Optimum Sizing and Modeling of Stand-Alone DC Microgrid With Hybrid Energy Storage System for Domestic Applications: Cost of Energy, Net Present Cost, and Feasible Configurations

IF 1.9 Q3 COMPUTER SCIENCE, CYBERNETICS IEEE Systems Man and Cybernetics Magazine Pub Date : 2023-04-01 DOI:10.1109/MSMC.2022.3229838

K. Karunanithi, S. Ramesh, S. Raja, Swaminathan Saravanan

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Abstract

In this article, optimum sizing and modeling of a stand-alone dc microgrid (DCMG) system for domestic applications with hybrid storage system is been proposed. The hybrid storage system consists of a lithium-ion battery (LIB) and supercapacitor (SC). The DCMG is designed to meet the load requirements of a house located in Aruppukottai, in the southern region of Tamil Nadu, India. The daily energy demand is estimated as 7.77 kWh with a peak load of 1.19 kW. This DCMG is designed and simulated by using Homer Pro software. The optimum sizing of solar photovoltaics (PVs), wind turbine (WT), LIB, and SC is evaluated based on cost of energy (CoE) and net present cost (NPC), and all feasible configurations are discussed. The feasible configurations include PV+LIB, PV+WT+LIB, WT+LB, PV+WT+SC, PV+SC, and WT+SC and are compared in terms of CoE and NPC. The results show that the PV+LIB architecture is the optimum configuration, with a CoE of ${\$}$0.2/kWh and an NPC of $7,334.

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家用混合储能系统单机直流微电网的优化规模和建模:能源成本、净现值成本和可行配置

本文提出了一种适合国内混合储能系统的单机直流微电网(DCMG)系统的优化尺寸和建模方法。该混合存储系统由锂离子电池(LIB)和超级电容器(SC)组成。DCMG的设计是为了满足位于印度泰米尔纳德邦南部地区Aruppukottai的住宅的负载要求。预计每日能源需求为7.77千瓦时，峰值负荷为1.19千瓦。利用Homer Pro软件设计并仿真了该系统。基于能源成本(CoE)和净当前成本(NPC)对太阳能光伏(pv)、风力涡轮机(WT)、LIB和SC的最佳尺寸进行了评估，并讨论了所有可行的配置。可行的配置包括PV+LIB、PV+WT+LIB、WT+LB、PV+WT+SC、PV+SC和WT+SC，并对CoE和NPC进行了比较。结果表明，PV+LIB结构为最佳配置，CoE为${\$}$0.2/kWh, NPC为$7,334。

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IEEE Systems Man and Cybernetics Magazine COMPUTER SCIENCE, CYBERNETICS-

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