ebook img

Off-Site Consequences of Radiological Accidents: Methods, Costs and Schedules for ... PDF

380 Pages·2003·17.73 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Off-Site Consequences of Radiological Accidents: Methods, Costs and Schedules for ...

NUREG/CR-3413 PNL-4790 Off-Site Consequences of Radiological Accidents: Methods, Costs and Schedules for Decontamination Prepared by J. J. Tawil, F. C. Bold, B. J. Harrer, J. W, Currie I Pacific Northwest Laboratory I I Operated by Battelle Memorial Institute _r i Iii _< " ' I Prepared for r U.S. Nuclear Regulatory 0 Commission in iI 0111(cid:1)1(cid:1)1 0 I C ii 0 __0 z --i C> z 9i C -2 IL -P1 '4 Itj - ____ ~~ K _ _ _ _ _ _ NOTICE This report was prepared as an account of work sponsored by an agency of the United States Government. Neither the United States Government nor any agency thereof, or any of their employees, makes any warranty, expressed or implied, or assumes any legal liability of re- sponsibility for any third party's use, or the results of such use, of any information, apparatus. product or process disclosed in this report, or represents that its use by such third party would not infringe privately owned rights. NOTI CE 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 documents cited in NRC publications, 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 correspondence. The following documents in the NUREG series are available for purchase from the NRC/GPO Sales Program: formal NRC staff and contractor reports, NRC-sponsored conference proceedings, and NRC booklets and brochures. Also available are Regulatory Guides, NRC regulations in the Code of Federal Regulations, and Nuclear Regulatory Commission Issuances. Documents available 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. 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-N RC 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- 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 American National Standards Institute, 1430 Broadway, New York, NY 10018. NUREG/CR-3413 PNL4790 RE Off-Site Consequences of Radiological Accidents: Methods, Costs and Schedules for Decontamination Manuscript Completed: November 1984 Date Published: August 1985 Prepared by J. J. Tawil, F. C. Bold, B. J. Harrer, J. W. Currie Pacific Northwest Laboratory Richland, WA 99352 Prepared for Division of Radiation Programs and Earth Sciences Office of Nuclear Regulatory Research U.S. Nuclear Regulatory Commission Washington, D.C. 20555 NRC FIN B2418 EXECUTIVE SUMMARY The accident at Three-Mile Island resulted in increased attention by the public and by regulators to the off-site consequences of severe radiological accidents. The current study was commissioned by the Environmental Effects Branch of the Office of Nuclear Regulatory Research (NRR). It is a direct outgrowth of research conducted for NRR by the Pacific Northwest Laboratory (PNL) on the socio-economic impacts of serious reactor accidents. One of the major findings of PNL's research on accident consequences is that decontamination costs and property losses resulting from a severe radio- logical accident could easily run into the billions of dollars, accounting for the majority of the off-site accident costs. At the time of these findings, however, only very limited means were available for assessing these costs. Also, it also seemed likely that the decontamination costs and property losses would be sensitive to site-specific factors, such as the land use of the affected property and its value. A final concern was that the evaluation of the decontamination costs was based on very rough estimates of the cost to decontaminate a few types of property with the same degree of contamination. In view of the shortcomings of these evaluation techniques and the major contribution of decontamination costs and property'losses to accident risk, the current research effort was undertaken. At the beginning of this effort, a search was conducted to determine the type of information that was available on decontamination procedures. It quickly became clear that information on well- documented procedures for decontaminating various materials was very limited. Some tests had been done with respect to nuclear weapons, but these results were not completely applicable, due to substantial