An economic and technological analysis of hybrid photovoltaic/wind turbine/battery renewable energy system with the highest self-sustainability

Q2 Engineering Energy Harvesting and Systems Pub Date : 2022-11-09 DOI:10.1515/ehs-2022-0030
Q. Hassan, M. Jaszczur, Imad Saeed Abdulrahman, H. M. Salman
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引用次数: 10

Abstract

Abstract This research established the technoeconomic feasibility of an on-grid hybrid renewable energy system for delivering electricity to the deanery building of the Engineering College at the University of Diyala, Iraq. The most cost-effective system design was discovered by modeling and optimization, with an average daily load of 25.0 kWh and total cost and energy cost of $5142 and $0.05/kWh, respectively. In relation to the energy generated by conventional resources, the designed system is more cost-effective and has a lower carbon footprint of about 13,052 kg/year of CO2 emissions avoided. According to the research, using a hybrid power system to electrify and decarbonize the electrical energy supply could be a reliable and economical way to do both at the same time. Innovation is in integrating the suggested hybrid system so that the use of electricity can effectively be decreased to meet the load. As a result, the system components are not oversized, which reduces system costs and reduces emissions.
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具有最高自我可持续性的光伏/风力涡轮机/电池混合可再生能源系统的经济和技术分析
摘要:本研究建立了一种并网混合可再生能源系统的技术经济可行性,该系统用于向伊拉克迪亚拉大学工程学院的院长大楼供电。通过建模和优化,找到了最具成本效益的系统设计,平均日负荷为25.0 kWh,总成本和能源成本分别为5142美元和0.05美元/kWh。与传统资源产生的能源相比,设计的系统更具成本效益,碳足迹更低,每年可避免约13052千克的二氧化碳排放。根据这项研究,使用混合动力系统来实现电力供应的电气化和脱碳可能是同时做到这两点的可靠和经济的方法。创新之处在于整合建议的混合动力系统,这样可以有效地减少电力的使用,以满足负载。因此,系统组件不会过大,从而降低了系统成本并减少了排放。
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来源期刊
Energy Harvesting and Systems
Energy Harvesting and Systems Energy-Energy Engineering and Power Technology
CiteScore
2.00
自引率
0.00%
发文量
31
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