Regulatory Guide 8.4

U.S. ATOMIC ENERGY COMMISSION REGULATORY DIRECTORATE OF REGULATORY STANDARDS REGULATORY GUIDE 8A DIRECT-READING AND INDIRECT-READING POCKET DOSIMETERS

A. INTRODUCTION

The Atomic Energy Commission's "Standards for Protection Against Radiation," 10 CFR Part 20, contains several regulations regarding the measurement of X- or gamma radiation from sources external to the body. Such measurements 're required by § 20.202(a) "Personnel Monitoring," to determine compliance with limits specified in § 20.101, "Exposure of Individuals to Radiation in Restricted Areas," and § 20.104, "Exposure of Minors." with results recorded as required by § 20.401, "Records of Surveys, Radiation Monitoring, and Disposal." Such measurements are also needed to determine incident reporting requirements as specified in § 20.403, "Notification of Incidents," whether the measurements are made during the actual incidents or during a pust-incident invcstigation. The Commission's reguiation "Licenses for Radiography and Radiation Safety Requirements for Radiographic Operations," 10 CFR Part 34, contains a provision which requires pocket dosimeters or pocket chambers as measurement devices for personnel monitoring .tontrol I§ 34.33j. These measuiements are concerned with the dose to personne Al th qtpgh compliance with these regulations necessitates measurements of X- and gamma radiation, the Commission has not prescribed performance standards for the instrumentation that may be used. This guide provides such standards for direct-reading and indirect-reading pocket dosimeters used for personnel dose or dose rate measurements pursuant to §§ 20.101, 20.104, 20.202(a), 20.401, 20.403, and 34.3 Other regulations in 10 CFR Part 20 are concerned with area monitoring as necessary to demonstrate compliance with permissible levels of radiation in unrestricted areas J§ 20.105(b)(2)J, survey requirements I§ 20.2011, and area classification2/26/73GUIDErequirements [§20.202(b)]. Specific performance standards for pocket dosimeters used for area monitoring are not included in this guide at this tim These latter standards are expected to be less stringent than personnel monitoring standard

B. DISCUSSION

Subcommittee N13.5 on Performance of Portable Survey Meters and Personnel Dosimeters, of the American National Standards Committee N13 on Radiation Protection, has developed a standard which provides performance specifications for direct-reading and indirect-reading pocket dosimeters for X- or famma radiation. The standard, ANSI N13.5-1972, was approved by the American National Standards Institute on December 9, 197 As a performance standard, N13.5-1972 does not provide detailed guidance on the use of pocket dosimeters. However, certain details such as the maximum intervals for leak rate and calibration/response testing are directly related to performance standards in the. context of satisfying Commission regulation Therefore, guidance in this document is not limited to the standards appearing in N 13.5-1972 but also includes recommended intervals for such testin Many Commission licensees employ film dosimetry to satisfy the personnel monitoring requirements of 10 CFR Part 20. However, film used in mixed fields of gamma and neutron radiation may provide an incomplete indication of the dose equivalent due to neutrons. This difficulty arises when a significant fraction of the dose equivalent is due to intermediate 'Copies may be obtained from the American National Standards Institute, Inc., 1430 BToadway, New York, New York 10018.USAEC R.GULATO"V GUIDES Copie of published qu.oe may be obtained by rebuest indating the divisions desired to the US. Atomic Eneis- Comrinio.l tlhington. ODC. 2054 Guod el rr issued to deio be and niehe ivailable to the public Atention Director of Regulatery Standards Comments and tuwantion$ for etnods ecmptable to the AlCt:C ftlilJaoly ostall of ipecifioci parone iof flwaiteis nti in tiell guidn awe entcti olrgd and titould be tnt to the Secrelary Ito ma1lat 0 -6o, .i' doellrote tainoques usted by the staff in of the CoMMmuitoni. U.S. Atomic Energy Wahington, 0.C. 2054 sevluating apecttic poooblertn a? posiarlostiel accodoeiit, v, to trovide gsuidien to A too ion Chief. Public PrOw~ig;~n Staf apaittnit Ne (ltr rumini, aer not wbobtat..tai fix regutatbortt and comnplienes vith them is iequiieo. Methods d toblutio difn Mnt hfrom thate tt out in The guidsm awt iud in the followting ten broadodvisiont: the suids *III be ocomteptbir It ttse provide a basis to. thew findong reqijisite to rhe imsoiace or onwwa,,u Of oVcne p I na l by the conmrissidoli 1. Powe React1or 6 Products 2 Resmidh and Test Reactors 7, 3. Fkantd Materiots Facilitie S. Occupaetonal Health Pubtivhoid etudes will be revitat as appioprate tO aoM.oumoNdata 4 Envoreneiatal and Siting 9 Antitrust Review co'OntInts ond II refkiact neonw 1i nrintiwto a"Wei.elit. 5 Ma01terias tand Plant Protection to Ganeral neutrons of insufficient energy to produce discernible recoil proton tracks in dosimetric fim or when tracks are masked by blackening of the film due to gamma radiation. To overcome these problems, licensees often employ an indirect measurement technique which utilizes gamma pocket dosimeters to determine the neutron dose equivalent as well as the gamma exposur This technique requires knowledge of the intermediateneutron-to-gamma ratio in the area of interest. Under certain conditions this method is a useful personnel monitoring procedure. If the dose equivalent rate due to intermediate neutrons and the gamma exposure rate are determined separately and in a technically sound manner, and if the neutron-to-gamma ratio is essentially constant during the period(s) of exposure, the Commission will accept the method as complying with the regulations. Therefore, guidance on the method is included in this documen