differences in the nature of the contaminants. There were also documented procedures for using very power- ful, but also very costly, techniques to decontaminate laboratory facilities and other small areas. However, because of the costs'of these'procedures and the specialized equipment used, they would be totally inappropriate'for restor- ing an area of several hundred or several thousand square miles. From these findings, a set of objectives was formulated to guide the present study. These were: * to build upon the methods currently used by the NRC to estimate the decontamination and interdiction costs of a severe radiological accident. The method most commonly employed by the NRC staff and its contractors is the use of the CRAC2 computer model, which is based on the Reactor Safety Study (USNRC 1975). * to collect'information from both published and unpublished sources relating to decontamination procedures and to identify the circumstances favorable to the application of each. * to develop sufficient information to describe the relationship between the physical inputs and the output of a production technique. This' would enable us to identify the types of manpower and equipment required to carry out the decontamination efforts. Additionally, v acquiring the costs of these inputs would enable us to specify the costs of applying these procedures. * to develop a methodology that would enable data commonly available by political subdivision to be imputed to the elements of a radial grid. CRAC2 utilizes a radial grid to characterize the accident site, and an analysis based on site-specific information requires the analyst to adapt population and property information to the radial grid. The difficulty of doing this can often become a major disincentive for conducting an analysis using site-specific information. e to develop a computer program that is compatible with CRAC2 and that combines certain inputs from CRAC2 with other data to produce suffi- cient information to evaluate decontamination and interdiction costs. The program should also have the capability to assist in developing decontamination strategies. In working toward these objectives, three major resources were developed at PNL for use in evaluating off-site accident consequences and in conducting site-restoration analyses. These are: 1) a reference data base; 2) a set of procedures and analytical tools for preparing a site database; and 3) a compu- ter program, called DECON, to utilize the information in the two databases to produce analyses relating to the decontamination and interdiction of property. The reference database contains information relating to the application of decontamination methods to surfaces. Currently, 347 methods have been defined for use on 22 different surfaces. For each method, the reference database includes the following information: * the costs of applying the methods e the efficiencies with which contaminants are removed * the rate at which the methods are applied * the quantity and type of labor required * the quantity and type of equipment required * the quantity and type of major materials required * the costs for labor, equipment, fuel and materials * the quantity of contaminated material requiring disposal * the source(s) of the information Except for the last item, the above data have been recorded in machine-readable format. The sources of the information have been provided to facilitate the updating of this database. The second resource consists of procedures and analytical tools for pre- paring a site database. A major improvement of the current resources, as compared with CRAC2, is the ability to bring site-specific information into the analysis. Site-specific information is not often used with CRAC2 because it is not convenient to develop a site-specific database that can be used with it. The main reason for this is that a reactor accident under CRAC2 is located on a radial grid, and information must be supplied for each element of this grid. Unfortunately, site-specific information is commonly available by political subdivisions, but not by the elements of the grid. vi The procedures developed for this second resource include methodologies and computer software to take demographic information available by political subdivision and use this to impute values