原子能科学技术2024,Vol.58Issue(1):84-92,9.DOI:10.7538/yzk.2023.youxian.0137
一种简化的高温热管启动模型
A Simplified Model for High-temperature Heat Pipe Startup
摘要
Abstract
Heat pipe cooled reactors(HPRs)have been considered as one of the most promising candidates for deep space and deep-sea missions due to their advantages of simple structure,high power density and high reliability,etc.To investigate the transi-ent characteristics of such heat pipe cooled reactors,including startup,shutdown,pow-er transients and accident conditions,it is necessary to develop suitable and efficient models for describing the core,the heat pipe and the power conversion system.Espe-cially,for the startup process,an accurate and efficient model for the simulation of high-temperature heat pipe startup from the frozen state is indispensable.In this study,two transient models based on the dusty gas model(DGM)were developed.The first model(model 1)solved the mass and momentum equations of vapor flow,while the second model(model 2)simplified the vapor flow as a 1D steady-state heat conduction problem using an equivalent network model.The models considered the evaporation/condensa-tion flux at the vapor/liquid interface using the kinetic theory of gases.The wick and wall were modeled using an improved network model,which took into account the phase transition of the working fluid in the wick.Different methods were used to solve these models in this paper.For the model considering the vapor flow,the finite-difference dis-cretization scheme and the SIMPLEC algorithm were used to solve the governing equa-tions.For the equivalent network model,a loosely coupled numerical method is employed.The solution of wick and wall equations was in a transient state,while the equivalent heat conduction equation of the vapor flow was solved in a steady state mode.The alternating direction implicit(ADI)was adopted to solve the equations for the wick and wall regions.The startup experiments of high-temperature heat pipes with different working fluids are simulated to validate the accuracy of these models.The results indi-cate that the simulation results agree well with the experimental data.Compared with the flat-front startup model,the temperature distribution calculated by model 2 is more accurate,and the description of startup is more plausible.Meanwhile,model 2 gives quite reasonable results although it is less accurate than the model 1.The calculation efficiency of the model 2 is significantly improved compared to model 1.Consequently,in the feasibility study stage of an HPR system,the simplified equivalent network model(model 2)with considering both accuracy and efficiency is suitable for the simulation of heat pipe startup.关键词
热管堆/启动特性/高温热管/等效热阻模型Key words
heat pipe cooled reactor/startup characteristic/high-temperature heat pipe/equivalent network model分类
能源科技引用本文复制引用
王政,苟军利,徐世浩,单建强..一种简化的高温热管启动模型[J].原子能科学技术,2024,58(1):84-92,9.基金项目
国家重点研发计划(2019YFB1901204) (2019YFB1901204)
