沙特阿拉伯利雅得100兆瓦集中式太阳能线性菲涅耳电站熔盐储能设计

Abdullah S. Albarqi, A. Boretti
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引用次数: 1

摘要

由于人口和经济的增长,我们的世界目睹了发电量的迅速增加。目前,人们依靠常规燃料能源作为发电的主要来源;然而,传统燃料因其局限性和对环境的影响而闻名。因此,有必要投资一种替代能源,如太阳能。在世界范围内,聚光太阳能(CSP)等太阳能发电的研究和开发已经大量开展,并显示出与传统燃料技术相竞争的能力。本文旨在研究在沙特阿拉伯利雅得建设100mw光热线性菲涅耳(LF)太阳能电站的可行性。本研究采用美国国家可再生能源实验室(NREL)系统顾问模型(SAM)对该系统进行设计、仿真和分析。该系统是基于CSP LF技术与熔盐储能(TES)设计的,其中TES在日落后为电力循环提供所需的热能。结果显示,该系统在一年中大部分时间都能产生大量的太阳能,在夏季可达38gwh。LF系统具有良好的容量因数(CF),超过40%。研究表明,沙特阿拉伯是安装CSP LF太阳能发电厂的好地方。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of a 100 MW Concentrated Solar Power Linear Fresnel plant with Molten Salt Thermal Energy Storage in Riyadh, Saudi Arabia
Our world has witnessed a rapid increase in power generation as a result of the growth of population and economy. Currently, people depend on conventional fuel energy as the main source of power generation; however, conventional fuel is well known for its limitation and impact on the environment. Thus, it was necessary to invest in an alternative source of energy such the solar power. Much research and development for solar power such as Concentrated solar power (CSP) have been implemented around the world, and it shows the capability to compete with conventional fuel technology. This paper aims to study the feasibility of constructing 100 MW CSP Linear Fresnel (LF) solar power in Riyadh, Saudi Arabia. In this study, the National Renewable Energy Laboratory (NREL) System Advisor Model (SAM) was used to design, simulate, and analyze the system. The system was designed based on CSP LF technology with molten salt thermal energy storage (TES), where TES supplies the power cycle with the required thermal energy after sunset. The result has revealed the system's capability to produce a good amount of solar power most of the year, reaching up to 38 GWh during summer. The LF system shows a good capacity factor (CF) exceeding 40%. The study shows that Saudi Arabia is a good place to install the CSP LF solar plant.
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