannes i __Operanae Periaaans 6.080 Hess* Phymes Periannes 13J40 i ) _* d+3 erianass . 0,000 P 4.560 Eapasenne Periannes 1.220 TOTAL i 25.500 42.330 68.130 w% mennemiss== Periannes 60.865 Ossramas Pw3annes 0.000 Hasse P5=cs Personnes 0.000 5 ~*...--., Periannes 0.000 Tassisernes Permannes ) 0.000 TOTAL i 60.865 '352.590 413.455 2 Vuesw..-- j eeanimaance Personnes 0.000 ~Operanne G 17.830 ~ 5 ~ 1 I __H_ amem Ph Periannes 3.400 l e. -, Personnes 0.000 -Enymoursio Periannes 0.000 EUIAL u. 21 23] 1 30.300 51.530 = _anmasenaswa Periannes u i _ Ors'*aaLe_r_s_ nnes ,,,,_ 3 L i23 P o _L_880 4 _Ha** Ph_rs=Lw3annes o gao P { _Enynserene Permannes P*N"' ass 0.320 --1 I l_.490 { ru1AL 46.040 0.I90 46.830 j ~Totas By Jean Funciman I _namnes nc.__Personnus 116 147.535 j _operaeng Periannes 75 _.JZ,210 Hede Phyucs_Pwsonass_ 29 59J60 ___*m _, Pw annes 23 7.780 _Enonsorene Periannes 4 7 71n GAAhD TOT AL 244 540 724 309.895 "4??_260 717.1 % Incitades 246 reses from the stema generator replacement in Unit 1. 1 ,-n-s-n

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i Appendix D (cont.) i T. NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION PLANT: QUAD CITIES 1.2 (BWR) 1984 hUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY EONTRACT TOTAL STATION UTILITY CorYRACT TOTAL HOGK 4 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPL OYEES EMPLOYEES & OTHERS MAN-REHS ELAC_lgR OPEEATIQNS & SURV. MAINTENANCE PERSONNEL 21 1 25 29.725 0.037 17.544 1 OPERATING PERSOf.NEL 42 0 1 36.968 0.000 0.003 HEALTH PHYSICS PERSONNEL 9 0 7 9.279 0.000 3.603 SUPERVISORY PERSONNEL 27 0 0 13.121 0.000 0.000 ENGINEERING PERSONNEL 9 76 7 3.567 1.522 2.192 TOTAL 108 77 40 225 92.660 1.559 23.342 117.561 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 94 27 223 131.010 7.011 155.127 ] OPERATING PERSONNEL 49 0 7 43.041 0.000 0.132 HEALTH PHYSICS PERSONNEL 16 0 2 17.071 0.000 0.832 SUPERVISORY PERSONNEL 69 0 0 33.630 0.000 0.000 EhGINEERING PERSONNEL 23 58 15 9.215 1.162 4.465 TOTAL 251 85 247 583 233.967 8.173 160.556 402.696 IN-SERVICE INSPECTION i MAlhlENANCE PERSONNE8 5 1 533 6.055 0.260 372.121 CPERATING PERSONNEL 4 0 2 3.238 0.000 0.027 i HEALTH PHYSICS PERSONNEL 6 0 0 5.998 0.000 0.000 SUPERVISORY PERSONNEL 3 0 0 1.465 0.000 0.000 ENGINEERING PERSONNEL 20 75 177 7.966 1.497 54.235 TOTAL 38 76 712 826 24.722 1.757 426.383 452.862 1 a SPECIAL MAINTENANCE I J MAINTENANCE PER;SNNEL 3 42 540 3.854 11.289 375.815 l ][0PERATING PERSONNEL 4 0 38 3.508 0.000 0.664 j csHEALTH PHYSICS PERSONNEL 8 0 55 8.356 0.000 26.365 SUPERVISORY PERSONNEL 4 0 0 1.720 0.000 0.000 6 ENGINEERING PERSONNEL 22 3 66 8.948 0.059 20.298 TOTAt 41 45 699 785 26.386 11.348 423.142 460.876 i HASTE PROCESSING l MAINTENANCE PERSONNEL 0 0 3 0.000 0.000 1.847 i OPERATING PERSONNEL 44 0 1 39.262 0.000 0.014 HEALTH PHYSICS PERSONNEL 6 0 0 6.152 0.000 0.000 SUPERVISORY PERSONNEL 17 0 0 8.153 0.000 0.000 l ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 67 0 4 71 53.567 0.000 1.861 55.428 TOTAL REFUELING s MAINIENANCE PERSONNEL 9 0 2 12.844 0.000 0.923 i ] OPERATING PERSONNEL 10 0 0 8.905 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 0 4.409 0.000 0.000 i SUPERVISORY PERSONNEL 11 0 0 5.605 0.000 0.000 d ENGINEERING PERSONNEL 1 0 0 0.029 0.000 0.000 TOTAL 35 0 2 37 31.792 0.000 0.923 32.715 TOTAL BY JOB FUNCTION l MAINltNANCE PERSONNEL 132 71 1326 1529 183.488 18.597 923.377 1125.462 l-HEALTH PHYSICS PERSONNEL 49 0 64 113 51.265 0.000 30.800 82.065 OPERATING PERSONNEL 153 0 49 202 134.922 0.000 c.840 135.762 i s'JPERVISORY PERSONNEL 131 0 0 131 63.694 0.000 0.000 63.694 ENGINEERING PERSONNEL 75 212 265 552 29.725 4.240 81.190 115.155 GR AND TOT AL 540 283 1704 2527 463.094 22.837 1036.207 1522.138

• MC maMated special maintemce contributed 461 man-rems.

1 b 1

i NUM3ER OF PERSONNEL AND MAN-REM BY NOIK AND JOB FUNCTION PLANT:*0ANCH3 SECO (PWR) 1984 NUMBER OF PERSONNEL (>100 M-RQ1)1 TOTAL MAN-REMS STATICN UTILITY C Qf* T R A C T TOTAL STATION UTILITY CONTRACT TOTAL HCor 8 JOB FUNLTICN EriPt o f E E S EPPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS R[*QgLQtfRATIONS & SURV. MAI!4T Er.at4CE PER50t4NEL 65 0 140 10.240 0.000 2.910 CPERATING PERSONNEL 105 0 144 21.855 0.000 0.260 MEALTH PHYSICS PERSCHNEL 34 0 49 4.745 0.000 17.365 a SUPERVISORY PERS0r4NEL 30 5 43 0.260 0.005 1.190 ? EteGINEERTrar. PERSON'3EL 106 4 188 4.555 0.060 2.675 I TOTAL 341 9 564 914 41.655 0.065 24.400 66.12 L 4 EC'LTJt.JE FAINTfM ANCE Malt 4IENar4CE PER50!4NEL 35 0 63 13.010 0.000 8.680 OPERATIt.G PERSONNEL 1 0 1 0.720 0.000 0.095 i HEALTH PnYSICS PERSONNEL 1 0 1 0.700 0.000 0.740 1 SUPERVISORY PERSONNEL 1 0 2 0.145 0.000 0.110 ENGINEERIN_G PERSONNEL 9 0 to 1.540 0.000 0.530 TOTAL 47 0 77 124 16.115 0.000 10.155 26.270 ) J IN-SERVICE INSPECTIO's MAINTENA.CE PERSONNEL 11 0 47 6.340 0.000 22.090 CPERATING PERSCNNEL 0 0 1 0.060 0.000 0.410 I MEALTH PHYSICS PERSONNEL 0 0 0 0.275 0.000 0.310 i SUPERVISCRY PERSONNEL 0 0 4 0.000 0.000 0.120 ENGINEERING PERSONNEL 11 0 17 4.965 0.000 4.370 TOTAL 22 0 69 91 11.640 0.000 27.300 38.940 iPECIAt_MA.lNTENANCE Malt 4TEr4ANCE PER$0t4NEL 23 0 54 9.640 0.000 19.995 j I CPERATING PERSCNNEL 2 0 0 1.135 0.000 0.000

• HEALTH PHYSICS PERSONNEL 0

0 1 0.595 0.000 2.470 SUPERVISORY PERSONNEL 1 0 6 0.035 0.000 4.100 ] ENGINEERi!4G PE950e net 6 0 7 1.545 0.000 1.265 l 10iAL 32 0 68 100 12.750 0.000 27.830 40.580 3 iM JE PROCESJING MAINTENANCE PERSONNEL 14 0 34 5.175 0.000 10.070 'l OPERATING PERSONNEL 0 0 0 0.345 0.000 0.000 HEALTH PHYSICS PERSONNEL 12 0 8 8.865 0.000 4.550 SUPERVISORY PERSONNEL 1 0 0 0.070 0.000 0.105 ENGINEERING PERSONNEL 1 0 0 0.160 0.000 0.240 TOTAL 28 0 42 70 14.615 0.000 14.965 29.580 l RE FUELING MAINTEr4ANCE PERSONNEL 1 0 0 0 065 0 000 0.000

• CPERATING PERSONNEL 1

0 0 0.410 .000 0'010 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.00 O'000 0 005 l. g.yy0 0$000 SUPERVISCRY PERSCNNEL 0 0 0 0 ENGINEERIttr ERSONNEt 4 0 570 0 000 0.015 0.585 TOTA [ BY JOB FU_NCTION MAINTEr4Ar4CE PERSONNEL 150 0 338 488 44.470 0.000 63.745 108.215 1, ,CPERATING PERSONNEL 109 0 146 255 24.525 0.000 0.775 25.300 . HEALTH PHYSICS PERSONNEL 47 0 59 106 15.180 0.000 25.435 40.615 $UPERVISCRY PERSONNEL 33 5 55 93 0.510 0.005 5.630 6.145 ENGINEERING PERSONNEL 135 4 222 361 12.660 0.060 9.080 21.800 ORAND TOTAL 474 9 820 1503 97.545 0.065 104.665 202.075 j l hrten may be counted in more than one category. l

