APPENDIX E – PORTABLE EMERGENCY MONITORING INSTRUMENTATION AND EQUIPMENT SPECIFICATIONS

APPENDIX E – PORTABLE EMERGENCY MONITORING INSTRUMENTATION AND EQUIPMENT SPECIFICATIONS

1. 
   Introduction
   

This appendix provides references to American National Standards Institute (ANSI) documents which contain specifications and calibration requirements for portable radiological survey instruments, portable air samplers, direct reading dosimeters, and indirect reading dosimeters. The Plume Exposure Rate Verification System and the Emergency Worker Radiation Exposure Monitoring System should be composed of combinations of radiation monitoring instruments and equipment which meet ANSI requirements. Although some of the referenced ANSI documents are directed toward on-site emergency response instrumentation and equipment, the requirements which apply to portable instrumentation and equipment can be equally well applied to off site emergency response instrumentation and equipment. ANSI specifications are continuously updated and/or reaffirmed. Therefore, the latest issuance of the specification should be used.

2. 
   Portable Radiological Survey Instrumentation
   

The instrumentation for exposure rate or count rate measurements should meet the requirements of ANSI N320-1979.^cxxii The instrument testing procedures, e.g., procedures for determining system accuracy, spectral and angular dependence, temperature influences, other environmental influences, exposure rate limitations, etc., should conform to ANSI N13.4-1972.^cxxiii

3. 
   Portable Air Samplers
   

The air mover, e.g., the pump, and the sample filter holder unit of the portable air sampling system should meet the portable air sampler requirements of ANSI N320-1979.^cxxiv

4. 
   Calibration of Portable Emergency Radiation Monitoring Instrumentation
   

Calibration of portable radiation detection instruments involves routine testing of certain radiological characteristics of the instruments. These tests should be repeated routinely on at least an annual basis because aging of components and batteries or replacement of components may affect the calibration. One precalibration and primary calibration requirements and the calibration frequency for linear, logarithmic, and digital readout instruments should meet N328-1978^cxxv requirements

5. 
   Direct Reading Dosimeters
   

The emergency worker's direct reading dosimetric devices should be adequate to measure exposures as low as 0.5 R, as well as measure exposures in the range of. the most reasonably expected preplanned exposures and measure possible accidental exposures that might be received in excess of the preplanned limits. If possible, the dosimeters should also measure in excess of the emergency lifesaving protective action guide^cxxvi of 75 rem. In order to meet this exposure range criteria, two direct reading dosimeters may be required to provide adequate sensitivity and the range of exposure coverage. These direct reading devices should be direct reading quartz fiber dosimeters with overlapping ranges, a 0-5 R dosimeter or 0-20 R dosimeter in conjunction with a dosimeter with a range of at least 0-100 R. The 0-5 or 0-20 R direct reading dosimeter will provide adequate sensitivity to read radiation mission exposures in the 5 R range or less to determine compliance with the emergency worker's protective action guide for whole body exposure^cxxvii as specified in Evaluation Criteria K.4 of NUREG-0654.^cxxviii Direct reading dosimeters with ranges of 0-100 R or 0-200 R are commonly available and provide an exposure range which measures exposures in excess of the lower range dosimeter and is adequate to measure accidental radiation exposures or radiation exposures which may reach the 75 rem life saving protective action guide. The direct reading dosimeters should meet the requirements and the inspection and test specifications of ANSI N322-1977^cxxix. The direct reading dosimeters and the dosimeter chargers relationships should inset the requirements of ANSI N42.6-1980.^cxxx Dosimeters should be routinely tested for electrical leakage and calibrations as recommended in Section 4.

6. 
   Indirect Reading Dosimeters
   

Indirect reading dosimeters should be used to provide a record of the emergency worker's integrated exposure over an entire accident. The indirect reading dosimetry system should preferably utilize thermoluminescent dosimeters, although film, glass bulb, or other similar types of indirect reading dosimeters and their associated readout devices could be acceptable. The hardcopy of the readouts from the indirect reading dosimeters should be kept as a part of the permanent file record of the emergency worker's exposure.

The suppliers of indirect reading dosimetry services should meet the performance test criteria of ANSI N13.11-1983^cxxxi and the dosimstry processors should also be accredited by the National Bureau of Standards (NBS), Office of Product Standards Policy program for evaluating personnel dosimetry processing, the National Voluntary laboratory Accreditation Program (NVLAP).

NVLAP accreditation is based on a process that includes five basic steps; application, proficiency testing, on-site assessment, evaluation and accreditation. Two steps, proficiency testing and on-site assessment form the technical basis of the accreditation.^cxxxii

Accreditation in the Dosimetry laboratory accreditation program (IAP) is awarded for a period of two years after which the participant must apply for renewal. Both the on-site assessment of the processing facilities and proficiency testing are performed on the same two year cycle. Proficiency testing is conducted in accordance with ANSY N13.11 which defines eight radiation test categories.^cxxxiii

Dosimetry accreditation is limited to those types or models of dosimeters which document whole body and skin dose. Processors may gain accreditation for as many different dosimeter models or types as they wish, provided that they demonstrate ability to meet the criteria. The program is not applicable to extremity dosimeters, pocket ionization chambers, or environmental monitors.^cxxxiv

Table E-l shows the eight radiation test categories with radiation ranges and tolerance levels for deep and shallow dose equivalent as defined in ANSI N13.11-1983.^cxxxv The FRPCC Subcommittee recommends that, for radiological emergency response purposes, the dosimetry processors meet test categories I, II, IV, V and VII during the NVLAP accreditation process. The NVLAP accreditation must be for the specific type of dosimetry in use, and must be for the type of radiation or radiations for which the individual wearing the dosimeter is monitored. Dosimetry users are advised to obtain an NBS annual directory^cxxxvi of NVLAP accredited laboratories to obtain information about each dosimetry processor's accreditation status and scope of accreditation.

Table E-l. Dosimeter Test Categories, Irradiation Range, and Tolerance Levels⁸

MFT)
II. Accidents, high-energy 10 to 500 rad 0.3 No test

radiation)

II, IK, MFC, MPG, MFI)

4. 
   High-Energy photons 0.3 to 10 rem 0.5 No test
   (Cs-137 gamma radiation)
   

4. 
   Beta Particles 0.15 to 10 rem No test 0.5
   (Sr-90/Y-90)
   

4. 
   Photon mixtures 0.05 to 5 rem 0.5 0.5
   (Any combination of
   

combination of categories IV and V)

moderated by 15 cm of D O covered

with cadmium and high-energy photons

(category IV)