Simulation and analysis of the outlet temperature control of flowing helium gas

doi:10.16568/j.0254-6086.201602010

Abstract

Abstract:

The heating process of flowing helium gas by the electric heater was analyzed. The system mathematical model was established from the perspective of energy balance. The PID control framework was adopted using Matlab Simulink module. To improve the effect of the temperature control, the PID control was optimized by the integral separation. Simulation results show that in the case where the fluid inlet temperatures change, a relatively stable gas outlet temperature is obtained by adjusting the heater power, and a good control is gotten.

Key words: TBM, Flowing gas, Temperature control, Simulation, Integral separation

摘要：

分析了电加热器对流动氦气的加热过程，从能量平衡和热传导的角度建立了系统数学模型，用解析的方法表达了热量的传递过程，得到了传递函数。用Matlab 的Simulink 模块搭建了PID 的控制框架，用积分分离的策略改进了温度控制的效果。仿真结果显示流体在进口温度不断变化的情况下，通过加热器的功率调节获得了比较稳定的气体出口温度，表现出了良好的控制结果。

关键词: TBM, 流动气体, 温度控制, 仿真, 积分分离

CLC Number:

TL62+1

WANG Fen, FENG Kai-ming, WANG Xiao-yu, YE Xing-fu, ZHANG Guo-shu. Simulation and analysis of the outlet temperature control of flowing helium gas[J]. NUCLEAR FUSION AND PLASMA PHYSICS, 2016, 36(2): 154-159.

王芬，冯开明，王晓宇，叶兴福，张国书. 流动氦气出口温度控制仿真与分析[J]. 核聚变与等离子体物理, 2016, 36(2): 154-159.

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Simulation and analysis of the outlet temperature control of flowing helium gas

流动氦气出口温度控制仿真与分析

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