太阳能和风能的混合发电:案例研究

P. Jenkins, Monaem Elmnifi, Abdalfadel Younis, A. Emhamed
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引用次数: 21

摘要

能源对任何国家的经济增长和社会发展都至关重要。需要在解决经济、环境和社会制约因素的前提下,将本土能源开发到最佳水平,以尽量减少对进口燃料的依赖。这导致可再生能源行业的研发和投资增加,以寻找满足能源需求和减少对化石燃料依赖的方法。风能和太阳能由于其丰富、可用和易于利用的发电能源而越来越受欢迎。本文重点研究了一个由风能和太阳能组成的综合混合可再生能源系统。利比亚的许多地区都有发展经济发电的潜力,因此使用地图位置来确定风能和太阳能潜力较高的地区。本文的重点是描述和评估选定地点的风能-太阳能混合发电系统。并网发电系统利用太阳能光伏或风力涡轮机发电,并通过连接电网为负载供电。在本研究中,使用HOMER(电力可再生能源混合优化模型)计算机建模软件对电力系统、其物理行为及其生命周期成本进行建模。计算机建模软件用于对电力系统、其物理行为及其生命周期成本进行建模。混合动力系统是为马尔杰大学(MARJU)的一栋建筑设计的。通过模拟,对10台100千瓦风力涡轮机和150千瓦太阳能光伏发电的安装情况进行了评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hybrid Power Generation by Using Solar and Wind Energy: Case Study
Energy is critical to the economic growth and social development of any country. Indigenous energy resources need to be developed to the optimum level to minimize dependence on imported fuels, subject to resolving economic, environmental and social constraints. This led to an increase in research and development as well as investments in the renewable energy industry in search of ways to meet the energy demand and to reduce the dependency on fossil fuels. Wind and solar energy are becoming popular owing to the abundance, availability and ease of harnessing the energy for electrical power generation. This paper focuses on an integrated hybrid renewable energy system consisting of wind and solar energies. Many parts of Libya have the potential for the development of economic power generation, so maps locations were used to identify where both wind and solar potentials are high. The focal point of this paper is to describe and evaluate a wind-solar hybrid power generation system for a selected location. Grid-tied power generation systems make use of solar PV or wind turbines to produce electricity and supply the load by connecting to the grid. In this study, the HOMER (Hybrid Optimization Model for Electric Renewable) computer modeling software was used to model the power system, its physical behavior and its life cycle cost. Computer modeling software was used to model the power system, its physical behavior and its life cycle cost. The hybrid power system was designed for a building at the University of Al-Marj (MARJU). Through the use of simulations, the installation of ten 100-kW wind turbines and 150-KW solar PV was evaluated.
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