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT: ROBINSON 2 (PHR) 1934 NUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATIO*4 UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL WOG( 3 JOB FUNCTION EMPLOYEES EMPLOYEES 4 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS RUCTC& OPEEATIONS & SURW. MAINT Er4At4CE PERS0t4NEL 16 4 70 6.373 1.340 36.801 OPERATING PERS0t4t4EL 19 1 0 9.582 0.245 0.000 HEALTH PHYSICS PERSONNEL 20 0 59 14.678 0.000 66.125 SUPERVISORY PERSONNEL 1 0 0 0.995 0.000 0.000 ENGINEERING PERSONNEL 25 15 158 7.51 5 6.990 81.387 TOTAL 81 20 287 388 39.143 8.575 184.313 232.031 ROUTINE MAINTENANCE MAINTENANCE PERSOf4t4EL 22 21 17 17.056 11.680 28.567 CPERATING PERSONNEL 2 0 0 0.670 0.000 0.000 HEALTH PHYSICS PERSONNEL 3 0 6 2.565 0.000 4.640 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 5 1 14 1.628 0.200 7.710 TOTAL 32 22 37 91 21.919 11.880 40.917 74.716 LN_-51RVICE INSPECTI0t! MAINT Et4A!4CE PERSOf4NEL 4 0 67 1.150 0.000 75.641 OPERATIt4G PERSONNEL 0 0 0 0.025 0.000 0.000 HEALTH PHYSICS PERSONNEL 1 0 14 1.025 0.000 15.850 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 18 0 38 5.696 0.025 37.840 TOTAL 23 0 119 142 7.896 0.025 129.331 137.252 LPlClAt MAINTENANCE MAINT Et4A!4CE PERS0taf4EL 129 38 1463 96.285 39.630 1870.446 % OPERATIt4G PERSONNEL 15 0 0 7.515 0.000 0.000 u1 HEALTH PHYSICS PERSONNEL 45 1 148 34.246 0.250 172.920 SUPERVISORY PERS0*4NEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 51 11 309 15.782 4.860 554.678 TOTAL 240 50 1920 2210 153.828 44.740 2598.044 2796.612 tplTE PROCESSit4G MAINT Ef4At4CE PERS0teNEL 6 6 2 5.785 2.575 0.575 OPERATING PERSONt4EL 27 0 0 14.373 0.000 0.000 WEALTH PHYSICS PERSONNEL 4 0 2 - 2.775 0.000 1.185 SUPERVISORY PERSONt4EL 0 0 0 0.000 0.000 0.000 ENGINEERING PERS0Nt4Et 0 0 0 0.025 0.000 0.000 TOTAL 37 6 4 47 22.958 2.575 1.760 27.293 REFUELJNG MAINTEt4At4CE PERSout4EL 41 29 52 39.500 30.675 45.526 ,CPERATING PERSONNEL 7 0 0 3.600 0.080 0.000 HEALTH PHYSICS PERSONNEL 2 0 5 1.835 0.000 3.775 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 9 2 21 2.600 0.450 12.225 TOTAL 59 31 78 168 47.555 31.205 61.526 140.266 TOTALRY J05 FUNCTION MAINTEt4At4CE PERSONNEL 218 98 1671 1987 166.149 85.900 2057.556 2309.605

• OPERATING PERSONNEL 70 1

0 71 35.765 0.325 0.000 36.090 HEALTH PHYSICS PERSONNEL 75 1 234 310 57.124 0.250 264.495 321.869 SUPERVISORY PERS0t4NEL 1 0 0 1 0.995 0.000 0.000 0.995 ENGINEERING PERSONNEL 108 29 540 677 33.246 12.525 693.840 739.611 GR At4D TOT AL 472 129 2445 3046 293.279 99.000 3015.891 3408.170 $ sorters may be counted in sere than one category. l

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Appendix D (Cont.) e9 a NUMBE:t OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANTr SALEM 1 (PWR) 1984 i NUMBER OF PERSONNEt (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRAC I TOTAL STATION UTILITY CONTRACT TOTAL HORIC 8 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHEPS PERSONS EMPLOYEES EMPL OYEES 8 OTHERS MAN-REMS 1 Pft.CIOR OPERATIONS & SURV. MAlf4TENANCE PERSONt4EL 2 0 0 1.712 0.020 0.375 OPERATING PERSONNEL 0 0 0 1.820 0.041 0.000 HEALTH PHYSICS PERSONNEL 0 0 5 0.284 0.000 1.984 $UPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.090 0.115 0.080 TOTAL 2 0 5 7 3.906 0.176 2.439 6.521 ELomNE MAltLT1 NANCE j MAINTENANCE PERSONt4EL 7 0 4 4.370 0.000 4.874 I OPERATING PERSONNEL 0 0 0 0.180 0.000 0.000 l HEALTH PHYSICS PERSONNEL 0 0 2 0.315 0.000 1.880 i SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.130 ENGINEERING PERSONNEL 0 0 0 0.000 0.138 0.000 TOTAL 7 0 6 13 4.865 0.138 6.884 11.887 LN-SERVICE INSPfCTION MAINTENANCE PERS0t4NEL 0 0 8 0.255 0.035 2.295 OPERATING PERSONNEL 0 1 0 0.078 0.290 0.000 HEALTH PHYSICS PERSONNEL 0 0 1 0.023 0.000 0.265 SUPERVISORY PERSONNEL 0 1 0 0.000 0.165 0.045 ENGINEERING PERSONNEL 0 1 0 0.000 0.280 0.020 TOTAL 0 3 9 12 0.354 0.770 2.625 3.749 1P. LCLAL MAIN 11N A!!CE MAINTEt4ANCE PERSONNEL 142 10 174 59.500 4.795 69.336

i O

" 0PERATING PERSONNEL 2 1 0 0.635 0.520 0.000 C HEALTH PHYSICS PERSONNEL 0 0 44 0.432 0.010 14.175 { SUPERVISORY PERSONNEL 0 0 4 0.000 0.030 1.205 i ENGINEERING PERSONNEL 0 5 0 0.075 0.920 0.000 TOTAL 144 16 222 382 60.642 6.275 84.716 151.633 HASTE PROCESSING MAINTENANCE PERSONNEL 4 0 7 1.025 0.000 2.860 OPERATING PERSONNEL 0 0 0 0.000 0.015 0.000 i HEALTH PHYSICS PERSONNEL 0 0 0 0.040 0.000 0.510 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.055 ENGINEERING PERSONNEL 0 0 0 0.012 0.015 0.000 TOTAL 4 0 7 11 1.077 0.030 3.425 4.532 1 R EFUEt ING Malt 41ENANCE PERSOHt.EL 409 11 749 120.284 3.430 300.399 1 OPERATING PERSONNEL 62 2 0 22.521 0.844 0.035 i HEALTH PHYSICS PERSONNEL 11 0 317 5.087 0.130 115.380 i SUPERVISORY PERSONNEL 0 1 19 0.000 0.275 8.861 4 ENGINEERING PERSONNEL 0 18 4 0.100 7.066 1.393 TOTAL 482 32 1089 1603 147.992 11.745 425.768 585.505 i 10TAL BY JOB FUNCTION MAINTENANCE PERSONNEL 564 21 942 1527 187.144 8.280 380.139 575.563 OPERATING PERSONNEL 64 4 0 68 25.234 1.710 0.035 26.979 r HEALTH PHYSICS PERSONNEL 11 0 369 380 6.181 0.140 134.194 140.515 SUPERVISORY PERSONNEL 0 2 23 25 0.000 0.470 10.296 10.766 ENGINEERING PERSONNEL 0 24 4 28 0.277 8.534 1.193 10.004 3 i GRAND TOTAL 639 51 1338 2028 218.836 19.134 525.857 763.827

• Workers may be counted In more than one category.
  • Eucludes work comon to both units. Salem I and 2.

0ose incruued during various maintenance and special maintenance activities while Salem I was refueling was attributed to the refueling work function.

Appendix 0 (cont.) NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION j ++ a PLANT: ' SALEM 2 (PHR) 1984 TOTAL MAN-REMS t4 UMBER OF PERSONNEL (>10J M-REJ11 _ STATION UTIt ITY CotTRACT TOTAL STATION UTILITY CONTRACT TOTAL l I WOQX & JOB FUNCTION EMPLOYEES EMPLOYEES 4 CTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS i RIAC10R OPERA HONS & SURV. MAINT Et4AriCE PERS0 tit 4EL 2 0 0 2.431 0.030 0.514 j OPERATING PERSONt4EL 0 0 0 1.354 0.030 0.000 4 HEALTH PHYSICS PERSONNEL 2 0 0 1.469 0.000 1.082 ) SUPERVISORY PERSONf4EL 0 0 0 0.000 0.010 0.025 Et4GINEERU4G PERSONNEL 0 0 0 0.025 0.141 0.105 TOTAL 4 0 0 4 5.279 0.211 1.726 7.216 ROUTINE MAINTJNANC.E j Malt 41Et4At4CE PERS0 tit 4EL 29 1 60 11.898 0.495 23.648 ) OPERATIf4G PERSONNEL 1 0 0 0.595 0.165 0.050 HEALTH PHYSICS PERSONt4EL 5 0 4 3.120 0.000 3.240 i SUPERVISORY PERS0t4NEL 0 0 5 0.015 0.010 2.102 i ENGIt4EERIt4G PERSONNEL 0 1 0 0.125 0.482 0.050 l TOTAL 35 2 69 106 15.753 1.152 29.090 45.995 LN-3ERVICfLINSP1C110N l 81 Alt 41 Et4At4CE PERSot4t4EL 0 0 11 0.025 0.015 2.799 OPERATING PERS0t4NEL 0 0 0 0.029 0.045 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.216 0.000 0.045 SUPERVISORY PERSONNEL 0 0 1 0.000 0.055 0.304 I ENGINEERING PERSONNEL 0 0 0 0.000 0.090 0.040 TOTAL 0 0 12 12 0.270 0.205 3.188 3.663 i } iPLCI A L_t1AINTf N ANC E Malt 4I Et4At4CE PERSut4t4EL 11 0 124 5.964 0.320 44.272 l ,0PERATING PERSONNEL 1 2 0 1.917 0.150 0.050 i A NEALTH PHYSICS PERSONNEL 14 0 21 5.035 0.000 7.602

• SUPERVISORY PERSONt4EL 0

0 0 0.000 0.065 1.026 i ENGINEERING PERSONNEL 3 0 3 1.010 0.302 0.040 TOTAL 29 2 148 179 13.926 0.837 52.990 67.753 Malt 4T Et4At4CE PERS0t4NEL 0 0 0 0.010 0.000 0.125 i tiASIL P R0_ CESSING l' OPERATIt4G PERSONNEL 0 0 0 0.060 0.000 0.000 HEALTH PHYSICS PERS0t4NEL 0 0 2 0.000 0.000 1.880 I SUPERVISORY FERSONNEL 0 0 0 0.000 0.000 0.000 ENGIt4EERING PERSONt4EL 0 0 0 0.000 0.010 0.000 TOTAL 0 0 2 2 0.070 0.010 2.005 2.085 r1 Alt 4IENAt4CE PER$0NT4EL 9 0 18 4.555 0.025 6.939 RJ FUE L It4G OPERATING PERSONNEL 0 0 0 0.140 0.020 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.609 0.000 1.085 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.295 f ENGIt4EERIt4G PERSONt4EL 0 0 0 0.000 0.065 0.000 TOTAL 9 0 18 27 5.304 0.110 8.319 13.733 Malt 4T Et4At4CE PERSONNEL 51 1 213 265 24.883 0.885 78.297 104.065 _ TOTAL _BY JOB FUNCHON 4 OPERATIt4G PERSONT4EL 2 2 0 4 4.095 0.410 0.100 4.605 l HEALTH PHYSICS PERSONNEL 21 0 27 48 10.449 0.000 14.934 25.383 SUPERVISORY PERSONNEL 0 0 6 6 0.015 0.140 3.752 3.907 l ENGINEERING PERSONNEL 3 1 3 7 1.160 1.090 0.235 2.485 i GRAt4D TOTAL 77 4 249 330 40.602 2.525 97.318 140.445 Workers may be counted in more than one category.

