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ANS 5.1

2014 Edition, 2014

Complete Document

Decay Heat Power in Light Water Reactors

Includes all amendments and changes through Reaffirmation Notice , 2019


Detail Summary

Active, Most Current

EN
Additional Comments:
INCLUDES ERRATUM
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Product Details:

  • Revision: 2014 Edition, 2014
  • Published Date: February 5, 2019
  • Status: Active, Most Current
  • Document Language: English
  • Published By: American Nuclear Society (ANS)
  • Page Count: 62
  • ANSI Approved: Yes
  • DoD Adopted: No

Description / Abstract:

This standard sets forth values for he decay heat power from fission products and actinides following shutdown of light water reacters (LWRs) using nuclear fuel initially containing 235U and 238U. The decay heat power from fission products is presented in tables and equivalent analytical representations. Contributions from the deay of 239U and 239Np and the contributions from all other actinides are represented separately. Methods are described that account for the reactor operating history, for the effect of neutron capture in fission products, and for assessing the uncertainty in the resultant decay heat power.

The standard applies to decay times of up to 1010s after shutdown.

Purpose and application

This standard provides bases for determining the decay heat power and its uncertainty following shutdown of LWRs. The information in this standard can be used in the design, performance evaluation, and assessment of the safety of LWRs.

The methods prescribed in this standard enable the calculation of fission product decay heat power with accuracies comparable to those of summation codes but without the need for complex calculations. The fission product decay heat power values in this standard have the advantage of being developed directly from experimental measurements for time periods <105s after fission. Therefore, this standard can be used as the basis for comparison with results of alternate methods for determining fission plroduct decay heat power. 1)

1)Examples of the use of the standard methods are presented in Appendix B.