Applying Advanced Control Techniques for Temperature Regulation of the LHC Superconducting Magnets

机译：先进控制技术在LHC超导磁体温度调节中的应用

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The temperature of the superconducting magnets for the future LHC accelerator is a control parameter with strict operating constraints imposed by (a) the maximum temperature at which the magnets can operate, (b) the cooling capacity of the cryogenic system, (c) the variability of applied heat loads and (d) the accuracy of the instrumentation. A temperature regulation with narrow control band can in principle be achieved by implementing a Model Predictive Control (MPC)-type controller. For this purpose, and for investigating the behavior of the cooling system, a simulation program has been developed. A prototype MPC controller has been installed and completed its first run.

机译：未来的LHC加速器的超导磁体的温度是一个控制参数，具有严格的操作约束，其中包括（a）磁体可以工作的最高温度，（b）低温系统的冷却能力，（c）可变性施加的热负荷和（d）仪器的精度。原则上，可以通过实施模型预测控制（MPC）型控制器来实现窄控制带的温度调节。为此，并且为了研究冷却系统的性能，已经开发了模拟程序。 MPC控制器原型已安装并完成其首次运行。

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《International cryogenic engineering conference 1998(ICEC17)》|1998年|631-634|共4页
会议地点 Bournemouth(GB);Bournemouth(GB)
作者
Bjorn Flemsaeter; Enrique Blanco; Juan Casas-Cabillos; Cesar de Prada; Steinar Saelid;
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作者单位

LHC Division, CERN, Geneva (Switzerland);

LHC Division, CERN, Geneva (Switzerland);

LHC Division, CERN, Geneva (Switzerland);

ISA Universidad de Valladolid, Valladolid (Spain);

ITK Norwegian University of Science and Technology (Norway);

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原文格式 PDF
正文语种 eng
中图分类制冷工程;
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Applying Advanced Control Techniques for Temperature Regulation of the LHC Superconducting Magnets

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