to the elements of the radial grid. In addition, facilities have been developed for using, besides a radial grid, a rectangular grid and an irregular grid. The irregular grid is one in which each grid element has the same geographic boundary as a township or county. Thus, it makes direct use of the availability of information at the political subdivision level. The third resource is a computer program for actually performing the decontamination analysis. The computer program, called DECON, has been designed to facilitate the planning of decontamination activities as well as to provide estimates of decontamination costs and property losses. The structure and features of DECON are described in this report. In addition, DECON's capabilities are demonstrated by applying it to a serious radiological accident at a hypothetical reactor site. Among the information included in DECON is the following: * the decontamination method used on each surface * the rate at which the decontamination method is applied * the type of labor used in the method * the type of equipment used in the method e the major materials required * the efficiency of the method in reducing inhalation and external dose * dose to radiation workers * dose commitment from surface exposure * year to decontaminate grid element to minimize property losses. The capabilities of DECON include evaluating strategies to 1) vacuum exterior surfaces before they become rained on, 2) protect surfaces against precipitation, 3) prohibit specific operations on selected surfaces, 4) require pre-specified methods to be used on selected surfaces, 5) evaluate the tradeoff between cleanup standards and decontamination costs and property values, 6) af- fect decontamination costs by imposing different cleanup standards on different surfaces according to expected human exposure to the surface. vii ACKNOWLEDGMENTS Many individuals kindly volunteered their time and expertise in providing information and consultation concerning decontamination operations. Besides providing cost and productivity data, several people took the time to explain particular technologies and make constructive suggestions regarding how to accomplish a particular decontamination operation. Particular appreciation is extended to Bill Harding of the City of Los Angeles Department of Public Works; Jim Ajax and Jim Edwards of the City of Pasco, Washington, Department of Public Works; Don Steiner of Turco Products; Bob Weber of the U.S. Bureau of Land Management Interagency Fire Center in Boise, Idaho; Dick Pierce of the U.S. Forest Service in Portland, Oregon; and Dennis Jackson of the State of Washington Department of Transportation. A number of people within Pacific Northwest Laboratory provided invaluable guidance in our assessment of the efficiencies of certain decontamination methods and fixative applications, and the appropriateness of using these under varying conditions. These people include Richard Allen, Don Archibald, Glen Hoenus, Mike McCoy, Linda Munson, Smith Murphy, Craig Timmerman and Ned Wogman. We would also like to thank Dennis Strenge and Becky Peloquin for their major assistance in running CRAC2 and preparing programs to process CRAC2 outputs for use in DECON. Our appreciation is also extended to Layton O'Neill of the U.S. Department of Energy, Las Vegas, Nevada, for providing us with published and unpublished information on decontamination methods. Mr. O'Neill also put us in contact with a number of individuals who proved helpful in this project. Finally, we wish to thank Debra Young, Beverly Johnson and Dorothy Matthews for their tireless efforts in typing this report and its earlier drafts. To all of the many other individuals who assisted in the various aspects of producing this report, we extend our sincere thanks. And we, the authors, are alone responsible for any errors contained in this work. ix TABLE OF CONTENTS EXECUTIVE SUMMARY . . . . . . . . . . v ACKNOWLEDGEMENTS . . . . . . . . . . . ix 1.0 INTRODUCTION . . . . . 1.1 1.1 ORGANIZATION . . . . . . . . . . 1.1 1.2 BACKGROUND . . . . . . . . 1.2 1.3 OBJECTIVES . . . . . . . . . . 1.3 1.4 METHODOLOGY AND OVERVIEW . . . . . . . . 1.3 1.4.1 The Reference Database . . . . . . . 1.4 1.4.2 The Site Database . . . . . . . . 1.6 1.4.3 DECON . . . . . . . . . . 