Coordinated Control of a Small Pressurized Water Reactor

Peiwei Sun, Chongwu Wang
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Abstract

Small Pressurized Water Reactors (SPWR) are different from those of the commercial large Pressurized Water Reactors (PWRs). There are no hot legs and cold legs between the reactor core and the steam generators like in the PWR. The coolant inventory is in a large amount. The inertia of the coolant is large and it takes a long time for the primary system to respond to disturbances. Once-through steam generator is adopted and its water inventory is small. It is very sensitive to disturbances. These unique characteristics challenge the control system design of an SPWR. Relap5 is used to model an SPWR. In the reactor power control system, both the reactor power and the coolant average temperature are regulated by the control rod reactivity. In the feedwater flow control system, the coordination between the reactor and the turbine is considered and coolant average temperature is adopted as one measurable disturbance to balance them. The coolant pressure is adjusted based on the heaters and spray in the pressurizer. The water level in the pressurizer is controlled by the charging flow. Transient simulations are carried out to evaluate the control system performance. When the reactor is perturbed, the reactor can be stabilized under the control system.
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小型压水堆的协调控制
小型压水堆(SPWR)不同于商用的大型压水堆(PWRs)。在反应堆核心和蒸汽发生器之间没有热腿和冷腿,就像在压水堆里一样。冷却剂库存数量很大。冷却剂的惯性很大,主系统对扰动的响应需要很长时间。采用直通式蒸汽发生器,储水量小。它对干扰非常敏感。这些独特的特性给SPWR的控制系统设计带来了挑战。Relap5用于为SPWR建模。在反应堆功率控制系统中,反应堆功率和冷却剂平均温度都由控制棒的反应性来调节。在给水流量控制系统中,考虑了反应堆与水轮机之间的协调性,采用冷却剂平均温度作为一种可测扰动来平衡两者。根据稳压器内的加热器和喷雾调节冷却液压力。稳压器内的水位是由增压流量控制的。通过瞬态仿真来评估控制系统的性能。当反应器受到扰动时,控制系统可以使反应器稳定。
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