Article ID Journal Published Year Pages File Type
8085144 Progress in Nuclear Energy 2015 13 Pages PDF
Abstract
Scaling up of core sizes beyond present generation has rendered renewed topicality to space-time kinetics and relevant safety research. Detailed computational codes to solve transient neutron diffusion equation for the highest level of approximation including core thermal as well as system feedbacks are being established worldwide. Consistent with this objective a general purpose 3D kinetics code 'TRIKIN' has been developed in the Atomic Energy Regulatory Board (AERB) and the Indian Institute of Technology Bombay, India to carry out transient analysis for a variety of power reactors. Code has been validated against a series of international benchmark problems for light water reactors. This paper presents an extension of the validation array of the TRIKIN code by solving a 3D kinetics PHWR benchmark problem (AECL-7236). A brief overview of space time kinetics methods is presented. Detailed numerical scheme of improved quasistatic (IQS) method to solve transient neutron diffusion equations, adopted in TRIKIN code has been described. Description of 3D kinetics PHWR benchmark problem and its solution using TRIKIN code has been presented. TRIKIN results have shown good agreement with benchmarks results, demonstrating excellent space-time kinetics capability of the code for PHWR type reactors.
Related Topics
Physical Sciences and Engineering Energy Energy Engineering and Power Technology
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