Assessment of the technical-economic performance and optimization of a parabolic trough solar power plant under Algerian climatic conditions

Khaled Bouchareb, N. Ihaddadène, Khellaf Belkhiri, Khaoula Ikhlef, A. Boudilmi
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Abstract

In this study, the design, analysis and optimization of the performance of a concentrated solar power plant that is based on the parabolic trough technology with a capacity of 100 MW equipped with a thermal energy storage system were conducted, in two representative sites in Algeria (Tamanrasset and M’Sila). The System Advisor Model software is used to evaluate the technical and economic performances of the two proposed power plants, in addition to carrying out the process of optimizing the initial design of the two power plants by finding the optimal values of the solar multiple and full load hours of the thermal energy storage system, with the aim of increasing the annual energy production and reducing the levelized cost of electricity. The results of the performance analysis conducted on the optimized design showed that the optimum values of the solar multiple and full load hours of the thermal energy storage system for the proposed power plant at the Tamanrasset site were found to be 2.4 and 7 h, respectively, with an annual electricity production of 514.6 GWh, and a minimum value of the levelized cost of electricity of 6.3¢/kWh. While the optimum performance of the proposed plant at the M'Sila site can be achieved by selecting a solar multiple of 3 and 7 h for thermal energy storage system, with a high annual energy production of 451.84 GWh and a low value of the levelized cost of electricity of 7.8¢/kWh. The results demonstrate that CSP plants using parabolic trough technology can increase energy security in the country, while reducing environmental concerns associated with the use of fossil materials.
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阿尔及利亚气候条件下抛物面槽太阳能发电厂的技术经济性能评估和优化
在本研究中,在阿尔及利亚的两个有代表性的地点(Tamanrasset和M'Sila),对基于抛物线槽技术、容量为100MW、配备热能存储系统的集中太阳能发电厂的性能进行了设计、分析和优化。System Advisor Model软件用于评估两个拟建发电厂的技术和经济性能,此外还通过寻找热能存储系统的太阳能倍数和满负荷小时的最佳值来优化两个发电厂的初始设计,目的是增加年度能源生产并降低电力的平准化成本。对优化设计进行的性能分析结果表明,Tamanrasset拟建发电厂热能储存系统的太阳能倍数和满载小时的最佳值分别为2.4和7小时,年发电量为514.6GWh,平准化电力成本的最小值为6.3¢/kWh。虽然M'Sila现场拟建工厂的最佳性能可以通过选择3和7小时的太阳能倍数用于热能存储系统来实现,年能源产量高达451.84 GWh,平准化电力成本低至7.8美分/kWh。结果表明,使用抛物线槽技术的CSP发电厂可以提高该国的能源安全,同时减少与使用化石材料相关的环境问题。
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来源期刊
CiteScore
4.50
自引率
16.00%
发文量
83
审稿时长
8 weeks
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