电梯控制器能效评估与改进

M. Z. Hasan, R. Fink, M. R. Suyambu, M. Baskaran
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引用次数: 6

摘要

近年来,为了在不降低性能的情况下节省能源,正在采取一些措施来节约电力。在本文中,我们开发了一种算法来实现电梯系统的显著节能。电梯的运行可分为运行模式和待机模式两种。设计了一种在运行模式下能够控制电梯速度的节能电梯系统。速度根据所承载的载荷而变化,加速度根据要行驶的楼层数而变化。并对选择合适的转速范围进行了探讨。为了提高系统的整体性能,需要考虑系统的总行程时间。该算法在不同的交通模式下进行了测试:1)非高峰时段和2)高峰时段。最后将结果与恒速电梯进行了比较,并制成表格。此方法在非高峰时段可节省12.35%的能源和5.49%的时间,在交通强度高峰时段可节省5.06%的能源和1.32%的时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment and improvement of elevator controllers for energy efficiency
In recent years, several measures are being taken to conserve power with a goal towards energy savings without degradation in performance. In this paper we develop an algorithm to achieve notable energy savings in elevator systems. Operation of an elevator can be classified into two modes-running mode and stand-by mode. We design an energy-saving elevator system capable of manipulating its speed in running mode. Speed is varied based on the load carried and acceleration based on the number of floors to travel. Also choosing an appropriate range of speed is investigated. The total travel time of the system is to be considered for enhancing its overall performance. The algorithm is tested on varied traffic patterns: 1) Non-peak hours and 2) Peak hours. The final results are compared with constant speed elevators and tabulated. This method produces a 12.35% energy savings and 5.49% reduction in travel time during non-peak hours and 5.06% energy savings and 1.32% reduction in travel time during peak hours of traffic intensity.
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