Dynamic Modeling of an Optimal Hybrid Power System for a Captive Power Plant in Pakistan

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Jordan Journal of Electrical Engineering Pub Date : 2022-01-01 DOI:10.5455/jjee.204-1644676329

Luqman Ahsan, M. Iqbal

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引用次数: 4

Abstract

This paper presents the optimized design, economic feasibility and dynamic modeling of a grid-tied captive hybrid renewable energy power plant for a Pakistani industrial area. Since the proposed plant, encompasses a photovoltaic (PV) array - as its main component - and for an efficient and reliable operation many issues - including industrial load variations and expected dynamics - should be investigated before its implementation. In this context, Homer Pro software is utilized in the design and economic optimized sizing of the PV array, and the PVWatts is used in land requirement analysis. The designed grid-tied plant is modeled in the MATLAB/Simulink using Simscape blocksets to investigate the plant’s dynamic behavior due to typical practical disturbances. The obtained results reveal that the plant has a low per-unit energy cost and provides significant savings. Results of dynamic simulation show that the plant can respond to the ramp-up and ramp-down load variations in industrial settings. Moreover, the plant has a fast response to step changes in irradiance; proving that the proposed plant is reliable and suitable candidate for fulfilling the designated load.

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巴基斯坦某自备电厂最优混合动力系统动态建模

本文介绍了巴基斯坦某工业区并网自备混合可再生能源电厂的优化设计、经济可行性和动态建模。由于拟建的电厂包括光伏(PV)阵列作为其主要组成部分，为了高效可靠地运行，应在实施之前调查许多问题，包括工业负荷变化和预期动态。在此背景下，使用Homer Pro软件进行光伏阵列的设计和经济优化尺寸，并使用PVWatts进行土地需求分析。在MATLAB/Simulink中利用Simscape块集对设计的并网电厂进行建模，研究电厂在典型实际扰动下的动态行为。结果表明，该装置具有较低的单位能源成本和显著的节能效果。动态仿真结果表明，该装置能够对工业环境下负荷的上升和下降变化作出响应。此外，植物对辐照度的阶跃变化有快速的响应;证明所建议的工厂是可靠的，适合完成指定的负荷。

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来源期刊

Jordan Journal of Electrical Engineering

CiteScore

0.20

自引率

14.30%

发文量