Optimising rooftop photovoltaic adoption in urban landscapes: A system dynamics approach for sustainable energy transitions

IF 4.9 2区 医学 Q1 ENGINEERING, BIOMEDICAL Biomedical Signal Processing and Control Pub Date : 2024-11-02 DOI:10.1016/j.bspc.2024.107071
P.U. Poornima , K. Dhineshkumar , Chunduri Kiran Kumar , S. Sumana , M.V. Rama Sundari , P. Sivaraman , Mohammed Shuaib , A. Rajaram
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Abstract

Rooftop agriculture for food production and photovoltaic (PV) panels for energy generation are two examples of how urban functional design presents a potential alternative to multi-function urban land-use that may give numerous ecosystem services. In order to find the optimal rooftop usage strategy that takes into account many choice criteria and to comprehend how rooftop solutions affect the layout of urban energy infrastructure, we provide a complete system modeling approach that demonstrates multi-objective optimization of energy systems. With a reduced levelized cost of electricity (LCOE), rooftop photovoltaics have gained considerable traction recently owing to technical, economical, and environmental benefits; this research aims to prove their viability. The suggested PV size and cost factor, taking environmental conditions and shading effects into consideration, were determined using two methods: Quantum Particle Swarm Optimization (PSO) with Q-Learning System. Rooftop photovoltaics system sizing, economic feasibility, and energy efficiency are all affected by the results that are compared. University of Engineering & Technology (UET), a public sector institution, has its main campus in Taxila, where this research was conducted. Situated in northern Pakistan, its appropriate position is advantageous for the research. The lifespan, performance ratio (PR), and decrease of the Rooftop Photovoltaics system’s carbon footprint are among the many additional criteria that are examined. Because of this, installing rooftop photovoltaic systems on government buildings is a more sensible and feasible solution.
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优化城市景观中屋顶光伏的采用:可持续能源转型的系统动力学方法
用于粮食生产的屋顶农业和用于能源生产的光伏(PV)板是城市功能设计的两个例子,说明了城市土地多功能利用的潜在替代方案可提供多种生态系统服务。为了找到考虑多种选择标准的最佳屋顶使用策略,并理解屋顶解决方案如何影响城市能源基础设施的布局,我们提供了一种完整的系统建模方法,展示了能源系统的多目标优化。由于降低了平准化电力成本(LCOE),屋顶光伏发电因其技术、经济和环境效益而在近期获得了广泛关注;本研究旨在证明其可行性。考虑到环境条件和遮阳效应,我们采用两种方法确定了建议的光伏发电规模和成本因素:量子粒子群优化(PSO)与 Q-Learning 系统。屋顶光伏系统的大小、经济可行性和能源效率都会受到比较结果的影响。工程与技术大学(UET)是一所公立院校,其主校区位于塔克西拉(Taxila)。该校位于巴基斯坦北部,地理位置得天独厚,有利于研究工作的开展。屋顶光伏系统的使用寿命、性能比 (PR) 和碳足迹的减少是研究的众多附加标准之一。因此,在政府大楼安装屋顶光伏系统是一个更加合理可行的解决方案。
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来源期刊
Biomedical Signal Processing and Control
Biomedical Signal Processing and Control 工程技术-工程:生物医学
CiteScore
9.80
自引率
13.70%
发文量
822
审稿时长
4 months
期刊介绍: Biomedical Signal Processing and Control aims to provide a cross-disciplinary international forum for the interchange of information on research in the measurement and analysis of signals and images in clinical medicine and the biological sciences. Emphasis is placed on contributions dealing with the practical, applications-led research on the use of methods and devices in clinical diagnosis, patient monitoring and management. Biomedical Signal Processing and Control reflects the main areas in which these methods are being used and developed at the interface of both engineering and clinical science. The scope of the journal is defined to include relevant review papers, technical notes, short communications and letters. Tutorial papers and special issues will also be published.
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