Abstract
Presently, the most realistic simulation of a pressurized water reactor (PWR) core is by means of three-dimensional (3-D) full core calculations. Only by such 3-D representations can the large scope of axial effects be treated in an accurate and direct way, without the need to perform various auxiliary calculations. Although the computationally efficient burnup-corrected nodal expansion method (NEM-BC) is used, the computing effort for 3-D reactor calculations becomes rather high, e.g. a storage of about 320000 words is required to describe a 1300 MWe PWR. NEM-BC was introduced (1979) into KWU’s package of PWR design codes because of its high accuracy and the great reduction of computing time and storage requirements in comparison to other methods.
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