• Excludes work corunon to botn units. Salem I and 2.

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REP 1 BY WORK AND JOB FUNCTION PLANT:, SAN OMOFRE 1 (PWR) 1984 NUMBER OF PERSONNEL D100 M-REM) TOTAL MAN-REMS j STATION UTILITY C O *1 T R A C T TOTAL STATION UTILITY CONTRACT TOTAL l _JLORK 4 JOB FUNCTION EMPLOYEES EMPLOYEES & DTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS RfACTOR OPERATJ.ONS & SURV. MAINTEt4At4CE PERSot4NEL 2 1 43 0.148 0.012 2.551 OPERATING PERS0t4NEL 22 1 0 13.283 0.153 0.000 4 HEALTH PHYSICS PERSONNEL 20 1 38 12.546 0.553 16.718 i SUPERVISORY PERSONNEL 0 0 4 0.000 0.000 0.352 { ENGINEERING PERSONNEL 12 9 117 1.644 0.492 8.451 TOTAL 56 12 202 270 27.621 1.210 28.072 S6.903 1 ROUTINE MAINTENANCE P1AINTENAt4CE PERSONNEL 27 4 466 13.787 0.704 65.853 OPERATING PERSONNEL 4 0 1 0.118 0.000 0.101 HEALTH PHYSICS PERSONNEL 21 2 116 2.746 1.233 29.135 l' SUPERVISORY PERSONNEL 0 0 to 0.000 0.000 1.138 j ENGINEERING PERSONNEL 20 11 216 7.386 2.679 30.474 TOTAL 72 17 809 898 24.037 4.616 126.701 155.354 i j IN-SERVICE INSPECTION I MAINTENANCE PERSONNEL 7 0 11 0.268 0.000 6.~050 1 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 1 0.000 0.000 0.060 SUPERVISORY PERSONNEL 0 0 1 0.000 0.000 0.000 ENGINEERING PERSONNEL 2 2 51 0.008 0.011 0.228 TOTAL 9 2 64 75 0.276 0.011 0.338 0.625 1PECIAL MAINTENANCE l MAINTEt4ANCE PERSONNEL 21 3 482 7.434 0.392 185.745 ] OP' DATING PERSONNEL 0 0 0 0.000 0.000 0.000 A HEnLTH PHYSICS PERSONNEL 3 0 37 0.025 0.000 2.381

• SUPERVISORY PERSONNEL 0

0 7 0.000 0.000 1.373 ENGINEERING PERSONNEL 12 5 117 0.602 0.829 17.027 TOTAL 36 8 643 687 8.061 1.221 206.526 215.808 i HASTE PROCESSING MAINTENANCE PERSONNEL 0 0 8 0.000 0.000 0.464 l OPERATING FERSONNEL 0 0 0 0.000 0.000 0.000 I HEALTH PHYSICS PERSONNEL 0 1 47 0.000 0.149 3.971 1 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 L I ENGINEERING PERSONNEL 0 1 0 0.000 0.109 0.000 TOTAL 0 2 55 57 0.000 0.258 4.435 4.693 l REFUELING MAINTENANCE PERSONNEL 0 0 1 0.000 0.000 0.012 l OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 3 0.000 0.000 0.005 TOTAL 9 0 4 4 0.000 0.000 0.017 0.017 4 I TOTAL BY JOB FUNCTION 1 MAINTENANCE PERSONNEL 5 7 (28) 3 ((4) 1011(545) 1076 (577) 21.657 1.108 254.675 277.420 ~l OPERATING PERSONNEL 2 6 (22) 1 1) 1 (1) 2P (24} 13.401 0.153 0.101 13.655 HEALTH PHYSICS PERSONNEL 4 4 (22) 4 (1) 239(118) 287 (141) 15.317 1.935 52.265 69.517 SUPERVISORY PERSONNEL 0 (0) 0 (0) 2 2 (11) 22 (11) 0.000 0.000 2.865 2.863 ,j ENGINEERING PERSONNEL 46 126) 28 (13) 504(236) 578 (375) 9.640 4.120 56.185 69.945 j GRAND TOTAL 173 (98} 4 1 (20) 1777(911) 1991(1029) 59.995 7.316 366.089 433.400 } Workers may be counted in more than one category. Mumt:ers in parentheses are total numbers of individuals. l i l 1

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PL At4T : SAN ONOFRE 2 (PHR) 1984 P4 UMBER OF PJRSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CON 1RACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 4 J 05_FiltlClI ON Et*PLOYEES EMPLOYEES & 01HERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS Rf A_GIO R OPERATIONS 8 SURV. Malt 4IENANCE PER50t4!4EL 11 5 8 0.164 0.069 0.038 OPERATI!4G PERS0 TINEL 34 0 1 4.819 0.000 0.081 HEALTH PHYSICS PERSONNEL 33 5 65 8.362 0.912 15.761 SUPERVISORY PERS0t4!4EL 0 0 1 0.000 0.000 0.009 ENGINEERING PERS0t4NEL 14 5 52 0.9 36 0.072 1.374 TOTAL 92 15 127 234 14.281 1.053 17.263 32.597 ROUTlNE Malt 4TENANCE !1AINTENAt4CE PERSONNEL 58 29 319 20.056 7.578 52.605 OPERATING PERS0t4!4EL 33 0 1 2.350 0.000 0.055 HEALTH PHYSICS PEP.SONNEL 32 5 171 6.624 0.623 50.180 SUPERVISORY PERS0t4NEL 0 1 1 0.000 0.307 0.047 ENGINEERIflG PERS0 tit 4EL 24 13 147 3.795 2.051 17.181 TOTAL 147 48 639 834 32.825 10.559 120.068 163.452 Lti-SER_V_ ICE INSPECTI0t1 Malt 4T Er4At4CE PERS014NEL 18 5 40 L.101 0.084 1.224 OPERATING PERSONNEL 1 0 0 0.005 0.000 0.000 HEALTH PHYSICS PERSONNEL 2 0 5 0.024 0.000 0.160 SUPERVISORY PERSONNEL 0 0 2 0.000 0.000 0.005 Et4GINEERING PERSONNEL 15 10 63 1.119 4.255 1.713 TOTAL 36 15 110 161 1.249 0.339 3.102 4.690 iPICJ alt 4AINTENANCE f: Alt 4IENAt4CE PERS0tatiEL 41 14 369 2.026 0.496 151.338 -*OPERATIt4G PERSONNEL 0 0 0 0.000 0.000 0.000 $ HEALTH PHYSICS PERSONNEL 3 2 84 0.276 0.045 7.714 SUPERVISORY PERSONNEL 0 0 3 0.000 0.000 0.353 ENGINEERING PERS0t4NEL 11 9 140 0.364 0.240 27.926 TOTAL 55 25 596 676 2.666 0.781 187.331 190.778 UASTE PROCES11NG ttAINT ENAf4CE PERSONt4Et 1 1 6 0.016 0.003 0.129 OPERATING PERS0!4NEL 1 0 0 0.004 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 37 0.000 0.000 2.439 SUPERVISORY PERS0tir4EL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 i TOTAL 2 1 43 46 0.020 0.003 2.568 2.591 REFUEtING i MAlteTLNAt4CE PERSONNEL 0 2 63 0.000 0.335 6.121 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 1 0 5 0.043 0.000 0.055 SUPERVISORY PERSONt4EL 0 1 1 0.000 0.019 0.089 ENGINEERING PERSONNEL 5 6 65 0.152 0.046 4.904 TOTAL 6 9 132 147 0.195 0.400 11.169 11.764 10TALBY JOB FUNCTION 129 ((58) 5 6 (29) 805 (436) 990 (523) 22.363 8.565 211.455 242.383 t1 Aft 4TENANCE PERSONr4EL 69 34) 0 (0) 2 (1) 71 (35) 7.178 0.000 0.136 7.314 OPERATING PERSONNEL HEALTH PHYSICS PERSONNEL 71 (34) 12 (b) 367 (188) 450 (228) 15.329 1.580 76.309 93.218 SUPERVISORY PERSONNEL . 0 (0) 2 (1) 8 (3) 10 (4) 0.000 0.326 0.503 0.829 i ENGINEERING PERSONNEL 6 9 (27) 43(13) 45j (186) 577 (226) 6.366 2.664 55.098 62.128 i GRAND TOTAL 338(153) 115(49) 1647 (814) 2098(1016) 51.236 13.135 341.501 405.872 $orkersmaybecountedinmorethanonecategory. Numbers in parentheses are total numbers of individuals. I l

