Optimal operation of grid-connected microgrid with renewable generation and battery energy storage

2020 IEEE International Conference on Power Systems Technology (POWERCON) Pub Date : 2020-09-14 DOI:10.1109/POWERCON48463.2020.9230559

Pranjal Sen, D. Das

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Abstract

This paper aims at comparing different optimisation techniques, for finding the charge and discharge schedule of a battery energy storage system (BESS) in a grid-connected microgrid. One of the techniques, based on linear programming (LP), targets to reduce the energy intake from the grid and the diesel generator present in the microgrid. The other technique based on dynamic programming (DP-I), aims towards developing a day-ahead schedule which ensures minimum operating cost of the microgrid throughout the day. The paper also proposes a modified charge/discharge cycle constrained dynamic programming technique with an objective similar to DP-I, but it also aims towards bringing down the number of charge/discharge cycles in a planning day. The effects of the battery schedules prepared from all the three strategies on the lifetime time of the battery, are also compared. This work uses an 192-hour model of aggregated seasonal data of solar, wind, and load demand, along with an aging model in predicting the lifetime of the battery. The proposed work is demonstrated in a 33-bus distribution network.

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具有可再生能源发电和电池储能的并网微电网优化运行

本文旨在比较不同的优化技术，以寻找并网微电网中电池储能系统(BESS)的充放电计划。其中一种基于线性规划(LP)的技术旨在减少微电网中来自电网和柴油发电机的能量摄入。另一种技术基于动态规划(DP-I)，旨在制定一个提前一天的计划，以确保微电网全天的最低运行成本。本文还提出了一种改进的充放电周期约束动态规划技术，其目标与DP-I类似，但它也旨在减少规划日内充放电周期的数量。比较了三种策略制备的电池计划对电池寿命的影响。这项工作使用了一个192小时的太阳能、风能和负载需求的季节性数据汇总模型，以及一个预测电池寿命的老化模型。所提出的工作在一个33总线配电网中得到了验证。

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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2020 IEEE International Conference on Power Systems Technology (POWERCON)

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