C. REGULATORY POSITION

American National Standard N13.5-1972, "Performance Specifications for Direct Reading and Indirect Reading Pocket Dosimeters for X- and Gamma Radiation," provides an acceptable basis for the selection and continued use of direct-reading or indirect-reading pocket dosimeters, as defined in Section 2 of N13.5-1972; as instruments for measuring X- and gamma radiation2 pursuant to the requirements of §§ 20.202(a) and 20.401 of 10 CFR Part 20, and § 34.33 of 10 CFR Part 34, as supplemented by the following: 1. Testing Direct- or indirect-reading pocket dosimeters used as personnel monitoring equipment should be tested for calibration/response and leak rate: a. Prior to initial use; b. After subjection to possible damage from dropping or other causes;3 c. At maximum testing intervals of: "2Any pocket dosimeter meeting the performance standards specified in ANSI N13.5-1972 is acceptable to the AEC Regulatory staff for X- or gamma radiation measurements made pursuant to § § 20.105(b)(2), 20.201, and 20.202(b) of 10 CFR Part 2 'Dosimeters should be worn in pairs when used as the primary method of personnel monitoring required by the regulations.(i) 3 months if the dosimeters are us :d as tihe primary method for compliance with § § 20.2012(a) and 20.401 of 10 CFR Part 20, or for compliance with § 34.33 of 10 CFR Part 34; or (2) 6 months if the dosimeters are used to supplement the primary method for compliance with the above sections of the regulation . Rejection A dosimeter should be rejected if it fails t. comply with either of the following: a. ANSI N13.5-1972, Section 9; b. The calibration/response test result should not exceed +/-1 0% of an exposure from a source traceable to the National Bureau of Standard . Mixed Radiation Fields Direct- or indirect-reading pocket dosimeters may be used in a mixed neutron/gamma radiation field to comply with the personnel monitoring and record keeping requirements of 10 CFR Part 20, § § 20.202(a) and 20.401, provided that all of the following conditions are met: a. The neutron dose equivalent rate and the gamma exposure rate at the point of personnel exposure are known from separately made determinations; b. The neutron-to-gamma ratio is essentially constant during the period of personnel exposure; c. The degree of response of the dosimeter to the neutron flux density is know If the response to the neutron flux density is negligible, the gamma exposure indicated by the dosimeter may be accepted. To determine the neutron dose equivalent, multiply the indicated gamma expoure by the neutron-to-gamma rati If the response to the neutron flux density is significant, the actual gamma exposure should be obtained by subtracting the neutron response from the indicated gamma exposure. To determine the neutron dose equivalent, multiply the actual gamma exposure by the neutron-to-gamma ratio.9.4-2