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTIO *l PLANT:,SEQUOYAH 1.2 (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) 10TAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS ELACTOR OPERATIONS 8 SURV. MAINTENANCE PERSONNEL. 503 562 9 25.907 21.450 0.548 OPERATING PERSONNEL 95 0 0 16.703 0.000 0.000 HEALTH PHYSICS PERSONNEL 60 2 58 19.472 0.000 21.220 SUPERVISORY PERSONNEL 74 22 2 10.738 2.388 0.226 ENGINEERING PERSONNEL 62 106 27 12.357 15.559 1.218 TOTAL 794 692 96 1582 85.177 39.397 23.212 147.786 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 540 587 3 120.746 72.022 0.030 OPERATING PERSONNEL 82 0 0 1.737 0.000 0.000 HEALTH PHYSICS PERSONNEL 59 1 51 4.741 0.000 1.288 SUPERVISORY PERSONNEL 63 23 2 6.177 2.743 0.103 ENGINEERING PERSONNEL 62 95 39 10.448 8.477 30.11L _ TOTAL 806 706 95 1607 143.849 83.242 31.538 258.629 IN-SERVICE IESPECTIQN MAINTEl4ANCE PERSONNEL 226 236 9 34.218 37.399 7.001 OPERATING PERSONNEL 26 0 0 0.400 0.000 0.000 HEALTH PHYSICS PERSONNEL 30 0 35 2.024 0.000-6.798 SUPERVISORY PERSONNEL 19 6 2 0.938 2.191 0.053 ENGINEERING PERSONNEL 55 54 47 5.960 13.607 31.173 TOTAL 356 296 93 765 43.540 53.197 45.025 141.762 SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 415 622 6 37.351 229.127 1.955 0PERATING PERSONNEL 75 0 0 0.990 0.000 0.000 m cnHEALTH PHYSICS PERSONNEL 57 0 37 5.936 0.000 0.618 " SUPERVISORY PERSONNEL 60 18 1 8.158 2.120 0.032 ENGINEERING PERSONNEL 58 83 11 12.280 10.183 1.670 TOTAL 665 723 55 1443 64.715 241.450 4.275 310.420 MSTE PROCESSING MAINTENANCE PERSONNEL 368 271 3 19.822 8.197 0.840 OPERATING PERSONNEL 91 0 0 11.831 0.000 0.000 HEALTH PHYSICS PERSONNEL 60 0 47 5.849 0.000 0.721 SUPERVISORY PERSONNEL 40 9 1 0.992 0.105 0.007 ENGINEERING PERSONNEL 45 40 2 0.193 1.024 0.005 TOTAL 604 320 53 977 38.687 9.326 1.573 49.586 REBifLING MAINTENANCE PERSONNEL 352 347 4 69.132 64.188 0.025 OPERATING PERSONNEL 66 0 0 10.394 0.000 0.000 HEALTH PHYSICS PERSONNEL 47 0 30 1.698 0.000 1.106 SUPERVISORY PERSONNEL 35 3 1 12.428 0.997 0.137 ENGINEERING PERSONNEL 55 36 5 8.856 5.648 0.798 TOTAL 555 386 40 981 102.508 70.833 2.066 175.407 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 2404 2625 34 5063 307.176 432.383 10.399 749.958 OPERATING PERSONNEL 435 0 0 435 42.055 0.000 0.000 42.055 HEALTH PHYSICS PERSONNEL 313 3 258 574 39.720 0.000 31.751 71.471 SUPERVISORY PERSONNEL 291 81 9 381 39.431 10.544 0.558 50.533 ENGINEER [NG PERSONNEL 337 414 131 882 50.094 54.498 64.981 169.573 GRAND TOTAL 3780 3123 432 7335 478.476 497.425 107.689 1083.590

• 6iorkers may be counted in more than one category.

Appendix D (Cont. ) NUMBER OF PERSONNEL AND MAN-REM BY WORK AND JOB FUNCTION PLANT: ST LUCIE 1.2 (PHR) 1984 HUMBER OF PERSONNEL (>100 M-REW, TOTAL MAN-RE191 STATIO 4 UTILITY CONTRACT T O.J A L STATION UTII.ITY CONTRACT TOTAL HORK 8 JO_BJ_UUCTION EMPLOYE ES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS EB C10_R_0P_gRATIONS & SURV. MAINTENANCE PERSONNEL 75 0 15 12.020 0.020 1.310 OPERATING PERSONNEL 40 0 0 15.390 0.000 0.000 HEALTH PHYSICS PERSONNEL 3 0 13 0.930 0.000 5.020 SUPERVISORY PERSONNEL 8 0 0 1.220 0.000 0.010 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 126 0 28 154 29.560 0.020 6.340 35.920 l ROUTINE __MAJHTENANCE R t4IENANCE PERSONNEL 54 21 94 42.280 7.790 27.940 OPERATING PERSONNEL 10 0 0 3.430 0.000 0.000 1 HEALTH PHYSICS PERSONNEL 4 0 17 2.790 0.000 8.520 . SUPERVISORY PERSONNEL 5 0 4 2.470 0.000 1.340 ENGINEERING PERSONNEL 4 0 10 0.870 0.020 3.370 TOTAL 77 21 125 223 51.840 7.810 41.170 100.820 Ill-SfRVICE_ULSffCHON MAINTENANCE PERSONNEL 4 0 65 16.610 0.030 83.760 DPERATING PERSONNEL 1 0 0 5.760 0.000 0.000 HEALTH PHYSICS PERSONNEL 2 0 8 4.970 0.000 9.400 SUPERVISORY PERSONNEL 1 4 6 1.760 7.120 2.240 ENGINEERING PERSONNEL 0 17 6 0.010 35.130 7.430 TOTAL 8 21 85 114 29.110 42.280 102.850 174.220 SfPLCIAL MAINTENANCE MAINTENAllCE PERSONNEL 18 1 504 67.420 0.620 404.980 " 0PERATING PERSONNEL 7 0 0 4.210 0.000 0.000 $ HEALTH PHYSICS PERSONNEL 13 0 43 17.700 0.000 33.460 SUPERVISORY PERSONNEL to 1 29 7.270 0.270 32.950 ENGINEERING PERSONNEL .'3 2 65 0.410 1.350 49.580 TOTAL 51 4 641 696 97.010 2.240 520.970 620.220 HA_STE PROCES'i1NG MAINTENAftCE PERSONt!EL 22 .0 48 18.250 0.150 19.400 OPERATING PERSONNEL 1 0 0 0.220 0.000 0.000 HEALTH PHYSICS PERSONNEL 2 0 5 1.320 0.000 2.500 SUPERVISORY. PERSONNEL 3 0 2 1.470 0.000 1.420 _Lt1GINEERING PERSONNEL 0 0 4 0.000 0.000 1.950 TOTAL 28 0 59 87 21.260 0.150 25.270 46.680 1 REUldNG MAINTENANCE PERSONNEL 37 34 11 79.720 20.480 10.580 OPERATING PERSONNEL 33 0 0 14.390 0.000 0.000 HEALTH PHYSICS PERSONNEL 2 0 8 4.100 0.000 7.750 SUPERVISORY PERSONNEL 6 0 2 4.720 0.030 1.410 ENGINEERING PERSONNEL 0 0 1 0.020 0.120 0.290 TOTAL 78 34 22 134 102.950 20.630 20.030 143.610 LOlAL BY JOB FUNCTION MAINTENANCE PERSONNEL 210 56 737 1003 236.300 29.090 547.970 813.360 OPERATING PERSONNEL 92 0 0 92 43.400 0.000 0.000 43.400 HEALTH PHYSICS PERSONNEL 26 0 94 120 31.810 0.000 66.650 98.460 SUPERVISORY PERSONNEL 33 5 43 81 18.910 7.420 39.370 65.700 ENGINEERING PERSONNEL 7 19 86 112

1. 31 0 36.620 62.620 100.550 GRAND TOTAL 368 80 960 1408 331.730 73.130 716.610 1121.470

Appendir. D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY NORK AND JOB FUNCTION PLANT SUMMER 1 (PHR) 1984 HUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-RE115 i STATION UTILITY C0t4 TRACT TOTAL STATION UTILITY CONTRACT TOTAL WORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS REACTOR __Of1 RATIONS 8 SURV. MAINTENANCE PERSONNEL 1 0 0 0.255 0.000 0.000 OPERATING PERSONNEL 36 0 2 10.418 0.000 0.220 HEALTH PHYSICS PERSONNEL 5 0 73 0.965 0.000 17.674 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 1 0 0 0.110 0.000 0.000 TOTAL 43 0 75 118 11.748 0.000 17.894 29.642 ROUTIN E_MA_EllfNA NCF MAINTEt4ANCE PFRSONNEL 27 0 45 4.107 0.000 10.808 OPERATING PERSONNEL 1 0 0 0.130 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 6 0.000 0.000 0.797 SUPERVISORY PERSONNEL 1 0 0 0.140 0.000 0.000 ENGINEERING PERSONNEL 5 1 3 0.681 0.125 0.51 5 TOTAL 34 1 54 89 5.058 0.125 12.120 17.303 LN-SE._R_VICE INSPECTION MAINTENANCE PERSONNEL 26 0 27 8.210 0.000 10.828 OPERATING PERSONNEL 3 0 0 0.440 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 15 0.000 0.000 2.640 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 5 7 11 2.055 2.515 9.267 TOTAL 34 7 53 94 10.705 2.515 22.735 35.955 $P_E_CLA L. MAI NT EN A NCE E MAINTENANCE PERSONNEL 95 0 190 52.053 0.000 82.397 - OPERATING PERSONNEL 3 0 1 0.470 0.000 0.275 [ HEALTH PHYSICS PERSONNEL 1 0 69 0.230 0.000 24.671 SUPERVISORY PERSONNEL 1 0 0 0.220 0.000 0.000 ENGINEERING PERSONNEL 6 14 40 2.325 4.142 23.636 TOTAL 106 14 300 420 55.298 4.142 130.979 190.419 [LASTE PROCESSING MAINTENANCE PERSONNEL 1 0 16 0.175 0.000 4.392-OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 4 0.000 0.000 0.750 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 1 0 20 21 0.175 0.000 5.142 5.517 EffMfLING MAINTENANCE PERSONNEL 13 0 49 3.542 0.000 15.969 OPERATING PERSONNEL 0 0 1 0.000 0.000 0.660 HEALTH PHYSICS PERSONNEL 0 0 3 0.000 0.000 0.860 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ltJGINEERING PERSONNEL 1 3 0 0.140 0.940 0.000 TOTAL 14 3 53 70 3.682 0.940 17.489 22.111 101AL BY JOB FUNCTION MAINIENANCE PERSONNEL 163 0 327 490 68.342 0.000 124.394 192.736 OPERATING PERSONNEL 43 0 4 47 11.458 0.000 1.155 12.613 HEALTH PHYSICS PERSONNEL 6 0 170 176 1.195 0.000 47.392 48.587 SUPERVISORY PERSONNEL 2 0 0 2 0.360 0.000 0.000 0.360 JNGINEERING PERSONNEL 18 25 54 97 5.311 7.722 33.418 46.451 GRAND TOTAL 232 25 555 812 86.666 7.722 206.359 300.747

• Workers may be counted in more than one category.

