Daniel Benitez, M. Engelhard, F. Gallardo, Alvaro Jesam, R. Kopecek, Massimo Moser
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引用次数: 2
摘要
本文重点介绍了拟在智利阿塔卡马沙漠南部建造的Diego de Almagro“太阳能技术区”(DTS)的技术组合,该技术将聚光太阳能(CSP)与光伏(PV)电站相结合,以利用光伏的两种系统属性:易于安装和低水平电力成本(LCOE),以及聚光太阳能的可调度性和低储能成本。考虑了热能储存系统以及电池。智利的太阳辐照、水的成本和可得性以及能源需求概况等当地条件值得注意,值得讨论。所采用的优化电厂配置的方法侧重于最小化LCOE,并考虑了可用土地和水的消耗。此外,太阳能公园还研究并选择了一种相当新的光伏技术:双面光伏模块。所得结果对寻求光伏和光热发电组合的项目开发商有用,以经济、清洁和可靠的方式满足特定的电力需求。本文重点介绍了拟在智利阿塔卡马沙漠南部建造的Diego de Almagro“太阳能技术区”(DTS)的技术组合,该技术将聚光太阳能(CSP)与光伏(PV)电站相结合,以利用光伏的两种系统属性:易于安装和低水平电力成本(LCOE),以及聚光太阳能的可调度性和低储能成本。考虑了热能储存系统以及电池。智利的太阳辐照、水的成本和可得性以及能源需求概况等当地条件值得注意,值得讨论。所采用的优化电厂配置的方法侧重于最小化LCOE,并考虑了可用土地和水的消耗。此外,太阳能公园还研究并选择了一种相当新的光伏技术:双面光伏模块。所得结果对寻求光伏和光热发电组合的项目开发商具有参考价值。
Technology mix for the Diego de Almagro solar technology district in Chile
This paper focuses on the technology mix proposed for the Diego de Almagro “Solar Technology District” (DTS), intended to be built at the south of the Atacama Desert in Chile, which combines Concentrated Solar Power (CSP) with Photovoltaic (PV) plants to take advantage of both systems attributes: easy installation and low levelized cost of electricity (LCOE) of PV and dispatchability and low cost for storing energy of CSP. Thermal energy storage systems as well as batteries are considered. Local conditions such as solar irradiation, water cost and availability and energy demand profile in Chile are noteworthy and important to be discussed. The methodology followed to optimize the power plant configurations focused on minimizing the LCOE and also considered the available land and the water consumption. Additionally, a rather new PV technology was investigated and selected for the solar park: Bifacial PV modules. The results obtained are useful to project developers seeking for combinations of PV and CSP to satisfy specific electricity demand in an economic, clean and reliable way.This paper focuses on the technology mix proposed for the Diego de Almagro “Solar Technology District” (DTS), intended to be built at the south of the Atacama Desert in Chile, which combines Concentrated Solar Power (CSP) with Photovoltaic (PV) plants to take advantage of both systems attributes: easy installation and low levelized cost of electricity (LCOE) of PV and dispatchability and low cost for storing energy of CSP. Thermal energy storage systems as well as batteries are considered. Local conditions such as solar irradiation, water cost and availability and energy demand profile in Chile are noteworthy and important to be discussed. The methodology followed to optimize the power plant configurations focused on minimizing the LCOE and also considered the available land and the water consumption. Additionally, a rather new PV technology was investigated and selected for the solar park: Bifacial PV modules. The results obtained are useful to project developers seeking for combinations of PV and CSP to...
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