Emulation of semi-active flow control for evaporator superheat regulation

Elliott Matthew; Rasmussen Bryan P.

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Emulation of semi-active flow control for evaporator superheat regulation

机译：用于蒸发器过热调节的半主动流控制仿真

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This paper considers superheat control of a vapor compression cooling cycle. Earlier research presented a hybrid expansion valve (HEV) that combines fast-acting mechanical pressure control with a slower electronic controller to regulate superheat, providing significant improvements in superheat control over standard valves. This paper shows that these improvements can be recreated with a simpler implementation of purely electronic control and a single expansion valve actuator. Simulations explore the actuator requirements, and experiments using a commercially available thermally-actuated MEMS valve show that the control architecture is suitable for both single and multiple evaporator systems, provided the actuator is fast enough. (C) 2015 Elsevier Ltd. All rights reserved.

机译：本文考虑了蒸汽压缩冷却循环的过热控制。较早的研究提出了一种混合膨胀阀（HEV），该阀将快速作用的机械压力控制与较慢的电子控制器相结合来调节过热，从而显着改善了标准阀的过热控制。本文表明，可以通过更简单的纯电子控制和单个膨胀阀执行器来重新实现这些改进。仿真研究了执行器的需求，使用市售的热驱动MEMS阀进行的实验表明，只要执行器足够快，控制体系结构就适用于单个和多个蒸发器系统。（C）2015 Elsevier Ltd.保留所有权利。

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《Applied thermal engineering: Design, processes, equipment, economics》 |2015年第null期|共11页
作者
Elliott Matthew; Rasmussen Bryan P.;
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正文语种 eng
中图分类热力工程、热机;热力工程理论;
关键词
Automatic control; Architectures; Actuators; Valves; Performance analysis;

机译：自动控制;建筑;执行器;阀门;性能分析;

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1. Emulation of semi-active flow control for evaporator superheat regulation [J] . Elliott Matthew, Rasmussen Bryan P. Applied thermal engineering: Design, processes, equipment, economics . 2015,第Null期

机译：用于蒸发器过热调节的半主动流控制仿真
2. Study on predictive functional control of an expansion valve for controlling the evaporator superheat [J] . C Changenet, J N Charvet, D Géhin, Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering . 2008,第6期

机译：控制蒸发器过热的膨胀阀的预测功能控制研究
3. Adaptive-model predictive control of electronic expansion valves with adjustable setpoint for evaporator superheat minimization [J] . Tesfay Mehari, Alsaleem Fadi, Arunasalam Parthiban, Building and Environment . 2018,第APRa期

机译：具有可调节设定值的电子膨胀阀的自适应模型预测控制，可最大程度地减少蒸发器过热
4. EVAPORATOR SUPERHEAT REGULATION VIA EMULATION OF SEMI-ACTIVE FLOW CONTROL [C] . Matthew Elliott, rnBryan P. Rasmussen Proceedings of the ASME dynamic systems and control conference 2009 . 2009

机译：通过半主动流控制仿真对蒸发器进行过热调节
5. Performance Evaluation, Emulation, and Control of Cross-Flow Hydrokinetic Turbines. [D] . Cavagnaro, Robert J. 2016

机译：横流水力涡轮机的性能评估，仿真和控制。
6. Facilitated Structure Formation in Isoporous Block Copolymer Membranes upon Controlled Evaporation by Gas Flow [O] . Kirti Sankhala, Joachim Koll, Volker Abetz 2020

机译：通过气流控制蒸发可促进等孔嵌段共聚物膜的结构形成
7. Switching Optimal Controller For Evaporation Temperature And Superheat Of Air-Conditioning Cooling System [O] . Linlin Zheng, Shujiang Li, Xiangdong Wang 2017

机译：用于蒸发温度和空调冷却系统过热的最佳控制器

Emulation of semi-active flow control for evaporator superheat regulation

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