采用自然循环的余热排出系统是一种被动安全的系统。
The residual heat removal system with natural circulation is a passive safety system.
微流量启动使余热排出系统参数波动变大,达到稳定过程的时间变长。
The small flow rate start-up mode results in system fluctuations that increase with time until a stable process is reached.
非能动余热排出系统是模块式高温气冷堆(MHTR)实现固有安全性的重要保证。
Passive residual heat removal system is the key assurance for the inherent safety of modular high-temperature gas-cooled reactor (MHTR).
程序TRACPF 1采用了带有不可凝气体场的两相二流体非平衡态的流体动力学模型,被用于余热排出系统的分析。
Due to its two phase two fluid hydro dynamic model with an in condensable gas field, TRAC PF1 cods is used to analyzes the transient performance of this system.
利用RETRAN 02程序,以全厂断电事故为设计基准事故,对TANES非能动余热排出系统的余热排出能力进行了计算。
The RETRAN02 code was used to calculate the ability of the passive PRHR system of TANES at the design-based accident of losing conventional and dependable electrical power under full power.
利用RETRAN 02程序,以全厂断电事故为设计基准事故,对TANES非能动余热排出系统的余热排出能力进行了计算。
The RETRAN02 code was used to calculate the ability of the passive PRHR system of TANES at the design-based accident of losing conventional and dependable electrical power under full power.
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