Optimal design method for stand-alone solar system with LPSP technology by using electric system cascade analysis method

机译：电力系统级联分析法的LPSP技术的独立太阳能系统优化设计方法

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The objective of this paper is to improve the new techno-economic method Electric System Cascade Analysis (ESCA), by optimizing the power system and increasing the satisfaction of the energy load need. The analyses are based on geometric climate and economic data with their influence on the Loss of Power Supply Probability (LPSP) and Total Annual Cost (TAC). The verification method is made on a case study contains a photovoltaic (PV) system with storage battery located in the city of Oujda, Morocco. The simulation results show that the optimal configuration, that meet the desired system reliability requirements (LPSP<;2), is obtained. The system consists of 51 PV panels(120Wp) and five storage batteries (210 Ah, 24 V) with the minimum annual cost 3995 €. Moreover, the choices of analysis of the geometric climate and economic data play important roles in reducing costs as well as responding to energy needs.

机译：本文的目的是通过优化电力系统并提高对能源负荷需求的满意度，改进新的技术经济方法“电力系统级联分析”（ESCA）。这些分析基于几何气候和经济数据，它们对电源概率损失（LPSP）和年度总成本（TAC）产生影响。验证方法是基于一个案例研究，该案例包含位于摩洛哥Oujda市的带有蓄电池的光伏（PV）系统。仿真结果表明，可以获得满足所需系统可靠性要求（LPSP <; 2）的最佳配置。该系统由51个光伏面板（120Wp）和5个蓄电池（210 Ah，24 V）组成，每年最低成本为3995€。此外，对几何气候和经济数据进行分析的选择在降低成本以及响应能源需求方面发挥着重要作用。

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《International Renewable and Sustainable Energy Conference》|2015年|1-6|共6页
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Hassan Zahboune; Smail Zouggar; Mohammed Elhafyani; Mostafa Ziani; Sanae Dahbi;
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Optimal Design Method; Pinch Analysis; SolarEnergy; Total Annual Cost;

机译：优化设计方法夹点分析太阳能年度总成本;

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Optimal design method for stand-alone solar system with LPSP technology by using electric system cascade analysis method

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