论文信息 - Development of Kinetics Model for BWR Core Simulator AETNA

Development of Kinetics Model for BWR Core Simulator AETNA

An adiabatic kinetics model has been developed for a BWR core simulator AETNA. A few-energy-group analytic polynomial nodal diffusion method consistent with its steady-state solution has been adopted for spatial solution. The frequency transform method has been introduced to reduce computing time during the transient. The AETNA solution efficacy has been evaluated through comparison of the results with other codes using established benchmark problems. In particular, AETNA has shown a good agreement with QUANDRY, i.e., almost the same accuracy as other codes with regard to power or power density, peak time and fuel temperature. The computing time is reduced to less than one-ninth in no feedback cases and less than one-third in a Doppler feedback case when applying the frequency transform method.

Tatsuya Iwamoto | Masashi Tamitani | Brian R. Moore

[1] Tatsuya Iwamoto,et al. Advanced Nodal Methods of the Few-Group BWR Core Simulator NEREUS , 1999 .

[2] M. P. Knight,et al. The development of a transient neutron flux solution in the PANTHER code , 1990 .

[3] S. Langenbuch,et al. Coarse-mesh flux-expansion method for the analysis of space--time effects in large light water reactor cores , 1977 .

[4] B. N. Aviles. Development of a variable time-step transient NEW code: SPANDEX , 1993 .

[5] B. R. Bandini. A three-dimensional transient neutronics routine for the TRAC-PF1 reactor thermal hydraulic computer code , 1990 .

[6] M. P. Knight,et al. Improvements to the transient solution in the PANTHER space-time code , 1993 .

[7] Tatsuya Iwamoto,et al. Present Status of GNF New Nodal Simulator , 2001 .

[8] J. B. Yasinsky,et al. COMPARISON OF ALTERNATING DIRECTION TIME DIFFERENCING METHODS WITH OTHER IMPLICIT METHODS FOR THE SOLUTION OF THE NEUTRON-GROUP DIFFUSION EQUATIONS. , 1969 .

[9] Kord Smith,et al. An analytic nodal method for solving the two-group, multidimensional, static and transient neutron diffusion equations , 1979 .

[10] T. M. Sutton,et al. Diffusion theory methods for spatial kinetics calculations , 1994 .

[11] E. Brega,et al. Computation accuracy and efficiency of a coarse-mesh analytic nodal method for LWR transient problems, in comparison with a space-time synthesis method , 1981 .