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-RCM BY HORK AND JOB FUNCTION PLANT * *SURRY 1.2 (PHR) 1984 'a l NUMBER OF PEBJONNEL (>100 M-REM) LOTAL MAN-REMS l STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL 610RK &' JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS REACTOR OPERATI0t1S 8 SURV. MAltlTENAtlCE PERS0tlNEL 84 5 132 4.902 0.004 6.894 OPERATING PERS0tlNEL 233 19 32 158.822 0.614 0.662 l HEALTH PHYSICS PERSONNEL 51 1 242 40.520 0.009 237.458 SUPERVISORY PERSONilEL 59 3 5 14.378 0.039 0.880 ENGIllEERING PERS0titlEL 40 18 96 8.534 0.441 10.300 TOTAL 467 44 507 1018 227.156 1.107 256.194 484.457 ROUTIllE MAINTENAtJCE MAltlTENANCE PERSONilEL 210 49 896 260.484 12.583 683.454 i OPERATIllG PERSONNEL 79 17 57 11.647 1.022 9.458 HEALTH PHYSICS PERSONNEL 23 1 163 12.681 0.501 90.139 SUPERVISORY PERSONNEL 34 0 3 14.102 0.000 0.618 1 i l ENGItlEERING PERSONNEL 21 3 194 5.013 0.080 67.232 } TOTAL 367 70 1313 1750 303.927 14.186 850.901 1169.014 lif-SLRVICE INSPECTION f J MAltlTENAtlCE PER50t1NEL 29 0 102 1.994 0.000 11.376 OPERATING PERSONilEL 122 1 11 14.800 0.003 1.447 HEALTH PHYSICS PERSONNEL 0 0 3 0.000 0.000 0.019 SUPERVISORY PERSONflEL 12 0 0 0.268 0.000 0.000 ENGINEERING PERS0t1NEL 14 1 14 3.023 0.012 4.360 TOTAL 177 2 130 309 20.085 0.015 17.202 37.302 i SPECIAL MAltilENANCE MAINTENANCE PERS0t1NEL. 48 2 536 2.788 0.007 212.864 -40PERATIrlG PERSONNEL 19 0 29 4.393-0.227 7.363 $ HEALTH PHYSICS PERSONNEL 1 0 17 0.240 0.000 1.324 SUPERVISORY PERSONNEL 3 0 0 0.242 0.000 0.000 ENGIflEERING PERSONNEL 2 1 93 0.027 0.015 28.980 TOTAL 73 3 675 751 7.690 0.249 250.531 258.470 El&STE_P_RJCESSING 1 MAINTENANCE PERS0tlNEL 8 0 84 0.090 0.000 3.474 OPERATING PERSONNEL 28 0 0 11.303 0.000 0.000 HEALTH PHYSICS PERSONNEL 5 0 77 1.126 0.000 17.588 SUPERVISORY PERSONNEL 6 0 3 2.436 0.000 0.121 ENGINEERING PERSONt1EL 0 0 11 0.000 0.000 0.055 TOTAL 47 0 175 222 14.955 0.000 21.238 36.193 EfEVELING MAINTENANCE PERS0tlNEL 46 0 '55 12.345 0.000 19.321 OPERATING PERSONNEL 23 13 6 3.619 0.000 0.678 HEALTH PHYSICS PERSONNEL 1 0 2 0.005 0.573 0.029 SUPERVISORY PERSONNEL 8 0 0 1.122 0.000 0.000 EtJGINEERING PERSONNEL 0 0 34 0.000 0.000 5.972 TOTAL 78 13 97 188 17.091 0.573 26.000 43.664 TOTAL BY JOB FUNCTION MAINTENANCE PERSONNEL 425 54 1805 2284 282.603 12.594 937.383 1232.580 OPERATING PERSONNEL 504 50 135 689 204.584 1.866 19.638 226.058 HEALTH PHYSICS PERSONNEL 81 2 504 587 54.572 1.083 346.557 402.212 SUPERVISORY PERSONNEL 122 3 11 136 32.548 0.039 1.619 34.206 116.899 134.044 0. 5 4', ENGIllEERING PERSONNEL 77 23 442 542 16.597 1422.066 2029.100 16.1: GRAND TOTAL 1209 132 2897 4238 590.904

• Workers may be counted in more than one category.

Uncorrected pocket dosimeter totals for everyone whose dose 1 mr<im. 8

1 Appendix D (cont.) NUMBER O'F PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT: SUSQUEHANANA 1 (BWR) 1984 NUMBER OF PERSONNEL (>100 M-REM)- T0"Al MAN-RDiS STATION UTILITY CON MACT TOTAL STATION UTILIY CONTRACT TOTAL HORK 8 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS REACTOR OPERATIONS 8 SURV. MAINTENANCE PERSONNEL to 1 3 3.055 0.307 0.611 OPERATING PERSONNEL 57 1 5 19.234 0.120 0.639 HEALTH PHYSICS PERSONNEL 7 0 14 2.708 0.000 5.617 SUPERVISORY PERSONNEL 4 0 0 0.979 0.000 0.000 ENGINEERING PERSONNEL 0 2 0 0.000 1.403 0.000 TOTAL 78 4 22 104 25.976 1.850 6.867 34.673 4 ROUTINE MAINTENANCE P 1 MAINTENANCE PERSONNEL 61 67 73 19.133 26.958 21.189 OPERATING PERSONNEL 5 0 5 0.914 0.000 1.011 i i HEALTH PHYSICS PERSONNEL 8 0 26 2.483 0.000 7.899 SUPERVISORY PERSONNEL 5 0 0 1.199 0.000 0.000 ENGINEERING PERSONNEL 0 0 8 0.000 0.000-2.191 TOTAL 79 67 112 258 23.729 26.958 32.290 82.977 LNjfRVICE INSPECTION MAINTENANCE PERSONNEL 0,. 0 0 0.000 0.000 0.000 I 1 0.000 0.157 0.202 OPERATING PERSONNEL 0 4 l HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 j ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 1 1 2 0.000 0.1 57 0.202 0.359 iPECLAL MAINTENANCE j MAINTENANCE PERSONNEL 0 19 '47 0.000 4.792 8.438 - 0PERATING PERSONNEL 0 0 0 0.000 0.000 0.000

• HEALTH PHYSICS PERSONNEL 0

0 2 0.000 0.000 0.242

• SUPERVISORY PERSONNEL 1

0 0 0.117 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 1 19 49 69 0.117 4.792 8.680 13.589 i HASTE PROCFSSING l Malt 4TENANCE PERSONNEL 0 5 18 0.000 1.375 6.436 7 OPERATING PERSONNEL ~ 1 0 9 0.199 0.000 8.290 HEALTH PHYSICS PERSONNEL 6 0 2 2.660 0.000 0.390 SUPERVISORY PERSONNEL 1 0 0 0.388 0.000 0.000 _fNGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 8 5 29 42 3.247 1.375 15.116 19.738 REFUELING MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 s SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 i TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 TOTAL BY JOB FUNCTION I MAINTENANCE t'tRSONNEL 71 93 142 306 22.188 33.589 36.876 92.653 OPERATING PER5ONNEL 63 1 19 83 20.347 0.120 9.940 30.407 HEALTH PHYSICS PERSONNEL 21 0 44 65 7.851 0.000 14.148 21.999 SUPERVISORY PERSONNEL 11 0 0 11 2.683 0.000 0.000 2.683 ENGINEERING PERSONNEL 0 2 8 10 0.000 1.403 2.191 3.594 GRAND TOTAL 166 96 213 475 53.069 35.112 63.155 151.336

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HunA AND JOB FUNCTION PLANT *tTHREE MILE ISL AND 1 (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM) J_0T_AL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 3 JOB FUNC_UON EMPLOYEES EMPLOYEES S OTHERS PERSOf4S EMPLOYEES EMPLOYEES & OTHERS MAN-REMS REAGTQR OPERATIONS & SURV. MAINTEtJAllCE PERSONt4EL 133 1 47 0.796 0.010 0.049 OPERATING PERSC!;NEL 94 0 10 6.192 0.000 0.016 HEALTH PHYSICS PERSONNEL 115 6 39 7.866 0.002 0.013 SUPERVISORY PERSONt4EL 220 76 51 3.769 0.047 0.119 ENGINEERLNG PERS0tlNEt 75 43 79 1.973 0.033 0.304 TOTAL 637 126 226 989 20.596 0.092 0.501 21.189 RQUUNE MAINTENANCE MAINTENAt4CE PERS0t4HEL 174 0 18 14.424 0.000 0.332 OPERATIrlG PERSONNEL 60 0 8 0.135 0.000 0.688 HEALTH PHYSICS PERSONNEL 60 0 2 0.915 0.000 0.000 SUPERVISORY PERSONNEL 86 3 10 2.295 0.004 0.361 EllGINEERING PERSONNEL 28 7 21 0.335 0.018 0.148 TOTAL 408 10 59 477 18.104 0.022 1.529 19.655 IN-SERVICE INSPECTI0t1 MAINTENANCE PERS0tirJEL 29 0 20 0.973 0.000 1.133 OPERATING PERS0titlEL 10 0 4 0.003 0.000 0.293 HEALTH PHYSICS PERS0tlNEL 26 0 0 0.090 0.000 0.000 SUPERVISORY PERSONNEL 32 11 11 0.291 0.002 0.149 ENGINEERING PERSONt4EL 29 '3 45 0.195 0 002 2.956 TOTAL 126 14 78 218 1.552 0.004 4.531 6.087 ggCIM MAINlfNANCE Malt 4TENANCE PERS0l4NEL 139 1 153 52.301 0.000 5.746 s0PERATING PERSONNEL 60 0 7 29.603 0.000 0.900 $ HEALTH PHYSICS PERSONNEL 32 0 1 5.694 0.000 0.003 SUPERVISORY PERSONNEL 98 9 25 7.620 0.001 1.776 EtlGINEERING PERSONilEL 46' 13 46 4.259 0.145 0.957 TOTAL 375 23 232 630 99.477 0.146 9.382 109.005 BA_S_IE PROULSSING MAINTENAllCE PERSONNEL 96 0 11 2.313 0.000 0.008 OPERATING PERSONNEL 58 0. 9 3.705 0.000 0.650 HEALTH PHYSICS PERSONNEL 34 -0 4 0.527 0.000 0.145 SUPERVISORY PERSONNEL 37 0 4 1.118 0.000 0.248 ENGINEERING PERSONNEL 15 2 5 0.884 0.003 0.043 TOTAL 240 2 33 275 8.547 0.003 1.074 9.624 EffUEL118G MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 _T O T A L BY JOB FUNCTION MAINTENAtlCE PERSONNEL 571 2 249 822 70.807 0.010 7.268 78.085 GPERATING PERSONNEL 282 0 38 320 39.638 0.000 2.527 42.165 HEALTH PHYSICS PERSONNEL 267 6 46 319 15.092 0.002 0.161 15.255 SUPERVISORY PERSONNEL 473 99 101 673 15.093 0.054 2.653 17.800 ENGINEERING __P1RSONNEL 193 68 194 455 7.646 0.201 4.408 12.255 GRAND TOTAL 1786 175 628 2589 148.276 0.267 17.017 165.560

• Workers may be counted in more than one category.

