| Summary: | 碩士 === 國立成功大學 === 工業設計學系碩士在職專班 === 104 === A new methodology to perform the optimal decision of developing a solar PV system is pro-posed in this study. The methodology provides an integrated design decision for engineers with different backgrounds and meets the desired system reliability requirements with the best value of solar PV system (BIPV). This study combines Fuzzy Theory and Grey Relation Analysis (GRA) to generate the optimum design decision and improve the efficacy of the solar PV system according to the concept of Concurrent Engineering (CE). This methodology can enhance the efficacy and quality of the solar PV system. The planning of solar PV system and its design examination in this study follows the laws and regulations of Taiwanese solar energy policy. All of the solar PV system data will be uploaded to the cloud system (Dropbox), and the standards of management authority are set simultaneously throughout the performance of different professional stages. The proposed model could be applied to solar PV systems with the power less than 50kW. The results show that the factors that trigger project failure can be known in advance and then be excluded from the process of developing a solar PV system. Moreover, an application (APP) constructed in this study can be used to mobile the results of the solar PV system, and get a report generated based on Fuzzy Theory and Grey Relation Analysis. With this methodology, the best location and design plan can easily be obtained; whereas, the Concurrent Engineering (CE) concept applied will effectively shorten the pre-required schedule and enhance the engineering quality of developing a solar PV sys-tem. Finally, a Solar PV System (4.16kW) was adopted to verify the feasibility of the methodology proposed in this study.
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