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A Case Study Comparison Between Photovoltaic And Fossil Generation Based On Direct Current Hybrid Microgrids To Power A Service Building
摘要: The objective of this paper is to make a minutely comparison between 3 different DC microgrids by addressing their most outstanding advantages and disadvantages not only in technical terms, but also regarding other performance related aspects, such as a) measurement of the quality of the electrical supply of the facilities, b) reliability, and c) economic and environmental impact. Results show that in the best case, for all the microgrids, the accuracy of the measurements is around 99.45 %, with a weighted average of voltage applied to the load of 24.54 V. The building studied was reimagined into an autonomous and self-sustaining installation by using renewable electric power in direct current with a power distribution on 24 V. Additionally, the systems developed show a potential of greenhouse gas recovery close to 35.05 tCO2 per year, with a return of investment of 7 years for the renewable-based microgrid and 3 years return for the traditional microgrid. The novelty of this paper relies on the performance comparison of 3 different types of direct current microgrids, one grid-powered (A) based on traditional fuel generation, and two off-grid (B & C) based on photovoltaic energy generation, when feeding a building of considerable size and low operational flexibility.
关键词: DC-microgrid,Building integration,Photovoltaic energy,Commercial network,Renewable generation,Standalone system
更新于2025-09-19 17:13:59
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Efficient Energy Management System for Solar Energy
摘要: Solar power is the major renewable energy source opted by developing countries as stand-alone/Grid enabled system. Industries and educational institutions are opting for solar energy to combat power crisis. This paper proposes knowledge based, self configurable, smart controller to efficiently use solar energy according to load, under frequent grid failure environment. It is enabled with fault identification and isolation. Extension to higher power capacity is easily achieved with plug and play mechanism. Proposed control architecture is implemented using Field Programmable Gate Array (FPGA), that supports modular level implementation with well defined interfaces for each sub-system. It can be used with low power as well as high power photo-voltaic system. Efficiency of the proposed architecture is demonstrated for the photo-voltaic system installed in educational institution.
关键词: Field Programmable Gate Array,Standalone system,Pulse width modulation,Photo-voltaic system
更新于2025-09-09 09:28:46