提出了需求侧管理的成本和峰值负荷优化算法

2016 4th International Istanbul Smart Grid Congress and Fair (ICSG) Pub Date : 2016-04-20 DOI:10.1109/SGCF.2016.7492421

M. Shoukath Ali, M. F. Zia, Muhammad Waqas Sundhu

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引用次数: 9

摘要

电能不能大规模储存，因为我们没有大量储存电能的资源。它必须立即生产、传播、分发和使用。然而，载荷的性质是随时间变化的。发电厂是为满足最大需求而设计的。这意味着峰值负荷与平均负荷之间的差距较大，导致单位成本较高。由于高峰时段负荷急剧增加，需要安装大型发电机组来满足高峰需求。由于财政资源有限，发展中国家不可能安装如此大型的发电机组。针对这一问题，提出了需求侧管理(DSM)技术。在需求侧管理(DSM)技术中，负荷被转移到非高峰时段，从而为住宅用户带来经济效益。电力需求侧管理是智能电网的重要组成部分，用于将电网负荷转移到非峰值时段，重塑电网负荷曲线。因此，SG的重要性增加，单位能源成本降低。然而，本研究论文围绕柔性设备的DSM负载转移技术展开。应将柔性设备移至非高峰时段。为了最大限度地减少上述问题，本研究提出了“日前变速”技术。本文以巴基斯坦春季住宅负荷为研究对象进行数学建模和仿真。该算法是在Matlab软件中开发的。本文的研究结果表明，DSM方法实现了显著的节能和客观的曲线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Demand side management proposed algorithm for cost and peak load optimization

The electrical energy cannot be stored in large scale because we have no resource to store it in bulk. It has to be produced, transmitted, distributed and used instantly. However the nature of the load is variable with respect to time. The power generating plants are designed for maximum demand. It means the gap between peak load and the average load is high which results in greater per unit cost. The peak load increases suddenly in peak hours so we need to install large power generating plants to meet peak demand. It is not possible for developing countries to install such large power generating units due to limited financial resources. The proposed solution of this problem is Demand Side Management (DSM) technique. In Demand Side Management (DSM) technique the load is shifted to off peak hours which results in financial benefit to residential customers. DSM is an important part of Smart Grid (SG) which is used to shift load to off peak timings as well as reshape load curve. As a result, importance of SG increases and there is a decrease in per unit energy cost. However this research thesis revolves around DSM load shifting techniques for only flexible devices. The flexible devices should be shifted to off peak period. “The Day Ahead Shifting” technique is proposed in this research thesis to minimize the above said problem significantly. Mathematical modelling and simulation in this research thesis are based on residential load during the spring season in Pakistan. This algorithm is developed in Matlab software. The findings of this thesis suggest that DSM approach attains significant energy savings and objective curve.

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来源期刊

2016 4th International Istanbul Smart Grid Congress and Fair (ICSG)

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