非对称条件下铅冷双环路自然循环系统抗扰动能力分析

自然循环铅冷快堆热交换器服役在高温、高压差、高密度和高腐蚀的恶劣环境下，易诱发传热管破裂和堵流事故，导致反应堆非对称热负荷或非对称阻力运行，对反应堆的安全稳定运行具有重要影响。本文以铅冷双环路自然循环系统为研究对象，采用无量纲分析方法，推导双环路系统自然循环流量理论解；分别开展不同负荷差或阻力差下自然循环系统扰动特性分析，采用拟合逼近的方法建立表征自然循环抗扰动能力的特征参数，并获得最佳抗扰动区间。研究结果表明，当系统引入一定的热负荷扰动和阻力扰动后，环路流量变化不大，此时系统抗扰动能力较强。 

Analysis of Disturbance Resisting Ability of Dual-Loop Natural Circulation System under Asymmetrical Conditions

Natural circulation lead-cooled fast reactor heat exchangers operate under the harsh environment of high temperature, high pressure difference, high density and high corrosion, which can easily induce heat transfer tube rupture and blockage accidents, resulting in asymmetric thermal load or asymmetric resistance operation of the reactor. It has an important impact on the safe and stable operation of the reactor. This paper takes the lead-cooled dual-loop natural circulation system as the research object, and uses a non-dimensional analysis method to derive the theoretical solution of the natural circulation flow of the dual-loop system; then carries out the disturbance characteristics analysis of the natural circulation system under different thermal load differences or resistance differences, using the fitting approximation method to establish the natural circulation characteristic parameters that characterize the anti-disturbance ability, and get the best anti-disturbance interval. The research results show that when the system introduces some thermal load and resistance disturbance, the loop flow does not change greatly, and the system has strong anti-disturbance ability.