Demand side management system for future buildings

2016 First International Conference on Sustainable Green Buildings and Communities (SGBC) Pub Date : 2016-12-01 DOI:10.1109/SGBC.2016.7936058

C. Phurailatpam, R. Chauhan, B. Rajpurohit, F. G. Longatt, S. Singh

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引用次数: 9

Abstract

This paper proposes a new demand-side management (DSM) scheme for autonomous DC microgrid for the future building. The DC distribution system is considered as a prospective system due to the increase of DC loads and DC power sources such as photovoltaic (PV), and battery bank (BB). The BB responds to the changes in power imbalance between PV generation and demand within an autonomous DC microgrid. The power loss during charging/discharging in the battery is the great challenge for the autonomous DC microgrid supplied by PV. It decreases the system efficiency. The control objective of the proposed DSM scheme is to use the PV energy more efficiently. The proposed control algorithm shifts the deferrable load from non-sunny hours to sunny hours and decreases the building demand during non-sunny hours. In this way it decreases the charging/discharging cycles of the batteries. This is reducing the power losses in the battery and improves system efficiency. The proposed scheme reduces the size of the PV plant, storage and capital cost of the system.

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未来建筑需求侧管理系统

本文提出了一种面向未来建筑的自主直流微电网需求侧管理(DSM)方案。由于直流负荷和直流电源如光伏(PV)、电池组(BB)的增加，直流配电系统被认为是一个有前景的系统。BB响应自主直流微电网中光伏发电和需求之间功率不平衡的变化。电池充放电过程中的功率损耗是光伏供电的自主直流微电网面临的巨大挑战。降低了系统效率。提出的需求侧管理方案的控制目标是更有效地利用光伏能源。该控制算法将可延迟负荷从非日照时段转移到日照时段，降低了非日照时段的建筑需求。这样就减少了电池的充电/放电周期。这样可以减少电池的功率损耗，提高系统效率。提出的方案减少了光伏电站的规模、存储和系统的资本成本。

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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2016 First International Conference on Sustainable Green Buildings and Communities (SGBC)

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