Effective battery usage strategies for hybrid power management

V. Prema, S. Dutta, K. Rao, Shriya Shekhar, B. Kariyappa
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引用次数: 2

Abstract

In developing countries there are a large number of isolated areas not connected to the main grid. The energy demands of these remote, isolated communities are met by diesel operated power systems. These systems are often highly polluting and with time, an effort is made to make a transition to systems wherein single or multiple renewable energy sources are used to augment the diesel generators and thereby reduce the environmental footprint. Majority of such off-grid hybrid systems include a massive battery bank to store excess energy to supply the user when the renewable is inefficient. Inclusion of such large batteries results in additional investment costs and recycling issues. Therefore it is necessary to minimise the battery size as far as possible, and operate the system under a strategy to ensure maximum utilisation of renewable supplies and minimal DG usage. In this paper the power management strategy for a PV-battery and VSDG system was developed. A battery was modelled in MATLAB and four different battery operation algorithms were simulated for a set of data comprising of load and solar power output for every ten minute period for a day and the effective usage of DG was compared and analysed.
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混合动力管理的有效电池使用策略
在发展中国家,有大量的孤立地区没有连接到主电网。这些偏远、孤立的社区的能源需求由柴油供电系统来满足。这些系统通常是高度污染的,随着时间的推移,人们努力向系统过渡,其中使用单一或多种可再生能源来增加柴油发电机,从而减少环境足迹。大多数这样的离网混合系统包括一个巨大的电池组,用于存储多余的能量,以便在可再生能源效率低下时为用户提供电力。包含如此大的电池会导致额外的投资成本和回收问题。因此,有必要尽可能减小电池尺寸,并在确保最大限度地利用可再生能源和最小的DG使用的策略下运行系统。本文研究了一种光伏电池和VSDG系统的电源管理策略。在MATLAB中对某蓄电池进行了建模,并以一天中每10分钟的负荷和太阳能输出为数据,对蓄电池的4种不同运行算法进行了仿真,对比分析了DG的有效利用率。
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