Rooftop PV or Hybrid Systems and Retrofitted Low-E Coated Windows for Energywise and Self-Sustainable School Buildings in Bangladesh

IF 0.9 Q4 GEOCHEMISTRY & GEOPHYSICS Solar-Terrestrial Physics Pub Date : 2022-11-16 DOI:10.3390/solar2040032
M. Nur-E-Alam, M. K. Basher, Iftekharuzzaman, Kazi Zehad Mostofa, Mohammad Aminul Islam, A. Haque, Narottam Das
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引用次数: 2

Abstract

The electricity crisis is a common issue in Bangladesh; however, recently the electricity scenario has been getting worse due to various reasons including power generation and distribution all over the country. Meanwhile, the large number of people requires a huge amount of energy which is not possible to be met by the national grid due to the limited power generation from different plants. Among all renewable energy sources, the solar photovoltaics (PV) system is the best choice as a generation source, either off-grid or with a grid-tied connection, to reduce the pressure on the national grid. In Bangladesh, there are more than 175,000 schools, and it is possible to generate a huge amount of renewable (solar) power to supply all the schools by using rooftop PV systems. We propose a new approach that combines solar energy harvesting and savings to make the schools self-sufficient and energywise. We performed a Hybrid Optimization Model for Multiple Energy Resources (HOMER) pro simulation and find that it was possible to generate approximately 200 megawatts (MW) of power. We conducted a feasibility study on generating power from rooftop PV systems on school buildings and reduced the power consumption using retrofitted thin-film-coated glass by around 16–20% per day depending on the school size, which can help the national power grid system by either making all the schools off-grid or grid-connected to supply power to the national grid. In addition, we perform a HelioScope simulation to investigate the maximum upscaling of PV sizing for the rooftops of school buildings in Bangladesh to realize how to make each school a mini solar power station in the future. The HelioScope simulation performance showed that it was possible to generate approximately 96,993 kWh per year from one school building.
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孟加拉国节能和自我可持续学校建筑的屋顶光伏或混合系统和改造的低e涂层窗户
电力危机是孟加拉国的一个普遍问题;然而,最近由于全国各地的发电和配电等各种原因,电力情况变得越来越糟。同时,大量的人口需要大量的能源,而由于不同电厂的发电量有限,国家电网不可能满足这一需求。在所有可再生能源中,太阳能光伏发电系统作为发电源,无论是离网还是并网,都是减轻国家电网压力的最佳选择。在孟加拉国,有超过17.5万所学校,通过使用屋顶光伏系统,可以产生大量的可再生能源(太阳能)来为所有学校供电。我们提出了一种结合太阳能收集和节约的新方法,使学校能够自给自足和节能。我们进行了多种能源的混合优化模型(HOMER) pro仿真,发现可以产生大约200兆瓦(MW)的电力。我们对学校楼顶光伏发电系统进行了可行性研究,并根据学校的规模,使用经过改造的薄膜镀膜玻璃每天减少约16-20%的电力消耗,这可以通过使所有学校离网或并网向国家电网供电来帮助国家电网系统。此外,我们进行了HelioScope模拟,以研究孟加拉国学校建筑屋顶的光伏尺寸的最大升级,以实现如何在未来使每所学校成为一个小型太阳能发电站。HelioScope模拟性能显示,一座学校建筑每年可以产生大约96,993千瓦时的电力。
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来源期刊
Solar-Terrestrial Physics
Solar-Terrestrial Physics GEOCHEMISTRY & GEOPHYSICS-
CiteScore
1.50
自引率
9.10%
发文量
38
审稿时长
12 weeks
期刊最新文献
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