摘要
将热工水力系统分析程序RELAP5与三维物理瞬态输运程序TDOT-T采用并行方式耦合,对并联双通道自然循环系统内核热耦合不稳定性进行分析,得到系统的不稳定边界。分别以燃料时间常数差异较大的板型元件及棒型元件为对象,讨论了核反馈对系统稳定性的影响。对于板型元件,核反馈作用对低含汽率区的第1类密度波振荡(DWO)有明显的抑制作用,而对高含汽率区的第2类DWO基本无影响。对于棒型元件,计算分析结果表明核反馈对系统稳定性几乎无影响。
The thermal-hydraulic system code RELAP5 was coupled with the TDOT-T 3D neutron kinetic code by parallel virtual machine (PVM). A parallel double-channel natural circulation boiling system was built by the coupled code and the instability boundary of the system was obtained. Two types of fuel with different geometries (flat- plate-type fuel and pin-type fuel) were used in the analysis respectively, and the influ- ences of neutronic feedback on density wave instability were analyzed. For the flat-plate- type fuel system, it is found that the type 1 density wave oscillation (DWO) is suppressed by neutronic feedback significantly but the effect of neutronic feedback on type 2 DWO is weak. For the pin-type fuelsystem, the result shows that the effect of neutronic feedback on instability boundary of the system could be ignored.
出处
《原子能科学技术》
EI
CAS
CSCD
北大核心
2013年第4期557-563,共7页
Atomic Energy Science and Technology
