Analysis of synchronization in a supermarket refrigeration system 被引量：1

Analysis of synchronization in a supermarket refrigeration system

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摘要 In a supermarket refrigeration, the temperature in a display cases. This leads to a synchronous operation of all display cases, case, surprisingly, influences the temperature in other display in which the expansion valves in the display cases turn on and off at exactly the same time. This behavior increases both the energy consumption and the wear of components. Besides this practical importance, from the theoretical point of view, synchronization, likewise stability, Zeno phenomenon, and chaos, is an interesting dynamical phenomenon. The study of synchronization in the supermarket refrigeration systems is the subject matter of this work. For this purpose, we model it as a hybrid system, for which synchronization corresponds to a periodic trajectory. To examine whether it is stable, we transform the hybrid system to a single dynamical system defined on a torus. Consequently, we apply a Poincare map to determine whether this periodic trajectory is asymptotically stable. To illustrate, this procedure is applied for a refrigeration system with two display-cases. In a supermarket refrigeration, the temperature in a display cases. This leads to a synchronous operation of all display cases, case, surprisingly, influences the temperature in other display in which the expansion valves in the display cases turn on and off at exactly the same time. This behavior increases both the energy consumption and the wear of components. Besides this practical importance, from the theoretical point of view, synchronization, likewise stability, Zeno phenomenon, and chaos, is an interesting dynamical phenomenon. The study of synchronization in the supermarket refrigeration systems is the subject matter of this work. For this purpose, we model it as a hybrid system, for which synchronization corresponds to a periodic trajectory. To examine whether it is stable, we transform the hybrid system to a single dynamical system defined on a torus. Consequently, we apply a Poincare map to determine whether this periodic trajectory is asymptotically stable. To illustrate, this procedure is applied for a refrigeration system with two display-cases.

作者 Rafael WISNIEWSKI John LETH Jakob G. RASMUSSEN

机构地区 Department of Electronic Systems Department of Mathematical Sciences

出处《Control Theory and Technology》 EI CSCD 2014年第2期154-162,共9页 控制理论与技术（英文版）

关键词 SYNCHRONIZATION Hybrid systems STABILITY Limit cycles Stochastic approximation Synchronization Hybrid systems Stability Limit cycles Stochastic approximation

分类号 TP273 [自动化与计算机技术—检测技术与自动化装置] TN915.01 [电子电信—通信与信息系统]

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Analysis of synchronization in a supermarket refrigeration system 被引量：1

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