Appendix 0 (cont.) e PLANT tTHREE MIL E 19 rM 2 (PHR) t4 UMBER OF PERSONNEL AND MAN-REM BY NORK AND JOB FUNCTION 1984 NUMBER OF PERSONNEL (>100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL WORK 8 J03_FWJCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS REAClk__0P_ Mal 10 1J [L J SURV. Malt 4TENANCE PERSONN 73 0 72 1.414 0.000 0.449 OPERATING PERSONNEL 59 0 3 11.113 0.000 0.006 s.,. HEALTH PHYSICS PERSONNEL 98 2 67 12.112 0.000 6.601 SUPERVISORY PERSONNEL 98 9 32 0.971 0.000 1.587 ENGINEERING PERSONNEL 30 0 51 0.529 0.072 1.373 TOTAL 358 11 225 594 26.139 0.072 10.016 36.227 RQMIINE MAINTENANCE MAINTENANCE PERSONNEL 91 2 166 42.735 0.002 4.503 DPERATING PERSONNEL 52 0 3 4.478 0.000 0.149 HEALTH PHYSICS PERSONNEL. ' "*-7 5 0 36 5.773 0.000 2.461 SUPERVISORY PERSONNEL 61 0 21 3.002 0.000 2.023 JNGINEERING PERSONNEL 24 2 61 0.619 0.002 2.528 TOTAL 303 4 287 594 56.607 0.004 11.664 68.275 l!tSERVlCf_I14SPECTION Malt 4 T EtJAtlCE PERSONNEL 14 0 7 1.089 0.000 0.183 OPERATING PERSONNEL 37 0 1 0.021 0.000 0.027 HEALTH PHYSICS PERSONNEL 7 0 5 0.019 0.000 0.025 SUPERVISORY PERSONNEL 11 0 4 0.324 0.000 0.168 ENGINEERING PERSONNEL 3 0 10 0.016 0.000 1.276 TOTAL 72 0 27 99 1.469 0.000 1.677 3.146 a $_PECIA L_MAltjT EN ANCE MAINTENANCE PERSONNEL 91 0 241 80.762 0.000 280.918 OPERATING PERSONNEL 57 0 5 18.973 0.000 0.512 s m HEALTH PHYSICS PERSONNEL 84 0 50 30.980 0.000 14.842 N SUPERVISORY PERSONNEL 81 4 41 17.841 0.234 13.552 ENGINEERING PERSONNEL 30 0 67 6.545 0.000 25.235 TOTAL 343 4 404 751 155.101 0.234 335.059 490.394 ILASTE PROC _ESSING MAINTENANCE PERSONNEL 100 1 190 9.636 0.000 5.836 OPERATING PERSONNEL 78 0 6 8.424 0.000 0.650 HEALTH PHYSICS PERSONNEL 80 0 58 6.397 0,000 1.538 SUPERVISORY PERSONNEL 83 4 29 1.766 0.000 0.395 ENGINEERI11G PERSONNEL 28 2 68 1.550 0.009 0.450 TOTAL 369 7 351 727 27.773 0.009 8.869 36.651 REFUEL 1LJG MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.003 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERCONNEL 0 0 0 0.000 0.000 0.000 TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 TOTAL B.Y JOB FUNCTION MAINTENANCE PERSONNEL 369 3 676 1048 135.636 0.002 291.889 427.527 OPERATING PERSONNEL 283 0 18 301 43.009 0.000 1.344 44.353 HEALTH PHYSICS PERSONNEL 344 2 216 562 55.281 0.000 25.465 80.746 SUPERVISORY PERSONNEL 334 17 127 478 23.90'. 0.234 17.725 41.863 ENGINEERING PERSONNEL 115 4 257 376 9.259 0.083 30.862 40.204 GRAND TOTAL 1445 26 1294 2765 267.089 0.319 367.285 634.693 Workers may be counted in more than one category. a includes reactor building decon and dose reduction, reactor defueling, reactor systems disassembly, primary coolant decon.

Appendix D (Cont.) HUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FJNCTION ,t PtANT* TROJAN (PHR) 1984 NUMBER OF PEMONNEL (>100 M-RQ1). TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY C0t4T R ACT TOTAL' HORK 8 JOB FUNCTION EMPLOYEES Et1PLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-RENS RAG _T_0 R_J P E R A T I O NS & S U RV. j Malt 4TENANCE PERSONNEL 6 2 6 2.160 0.720 1.920 i OPERATING PERSONNEL 30 .0 0 14.330 0.000 0.000 HEALTH PHYSICS PERSONNEL 28 0 38 9.370 0.070 11.530 SUPERVISORY PERSONNEL 5 0 13 1.500 0.170 4.490 ENGIllEERING PERSONNEL 1 3 1 0.660 1.260 0.240 TOTAL 70 5 58 133 28.020 2.220 18.180 48.420 t i ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 64 44 156 27.470 17.820 138.410 CPERATING PERSONilEL 1 0 0 0.710 0.000 0.000 HEALTH PHYSICS PERSONNEL 32 2 59 18.560 0.840 30.980 SUPERVISORY PERSONNEL 14 4 0 5.830 1.100 0.020 EtlGINEERING PERSONNEL 2 0 0 0.870 0.240 0.020 TOTAL 113 50 215 378 53.440 20.000 169.430 242.870 ) 1R-SLRVICE INSPECTION MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 i HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.000 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 t TOTAL 0 0 0 0 0.000 0.000 0.000 0.000 l RLCHL MAINTENANCE. MAINTENANCE PERSONNEL 60 26 125 36.210 14.100 49.420 0PERATING PERSONNEL 8 0 0 3.220 0.000 0.000 m HEALTH PHYSICS PERSONNEL 30 6 26 13.880 2.900 10.760 m

• SUPERVISORY PERSONNEL 11 1

f 3.450 0.850 0.560 ENGINEERING PERSONNEL 6 3 ~0 3.210 0.830 0.030 TOTAL 115 36 152 303 59.970 18.660 60.770 139.400 tLASTE PROC 1S11HG MAINTENANCE PERSONNEL 0 1 15 0.280 0.300 4.140 OPERATING PERSONNEL 2 0 0 0.780 0.000 0.000 HEALTH PHYSICS PERS0tlNEL 30 11 33 15.300-2.650 13.070 SUPERVISORY PERSONNEL 1 0 0 0.100 0.010 0.040 ENGINEERING PERSONNEL 0 0 0 0.050 0.010 0.000 TOTAL 33 12 48 93 16.510 2.970 17.250 36.750 [ REFUFLING MAINTENANCE PERSONNEL 21 9 to 18.600 5.270 3.940 OPERATING PERSONNEL 12 0 0 9.160 0.000 0.000 i HEALTH PHYSICS PERSONNEL 14 2 13 4.690 0.560 4.310 SUPERVISORY PERSONNEL 2 2 0 0.840 0.310 0.010 i ENGINEERING PERSONNEL 0 0 0 0.180 0.160 0.000 T&TAL 49 13 23 85 33.470 6.300 8.260 48.030 1 MAINTENANCE PERSONNEL 1 51 82 312 545 84.720 38.210 197.830 320.760 TOTAL BY JOB FUNCTION i OPERATING PERSONNEL 53 0 0 53 28.200 0.000 0.000 28.200 f, HEALTH PHYSICS PERSONNEL 134 21 169 324 61.800 7.020 70.650 139.470 SUPERVISORY PERSONNEL 33 7 14 54 11.720 2.420 5.120 19.260 ENGINEERING PERSONNEL 9 6 1 16 4.970 2.500 0.290-7.760 I GRAND TOTAL 380 116 496 992 191.410 50.150 273.890 515.450 Workers may be counted in more than orie category.