1.8 2.0 THE REFERENCE DATA BASE . . . . . . . . , 2.1 2.1 CONTENTS OF THE REFERENCE DATABASE . . . . . . 2.1 2.2 DECONTAMINATION OPERATIONS, COSTS, AND EFFICIENCIES . . 2.2 2.2.1 Decontamination Costs . . . . . . 2.2 2.3 PROCEDURES FOR INTERDICTED AREAS . . . . . . 2.4 2.4 DECONTAMINATION COSTS FOR VARIOUS SURFACES . . . . 2.5 2.4.1 Paved Surfaces . . . . . . . . 2.5 2.4.2 Roofs . . . . . . . . . . 2.10 2.4.3 Lawns . . . . . . . . . . 2.16 2.4.4 Agricultural Fields . . . . . . . 2.17 2.4.5 Orchards . . . . . . . . . 2.19 2.4.6 Vacant Land . . . . . . . . 2.20 2.4.7 Wooded Land . . . . . . . . . 2.21 2.4.8 Exterior Walls . . . . . . . 2.22 2.4.9 Interior Floor and Walls . . . . . . 2.24 2.4.10 Automobiles . . . . . . . . . 2.26 2.4.11 Hauling . . . . . . . . . . 2.28 2.5 DECONTAMINATION EFFICIENCIES FOR VARIOUS SURFACES . . . 2.29 2.5.1 Cost and Efficiencies of Decontamination Methods . 2.29 xi 3.0 THE SITE DATA BASE . . . . . . . . . . 3.1 3.1 SELECTION OF THE GRID . . . . . . . . 3.1 3.1.1 Rectangular Grid . . . . . , . . 3.1 3.1.2 Radial Grid. . . . . . . . . 3.2 3.1.3 Irregular Grid Based on Political Subdivision Boundaries . . . . . . . . . 3.3 3.2 CONTENTS OF THE SITE DATABASE . . . . . . . 3.3 3.2.1 Contamination Level . . . . . . . 3.3 3.2.2 Type of Property Contaminated . . . . . 3.4 3..2.3 Value of the Contaminated Property . . . . 3.5 3.3 SOFTWARE TOOLS FOR PREPARING THE SITE DATABASE . . . 3.5 4.0 DECON - A COMPUTER PROGRAM FOR ESTIMATING DECONTAMINATION/ INTERDICTION COSTS AND SCHEDULES . . . . . . . 4.1 4.1 METHODS USED IN CRAC2 . . . . . . . . 4.1 4.2 1NFOR§MATION PRODU$pOBB Y ECVN , .. 4.3 4. Maximizing roper y a ues tirough Site-Restoration Actions . . . . . . . . . . 4.3 4.2.2 Algorithm to Maximize Property Values . . . . 4.5 4.2.3 Effects on Property Values When No Decontamination is Required . . . . . . . . . 4.7 4.2.4 Property that Cannot Be Decontaminated . . . 4.7 4.2.5 Properties with Negative Net Present Values . . 4.8 4.2.6 Contamination Model . . . . . . . 4.8 4.3 SPECIAL FEATURES . . . . . . . . . 4.8 4.3.1 Subarea Analysis . . . . . . . . 4.9 j:4~ restR4%viAnaslysis 1 { 4.3.4 Required Methods . . . . . . . . 4.10 4.3.5 Variation in Exposure Levels . . . . . 4.11 4.3.6 User-Selectable Parameter Values . . . . . 4.11 4.3.7 Future Capabilities . . . . . . . 4.12 4.4 FLEXIBILITY OF DECON . . . . . . . . 4.13 5.0 A CASE STUDY USING DECON . . . . . . . . . 5.1 5.1 PREPARATION FOR CONDUCTING THE CASE STUDY . . . . 5.1 5.1.1 Purpose of the Models . . . . . . . 5.1 5.1.2 Running the Models . . . . . . . 5.1 xii 5.2 RESULTS 5.5 5.2.1 Base Case . . . . . . 5.6 5.2.2 Decontamination Schedules . . . 5.6 5.2.3 Micro-Analysis of a Grid Element . . . 5.14 5.2.4 Restrictions on Specific Operations . . 5.16 5.2.5 Required Method . . . . 5.16 5.2.6 Varying Exposure Factors . . 5.16 5.2.7 Cleanup Standards vs. Decontamination Costs 5.22 5.2.8 Conclusions . . . . . 5.23 REFERENCES R.1 APPENDIX A: CALCULATION OF COSTS, RATES, AND INPUT SHARES OF DECONTAMINATION METHODS 0 . . . A.1 A.O INTRODUCTION A.1 A.1 ASPHALT ROADS . A.5 A.1.1 Mobile Vacuumized Street Sweeping A.5 A.1.2 Low-Pressure Water Wash . A.2 5 A.1.3 High-Pressure Water . A.3 7 A.1.4 Very High-Presssure Water Flushing A.5 9 A.1.5 Foam . . . A.63 A.1.6 Strippable Coating A. 67 A.1.7 Planing . . A.7 2 A.1.8 Tack Coat . . A.7 8 A.1.9 Sealer . . * A.8 2 A.1.10 Road Oil . A.8 7 A.1.11 Thin Asphalt Overlay A.9 0 A.1 .12 Resurface . . A.9 6 A.1.13 Medium-Thickness Asphalt Ove!rlav A.9 6 A.1.14 Removal and Replacement 0 A.97 A.2 CONCRETE ROADS . A.102 A.2.1 Vacuum . . . . . A.102 A.2.2 Low-Pressure Water Wash A.102 A.2.3 High-Pressure Water Wash A.102 A.2.4 Very High-Pressure Water Wash A.102 A.2.5 Foam . . . . A.103 A.2.6 Strippable Coating . A.103 A.2.7 Planing . . . . A.103 A.2.8 Tack Coat . . . 0 A.103 A.2.9 Sealer . . . . . A.103 A.2.10 Road Oil . . . . A.104 A.2.11 Thin Asphalt Overlay . A.104 A.2.12 Resurface . . . A.105 A.2.13 Medium-Thickness Asphalt Overlay A.105 A.2.14 Removal and Replacement . 9 A.106 xiii

Description:
Hoenus, Mike McCoy, Linda Munson, Smith Murphy, Craig Timmerman and Ned. Wogman. Decontamination Operations on Automobile Engines and Drive. Trains . Estimated Flushing Costs from the City of San Francisco . A.28.
See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.