A thermo-economic assessment of CSP+TES in the north of Chile for current and future grid scenarios

F. Gallardo, L. Pratticò, C. Toro
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引用次数: 4

Abstract

This paper presents a thermo-economic analysis of a hypothesized concentrated solar power (CSP) tower plant with molten salt thermal energy storage (TES) located in the Atacama Desert in Chile with the aim of serving as input for the Solar Committee to better establish public policy programs to increase the competitiveness of CSP in Chile. The study focuses on an optimal plant in terms of size and configuration for expected conditions of the Chilean electricity market in 2018 and 2030. An ideal CSP+TES configuration to complement the electricity pool market from a grid point of view was obtained for each year. An exergetic study was performed for each configuration under assumed annual operation conditions and a thermos-economic analysis was done considering specific costs per component. Thermo-economic indicators were obtained allowing to define a priority hierarchy of specific techno-economical improvements that can be done at plant and component level to maximize the competitiveness of CSP projects in the Chilean market. A sensitivity analysis was performed obtaining the impact of efficiency improvements and capex reductions per component on the Levelized Cost of Energy (LCOE). The maximum allowable trade-off limit for each technical improvement (capex increase or plant factor reduction) was calculated.
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智利北部CSP+TES当前和未来电网情景的热经济评估
本文对位于智利阿塔卡马沙漠的具有熔盐热储能(TES)的集中式太阳能发电(CSP)塔式电厂进行了热经济分析,旨在为太阳能委员会更好地制定公共政策计划提供参考,以提高智利CSP的竞争力。该研究的重点是在2018年和2030年智利电力市场预期条件下的规模和配置方面的最佳工厂。从电网的角度来看,每年都获得了理想的CSP+TES配置,以补充电力池市场。在假定的年度运行条件下,对每种配置进行了热工研究,并考虑了每个组件的具体成本进行了热经济分析。通过获得热经济指标,可以确定具体技术经济改进的优先等级,这些改进可以在工厂和部件级别进行,以最大限度地提高CSP项目在智利市场上的竞争力。进行敏感性分析,获得效率提高和每个组件资本支出减少对能源平准化成本(LCOE)的影响。计算了每项技术改进(资本支出增加或工厂因素减少)的最大允许权衡限制。
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