1. Investigation of VVER-1000 fuel assembly bowing effect on power distribution during cycle using neutron noise adiabatic approximation.
- Author
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Vosoughi, Javad, Vosoughi, Naser, and Akbar Salehi, Ali
- Abstract
• Fuel Assembly bowing is the lateral change in the FA shapes in the reactor core. • The change in the distance between FAs caused by the bowing leads that affects power distribution. • This perturbation is time-dependent because the boric acid concentration change during the reactor operation cycle. • Neutron noise is used in the analysis and investigation of neutron perturbation time-dependent. • In this research, by using an adiabatic approximation in neutron noise theory has been made to investigate the influence of the bowing phenomenon of FAs. • The noise amplitude caused by the bowing during the cycle depends on the changes in the boric acid concentration, burnup, size, and direction of the FA bowing. Thermomechanical and radiation loads in the reactor core cause lateral changes in the shape of Fuel Assemblies (FAs). This phenomenon, known as FA bowing, has significant implications for reactor safety and operation. Bowing results in alterations to the spacing between FAs, which in turn leads to neutron flux perturbations affecting power distribution. These perturbations are time-dependent due to variations in boric acid concentration during the cycle. Neutron noise theory is employed to analyze these time-dependent neutron perturbations. In this research, it is investigated the bowing effect during the cycle in a VVER-1000 reactor using the neutron noise adiabatic approximation. It was initially considered a VVER-1000 reactor core to verify the calculations algorithm without bowed FAs. Results had acceptable accuracy in power, initial boric acid, and cycle length. Subsequently, it was explored various modes of FA bowing as neutron noise sources the results revealed that the power noise caused by bowing varies throughout the cycle, as expected. The noise amplitude during the cycle depends on changes in boric acid concentration, burnup, size, and the direction of bowing. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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