Optimal eco-emission scheduling of the reconfigurable solar farm-based combined hydrogen, heat, and power (RSF-CHHP)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Ali Baghaei, Javad Olamaei, Mohammad Reza Nasiri
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Abstract

Combined hydrogen, heat, and power (CHHP) is the cogeneration unit simultaneously meeting hydrogen, heat, and power demands. Due to the low efficiency of the electrolyser, the main grid or other generation units supply its input power. Herein, the photovoltaic farm's (PV farm) output power is used as the input power of the electrolyser. Optimal economic and emission scheduling of CHHP-based microgrid (CHHP_MG) is defined as an objective function. To improve system efficiency, the scheduling problem is done in two cases, reconfigured SP-PV farm and conventional SP-PV farm. To optimal management of both demand and generation sides, a time of use (TOU) based demand response program is employed in the proposed short-term study. To have a comprehensive study, the optimum solar panel tilt angle is calculated, and its impacts on the main function are analysed. Multi-objective genetic algorithm is used to solve optimization problems. By solving the objective function, the obtained values for profit and pollution amount are 620$ and 69,245.78 gr, respectively. By applying the load response program, the mentioned values are changed to 715.132$ and 6872.5 gr. Since the input power is supplied through solar panels, the placement angle of the panels is very important and with the optimal setting of the placement angle, the values change to 780$ and 6825.3 gr.

Abstract Image

基于可重构太阳能发电场的氢热电联供(RSF-CHHP)的最佳生态排放调度
氢、热、电联产(CHP)是同时满足氢、热、电需求的热电联产装置。由于电解槽的效率较低,其输入电力需由主电网或其他发电装置提供。在这里,光伏电站的输出功率被用作电解槽的输入功率。基于 CHHP 的微电网(CHP_MG)的最佳经济和排放调度被定义为目标函数。为提高系统效率,调度问题分为两种情况,即重新配置的 SP-PV 发电站和传统的 SP-PV 发电站。为了优化需求和发电两方面的管理,在拟议的短期研究中采用了基于使用时间(TOU)的需求响应程序。为了进行全面研究,计算了最佳太阳能电池板倾斜角度,并分析了其对主要功能的影响。多目标遗传算法用于解决优化问题。通过求解目标函数,得到的利润值和污染量分别为 620 美元和 69 245.78 gr。由于输入电力是通过太阳能电池板提供的,因此电池板的放置角度非常重要,通过优化设置放置角度,上述数值变为 780 美元和 6825.3 克。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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