Appendix D (Cont. ) NUHBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT: TURKEY POINT 3.4 (PHR) 1984 J NUMBER OF PERSONNEL D100 M-REM) TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CON 'RACT TOTAL i _H RK 8 J03_ FUNCTION EMPLOYEES EMPLOYLES & OTHERS PERSONS EMPLOYEES EMPLOYFES & 0HERS MAN-REMS l REACTOR OPERATI.Qf!S 8 SURV. MAINTENANCE PERSONNEL 133 4 88 38.835 2.170 42.830 i OPERATING PERSONNEL 37 0 0 30.785 0.025 0.000 HEALTH PHYSICS PERSONNEL 24 0 111 18.540 0.005 86.765 SUPERVISORY PERSONNEL 26 2 23 8.755 0.610 5.715 ENGINEERING PERSONNEL 31 3 38 9.235 1.050 12.700 TOTAL 251 9 260 520 106.150 3.860 148.010 258.020 1 ROVIJNE MAINTENANCE MAINTENANCE PERSONNEL 166 32 189 148.420 17.865 80.390 OPERATING PERSONNEL 24 0 0 14.420 0.000 0.000 HEALTH PHYSICS PERSONNEL 10 0 14 ' 3.320 0.000 4.795 i SUPERVISORY PERSONNEL 9 0 7 4.885 0.035' 2.300 ENGINEERING PERSONNEL 8 0 6 5.560 0.135 3.445 i TOTAL 217 32 216 465 176.605 18.035 90.930 285.570 IN-SERVICE INSPECTION MAINIENANCE PERSONt4EL 29 5 93 8.400 1.555 54.455 l OPERATING PERSONNEL 4 0 0 1.700 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 6 1.440 0.000 2.020 ] SUPERVISORY PERSONNEL 4 1 2 1.600 0.120 0.895 i ENGINEERLNG PERSONNEL 6 1 1 2.065 0.535 0.640 TOTAL 47 7 102 156 15.205 2.210 58.010 75.425 SPECIAL MAINTENANCE j MAINTENANCE PERSONNEL 46 9 612 15.170 2.205 683.950 OPERATING PERSONNEL 5 0 0 2.040 0.000 0.000 $ HEALTH PHYSICS PERSONNEL 2 0 7 0.640 0.000 2.885 eSUPERVISORY PERSONNEL 3 2 46 1.140 2.455 24.905 )' ENGINEERLNG PERSONNEL 4 1 20 1.370 0.275 12.505 l. . TOTAL 60 12 685 757 20.360 4.935 724.245 749.540 l FASIE PROCESSING MAINTENANCE PERSONNEL 14 4 6 7.205 1.725 2.730 i i OPERATING PERSONNEL 0 0 0 0.130 0.000 0.000 HEALTH PHYSICS PERSONNEL 10 0 15 14.690 0.000 3.580 l SUPERVISORY PERSONNEL 1 0 0-0.255 0.000 0.000 C ENGINEERING PERSONNEL 2 0 0 0.690 0.000 0.075 TOTAL 27 4 21 52 22.970 1.725 6.385 31.080 l REFUELING MAINTENANCE PERSONNEL 0 22 19 44.680 17.110 5.185 OPERATING PERSONNEL 35 0 0 12.010 0.140 0.000 HEALTH PHYSICS PERSONNEL 0 0 4 0.325 0.000 0.975 i SUPERVISORY PERSONNEL 9 0 12 2.240 0.015 5.175 ENGINEERING PERSONNEL 7 0 2 1.835 0.060 0.650 TOTAL 51 22 37 110 61.090 17.325 11.985 90.400 10.IM_BY JOB FUNCTION .j MAINTENANCE PERSONNEL 388(195) 7 6 (39 1007 (733) 1471 (9671i 262.710 42.630 869.540 1174.880 j OPERATING PERSONNEL 105 (61) 0 (0 0 (0) 105 (61 HEALTH PHYSICS PERSONNEL 5 0 (25) 0 (0) 157 (118) 207 (143I' 61.085 0.165 0.000 61.250 4 38.955 0.005 101.020 139.980 SUPERVISORY PEPSONNEL 52 (30) 5 (4) 9C (56) 147 (80) 18.875 3.235 38.990 61.100 ENGINEERING PERSONNEL 58 (41) 5 (4) ~ 1521 (964) 2060(1366) 402.380 48.090 1039.565 1490.035 67 (57) 130 (105) 20.755 2.055 30.015-52.825 GRAND TOTAL 653 055) JeF) l Workers may be counted in more than one category. U Ders in parentheses are total numbers of individuals. I I

Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT: VERMONT YANKEE (BHR) 1984 NUMBER OF PERSONNEL (>100 M-RE_ttl TOTAL MAN-REM STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 3 JOB FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS MAN-REMS RfA_Cl0R OPERATIONS & SURV. MAIN T Ef4ANCE PERS0 tit 4EL 2 0 0 4.262 0.000 0.286 OPERATIt4G PERSONNEL 30 0 20 27.882 0.000 3.954 HEALTH PHYSICS PERSONNEL 8 0 16 15.640 0.010 20.707 SUPERVISORY PERSONt4EL 1 0 0 0.163 0.000 0.000 ENGINEERING PERSONNEL 5 0 3 6.113 0.025 1.254 TOTAL 46 0 39 85 54.060 0.035 26.201 80.296 R OU TI t4E_MM t4T EN A_NC E MAINTENANCE PERS0t4NEL 13 27 37 37.076 135.328 211.449 OPERATIt!G PERSONNEL 11 0 0 4.890 0.000 0.034 NEALTH PHYSICS PERSONNEL 3 0 10 1.336 0.025 4.370 SUPERVISORY PERSONNEL 0 0 0 0.536 0.052 0.029 Et4GINEERING PERSONNEL 2 0 1 1.J90 0.000 0.201 TOTAL 29 27 48 104 45.228 135.405 216.083 396.716 itL_SIRUCE INSPECTION 1 21 70 9.071 34.536 56.937 MAlf4T ENAt4CE PERS0t4NEL OPERATING PERSONNEL 0 0 0 1.170 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.398 0.000 1.073 SUPERVISORY PERSONNEL 0 0 0 0.126 0.010 0.000 ENGINEERING PERSONNEL 0 0 0 0.392 0.000 0.049 TOTAL 1 21 70 92 11.157 34.546 58.059 103.762 a 1PICJ ALEAlNTENANCE MAINTENANCE PERSONNEL 1 20 22 0.745 9.908 5.137 OPERATING PERSONNEL 0 0 0 0.050 0.000 0.000 MHEALTH PHYSICS PERSONNEL 0 0 0 0.013 0.000 0.046 oSUPERVISORY PERSONNEL 0 0 0 0.011 0.255 0.000 ENGINEERING PERSONNEL 1 0 0 0.898 0.000 0.002 TOTAL 2 20 22 44 1.717 10.161 5.185 17.063 14ASTf PROClS_1ING MAINTENANCE PERSONNEL 0 0 0 0.000 0.000 0.000 OPERATING PERSONNEL 6 0 0 3.108 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.319 0.000 0.423 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000. ENGINEERING PERSONNEL 0 0 0 0.000 0.000 0.000 TOTAL 6 0 0 6 3.427 0.000 0.423 3.850 REFUILLNG Malt 4TENANCE PERSONNEL 0 0 2 0.140 0.086 0.490 OPERATING PERSONNEL 0 -0 0 0.119 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 0 0.000 0.000 0.074 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.000 ENGINEERING PERSONNEL 1 0 0 0.155 0.000 0.000 TOTAL 1 0 2 3 0.414 0.086 0.564 1.064 LOLA1_BY JOB FUNCTION MAINTENANCE PERSONf4EL 17 68 131 216 51.294 179.858 274.299 505.451 OPERATING PERSONNEL 47_ 0 20 67 37.219 0.000 3.988 41.207 HEALTH PHYSICS PERSONNEL 11 0 26 37 17.706 0.035 26.695 44.434 SUPERVISORY PERSONNEL 1 0 0 1 0.836 0.315 0.029 1.180 ENGINEERING PERSONNEL 9 0 4 13 8.948 0 025 1.506 10.479 GRAND TOTAL 85 68 181 334 116.003 180.233 306.515 602.751 NRC mandated work on environmental qualifications contributed 13 man-rems.

i Appendix D (Cont.) NUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION PLANT:, YANKEE ROHE (PH81 1984 NUMBER OF PERSQNNEL (>100 M-REM) LOT AL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONTRACT TOTAL HORK 4 JOB FUNCTION EMPLOYEES EMPLOYEES & OTHERS PERSONS EMPLOYEES EMPLOYEES 8 OTHERS MAN-REMS M6 G R OPERATIONS & SURV. MAINTENANCE PERSONNEL 1 2 0 0.700 0.830 0.000 OPERATING PERSONNEL 25 0 0 8.732 0.000 0.000 HEALTH PHYSICS PERSONNEL 13 0 2 4.363 0.000 0.760 SUPERVISORY PERSONNEL 0 0 0 0.145 0.000 0.080 ENGINEERING PERSONNEL 0 0 0 0.205 0.265 0.010 TOTAL 39 2 2 43 14.145 1.095 0.850 16.090 ROUTINE MAINTENANCE MAINTENANCE PERSONNEL 23 39 5 10.227 11.950 1.577 .0PERATING PERSONNEL 2 0 0 0.623 0.000 0.000 HEALTH PHYSICS PERSONNEL 6 0 11 3.605 0.000 10.205 SUPERVISORY PERSONNEL 0 0 0 0.010 0.000 0.080 ENGINEERING PERSONNEL 0 0 0 0.018 0.160 0.000 TOTAL 31 39 16 86 14.483 12.090 11.862 38.435 IN-SERVICE INSPECTION MAINTENANCE PERSONNEL 11 43 58 5.390 21.637 61.629 OPERATING PERSONNEL 0 0 0 0.735 0.000 0.030 HEALTH PHYSICS PERSONNEL 11 0 30 9.525 0.000 15.385 SUPERVISORY PERSONNEL 6 0 0 7.250 0.000 0.040 ENGINEERING PERSONNEL 6 4 8 7.980 2.055 6.560 TOTAL 34 47 -96 177 30.880 23.672 83.644 138.196 SPECIAL MAINTENANCE MAINTENANCE PERSONNEL 22 80 29 12.890 33.370 12.295 OPERATING PERSONNEL 17 0 0 5.202 0.000 0.000 gHEALTH PHYSICS PERSONNEL 9 0 18 2.460 0.000 4.860 -SUPERVISORY PERSONNEL 1 0 0 1.295 0.000 0.010 ENGINEERING PERSONNEL 1 9 0 0.695 2.335 0.255 TOTAL 50 89 47 186 22.542 35.705 17.400 15.647 HASTE PROCESSING MAINTENANCE PERSONNEL 0 0 0 0.305 0.935 0.155 DPERATING PERSONNEL 7 0 0 2.620 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 26 6.465 0.000 15.820 SUPERVISORY PERSONNEL 0 0 0 0.000 0.000 0.095 ENGINEERING PERSONNEL 0 0 0 0.010 0.040 0.000 TOTAL 11 0 26 37 9.400 0.975 16.070 26.445 MFEL ING MAINTENANCE PERSONNEL 25 72 22 10.975 26.035 6.100 OPERATING PERSONNEL 32 0 0 14.025 0.000 0.000 HEALTH PHYSICS PERSONNEL 10 0 33 3.850 0.000 15.695 ' SUPERVISORY PERSONNEL 2 0 0 0.740 0.000 0.085 ENGINEERING PERSONNEL 4 10 0 0.760 2.461 9.45 TOTAL 73 82 55 210 30.350 28.496 22.545 81.391 TOTAL)Y JOB FUNCTION MAINTENANCE PERSONNEL 82 236 114 432 40.487 94.737 81.756 216.980 OPERATING PERSONNEL 83 0 0 83 31.937 0.000 0.030 31.967 HEALTH PHYSICS PERSONNEL 53 0 120 173 30.268 0.000 62.725 92.993 SUPERVISORY PERSONNEL 9-0 0 9 9.440 0.000 0.390 9.830 ENGINEERING PERSONNEL 11 25 8 42 9.668 7.296 7.470 24.434 GRAND TOTAL 238 259 242 739 121.800 102.033 152.371 376.204 Wirkers may be counted in more than one category.

