• ASTM E1005-97

ASTM E1005-97

Standard Test Method for Application and Analysis of Radiometric Monitors for Reactor Vessel Surveillance, E 706(IIIA)

ASTM International, 06/10/1997

Publisher: ASTM

File Format: PDF

$29.00$58.00


Published:10/06/1997

Pages:10

File Size:1 file , 110 KB

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1.1 This method describes general procedures for measuring the specific activities of radioactive nuclides produced in radiometric monitors (RMs) by nuclear reactions induced during surveillance exposures for reactor vessels and support structures. More detailed procedures for individual RMs are provided in separate standards identified in 2.1 and in Refs 11, 24-27. The measurement results can be used to define corresponding neutron induced reaction rates which can in turn be used to characterize the irradiation environment of the reactor vessel and support structure. The principal measurement technique is high resolution gamma-ray spectrometry, although X-ray photon spectrometry and Beta particle counting are used to a lesser degree for specific RMs (1-29).

1.1.1 The measurement procedures include corrections for detector background radiation, random and true coincidence summing losses, differences in geometry between calibration source standards and the RMs, self absorption of radiation by the RM, other absorption effects, and radioactive decay corrections (1-10, 12-22).

1.1.2 Specific activities are calculated by taking into account the time duration of the count, the elapsed time between start of count and the end of the irradiation, the half life, the mass of the target nuclide in the RM, and the branching intensities of the radiation of interest. Using the appropriate half life and known conditions of the irradiation, the specific activities may be converted into corresponding reaction rates (24-30).

1.1.3 Procedures for calculation of reaction rates from the radioactivity measurements and the irradiation power time history are included. A reaction rate can be converted to neutron fluence rate (flux density) and fluence using the appropriate integral cross section and effective irradiation time values, and, with other reaction rates can be used to define the neutron spectrum through the use of suitable computer programs (24-30).

1.1.4 The use of benchmark neutron fields for calibration of RMs can reduce significantly or eliminate systematic errors since many parameters, and their respective uncertainties, required for calculation of absolute reaction rates are common to both the benchmark and test measurements and therefore are self cancelling. The benchmark equivalent flux, for the environment tested, can be calculated from a direct ratio of the measured saturated activities in the two environments and the certified benchmark flux (24-30).

1.2 This method is intended to be used in conjunction with ASTM Guides E706 (IIC) and E844. The following existing or proposed ASTM practices, guides, and methods are also directly involved in the physics-dosimetry evaluation of reactor vessel and support structure surveillance measurements: E 706 (O) Master Matrix for Light-Water Reactor Pressure Vessel Surveillance Standards E 706 (IA), E853 Analysis and Interpretation of Light-Water Reactor Surveillance Results E 706 (IC), E560 Practice for Extrapolating Reactor Vessel Surveillance Dosimetry Results E 706 (ID), E693 Practice for Characterizing Neutron Exposures in Ferritic Steels in Terms of Displacements Per Atom (DPA) E 706 (IE) Damage Correlation for Reactor Vessel Surveillance E 706 (IF), E185 Practice for Conducting Surveillance Tests for Light-Water Nuclear Power Reactor Vessels E 706 (IG) Surveillance Tests for Nuclear Reactor Support Structures E 706 (IH), E636 Practice for Conducting Supplemental Surveillance Tests for Nuclear Power Reactor Vessels E 706 (IIA), E944 Guide for Application of Neutron Spectrum Adjustment Methods in Reactor Surveillance E 706 (IIB), E1018 Application of ASTM Evaluated Nuclear Data File (ENDF/A)-Cross Section and Uncertainty File E 706 (IID), E482 Guide for Application of Neutron Transport Methods for Reactor Vessel Surveillance E 706 (IIE) Benchmark Testing of Reactor Vessel Dosimetry E 706 (IIIB), E854 Test Method for Application and Analysis of Solid State Track Recorder (SSTR) Monitors for Reactor Vessel Surveillance E 706 (IIIC), E910 Test Method for Application and Analysis of Helium Accumulation Fluence Monitors for Reactor Vessel Surveillance E 706 (IIID) Application and Analysis of Damage Monitors for Reactor Vessel Surveillance E 706 (IIIE) Application and Analysis of Temperature Monitors for Reactor Vessel Surveillance

1.3 The general procedures in this method are applicable to the measurement of radioactivity in RMs which satisfy the specific constraints and conditions imposed for their analysis. More detailed procedures for individual RM monitors are identified in 2.1 and in Refs 11, 24-27 (see Table 1).

1.4 This method, along with the individual RM monitor standard methods, are intended for use by knowledgeable persons who are intimately familiar with the procedures, equipment, and techniques necessary to achieve high precision and accuracy in radioactivity measurements.

1.5 This standard does not purport to address all of the safety problems, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.

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