Appendix D (Cont.) HUMBER OF PERSONNEL AND MAN-REM BY HORK AND JOB FUNCTION

• t PLANT: ZION 1,2 (PHR) 1984 NUMBER OF PERSONNEL (>100 M-REM)

TOTAL MAN-REMS STATION UTILITY CONTRACT TOTAL STATION UTILITY CONLRACT TOTAL HORK 8 JOB _ FUNCTION EMPLOYEES EMPLOYEES 8 OTHERS PERSONS EMPLOYEES EMPLOYEES & OTHERS Mt.N-REMS BfACISR OPERATIONS & SURV. Malt 41ENAt4CE PERSONNEL 40 0 0 0.010 0.000 0.000 OPERATIt4G PERSONNEL 45 0 11 4.000 0.000 1.570 HEALTH PHYSICS PERSONNEL 9 0 12 3.750 0.000 2.300 SUPERVISORY PERSONNEL 93 0 0 2.600 0.000 0.000 ENGIllEERING PERSONNEL 30 0 0 7.454 0.000 0.000 TOIAL 217 0 23 240 17.814 0.000 3.870 21.684 ROUTINE MAINLENANCE Malt 4TENANCE PERSONNEL 52 0 411 74.041 0.000 227.073 OPERATING PERSONNEL 23 0 0 16.650 0.000 0.000 HEALTH PHYSICS PERSONNEL 15 0 72 13.026 0.000 52.790 SUPERVISORY PERSONNEL 71 0 0 9.260 0.000 0.000 ENGINEERING PERSONNEL 19 139 84 5.264 1.230 5.305 TOTAL 180 139 567 886 118.241 1.250 285.168 404.639 I!1-SERVICE INSPECTION MAINTENANCE PERSONf4EL 0 0 28 0.000 0.000 22.000 OPERATING PERSONNEL 0 0 0 0.000 0.000 0.000 HEALTH PHYSICS PERSONNEL 0 0 9 0.000 0.000 4.650 SUPERVISORY PERS0t4NEL 18 0 . 0 2.350 0.000 0.000 ENGINEERING PERSONNEL 4 0 40 3.450 0.000 8.040 TOTAL 22 0 77 99 5.800 0.000 34.690 40.490 8 }_P_ECIAL_f!AJ!JJENANCE MAINTENANCE PERSONt4EL 31 83 372 16.000 1.237 172.000 OPERATING PERSONNEL 17 0 0 3.650 0.000 0.000 MHEALTH PHYSICS PERSONNEL 4 0 43 1.450 0.000 18.650 roSUPERVISORY PERSONNEL 24 0 0 4.500 0.000 0.000 ENGINEERING PERSONNEL 4 83 42 2.340 0.460 9.320 TOTAL 80 166 457 703 27.940 1.697 199.970 229.607 [LASTLER0CES I!!G S MAINTENANCE PERSONNEL 0 0 17 0.000 0.000 2.400 OPERATIllG PERSONNEL 18 0 0 2.150 0.000 0.000 HEALTH PHYSICS PERSONNEL 4 0 3 1.050 0.000 1.420 SUPERVISORY PERSONNEL 9 0 0 0.650 0.000 0.000 1 ENGINEERIllG PERSONNEL 0 0 0 0.000 0.000 0.000 l TOTAL 31 0 20 51 3.850 0.000 3.820 7.670 1 RLEU_EU NG MAINTENANCE PERS0t3NEL 31 0 0 32.000 0.000 0.000 OPERATING PERSONNEL 17 0 0 0.695 0.000 0.000 HEALTH PHYSICS PERSONNEL 3 0 0 3.850 0.000 0.000 SUPERVISORY PERSONNEL 11 0 0 3.700 0.000 0.000 ENGINEERIllG PERSONNEL 3 0 0 1.260 0.000 0.000 TOTAL 65 0 0 65 41.505 0.000 0.000 41.505 TOT _AL)Y JOB FUNCTION MAINTENANCE PERSONNEL 154 83 828 1065-122.051 1.237 423.473 546.761 OPERATING PERSONNEL 120 0 11 131 27.145 0.000 1.570 28.715 HEALTH PHYSICS PERSONNEL 35 0 139 174 23.126 0.000 79.810 102.936 SUPERVISORY PERSONNEL 226 0 0 226 23.060 0.000 0.000 23.060 ENGINEERING PERSONNEL 60 222 166 448 19.768 1.690 22.665 44.123 GRAND TOTAL 595 305 1144 2044 215.150 2.927 527.518 745.595 Workers may be counted in more than one category.

• NRC mandated special maintenance contributed 230 man-rems.

f l APPENDIX E Sumary of Annual Whole Body Dose Distributions by Year and Reactor Type 1980 - 1984 l 1

• Appendix E SU?ftARY OF ANNUAL RIOLE BODY DOSE DISTRIBUTIONS BY YEAR AND REACTOR TYPE 1980 - 1984 wae

.e i.e...w...a nww soev o in. p.m n.ne. (rens or csv) u. ima ..a o Year and Reactor Type ,f, f,,,,, i-Empo.ne < 010 0M 0 50 0M 10 20 30 40 %0 60 70 s0 90 10 0 12 0 12 0 tored D.e.e p.es.n<$v 1014 - RWRs 21741 14997 6165 4an7 3033 2390 5579 2714 994 213 62846 41105 27074 1r4 - PWDs 37A75 24087 EE99 6585 a133 2998 6774 2253 631 77 94c62 56987 pqian lo?4 - t Wos 59616 1onna 14764 11492 71f6 5396 12453 4967 1675 295 157709 93092 55214 1083 - RNPs 17721 10475 4317 3036 2607 19?5 SC59 ?n90 1252 299 F1 16 4 51194 33473 27455 109 - Prot 33350 21425 7894 6260 3o63 2783 6512 2421 698 315 2 85523 52173 29016 193 - ! Woe. 51071 31900 12211 10296 6470 l'708 12171 5311 1950 544 65 16 4 136717 n5646 E6 E lon? - BURS 15661 904e 4431 4403 2339 2046

1. 79a 2350 1183 230 7

47896 1??1E 24437 5 1982 - PWRs 29232 ~ 21536 0262 6411 3aOn 2749 6061 2328 631 202 49 13 4 0 1 81378 52146 27753 199? - Ltl9s 44893 31400 12693 1081a 673a 4795 10855 4686 1814 832 56 13 a 0 1 12a?78 n4381 52190 1991 - Etios 15335 1113n 4P.69 d536 2939 23?6 5373 2405 nii 224 32 4 2 0 0 0 1 50177 34832 25471 j 1o^1 - PURs 26978 1820? 734f1 97nn 36e6 2577 6393 ?nci 882 262 gi 77 g 2 1 74329 47351 28671 l lor 1 - LNk 42323 2933? 12217 10326 (625 4903 11766 4546 1793 486 93 81 11 2 1 i 124506 82183 54142 1 con - Exos 13971 976c 4671 d283 2801 2000 5804 2831 1073 503 129 60 2 48065 34094 29530 lam PURs 33406 1987: 7n7c As17 327' 2428 5590 ispa 46d 183 m la 16 3 79643 46237 24266 10M - t uRs 47377 2963f 1175r 9820 rnn: 4518 11478 4515 1937 F86 192 9E 1R 1 127708 80331 53794

• Figures contained herein are uncorrected for multiple reporting of transient individuals.

geo=== u. NucLimetutuorv co==inio i o ro-Y Nu u,., A.., "oc-.,...,,, ET'2#[ BIBLIO' RAPHIC DATA SHEET ne.N TauctioNs oN T i"viasa NUREG-0713, Vo1. 6

2. TeTLE AND SueTsTLg 3 Lt Avg SLANK Occupational Radiation Exposure at Commercial lluclear Power Reactors and Other Facilities 1984

/ 4 OATE MEPORT COMPLETED Seventeen (AnnualReport j l ooNT-vi.a fune 1986 ..uf o ts, Barbara B oks /[ October

• oaTe amaf issuno l

ooNT-vi.. 1986 , 6 iRF OmwiNQ ORGANt24T ION NAvt O WatLING ADDRES$ Haca arla Cess / 0 PMoJECTIT A5KMrQan uNai Nupstm v Division of Re latory Applications Office of Nuclea Regulatory Research . iN oa GaaNT hu-na U.S. Nuclear Regu ory Comrnission Washington, D.C. 2 55 to Sv0N50 RING OMGANelATION NApt AND MasLING aC E55 Hars ar te Codes t to T V75 OF REPORT v Division of Regulatory A lications Office of Nuclear Regulat Research Annual U.S. Nuclear Regulatory Co ssion

• **"' ' " " ' " ~ ' - " ' ' "

Washington, D.C. 20555 1984 12 SuJfLE ME NT AR v NO T E S 13 ASJTaaCT (200 eeres er seest This report summarizes the occupatio radiation exposure information that has been reported to the NRC's Radiation osure Information Reporting System (REIRS) by nuclear power facilities and certa' ther categories of NRC licensees during the years 1969 through 1984. The bul of he data presented in the report was obtained from annual radiation expos re r orts submitted in accordance with the requirements of 10 CFR 20.407. Dat on wo ers terminating their employaent at certain-NRC licensed facilities wer obtaine from reports submitted pursuant to 10 CFR 20.408. The 1984 annual reports submi +ed by about 500 licensees indicated that approximately 195,000 indivicpals were mo toried, 171,000 of whom were monitored by nuclear power facilifies. They in red an average individual dose of 0.30 rem (cSv) and an average easureable dose f 0.55 rem (cSv). Termination radiation exposure reports were. nalyzed to reveal hat about 67,500 individuals completed their employment with ne or more of the covered licensees during 1984*. Some 66,100 of these ir ividuals terminated f m power reactor facilties, and about 5,500 of them were c"nsidered to be transien orkers who received an average dose of 0.91 rem (cSv.

• These figures may be incomp te because data for about 15 f the individuals terminating during 1984 has at been entered into REIRS.

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