| URN | etd-0816123-223232 | Statistics | This thesis had been viewed 34 times. Download 2 times. |
| Author | Lin-Yung Chang | ||
| Author's Email Address | No Public. | ||
| Department | Department of construction & spatial design | ||
| Year | 2022 | Semester | 2 |
| Degree | Master | Type of Document | Master's Thesis |
| Language | zh-TW.Big5 Chinese | Page Count | 105 |
| Title | A study of disaster rescue of solar photovolataic system | ||
| Keyword | |||
| Abstract | With the revision of the country's power policy, the power system without pollution has been promoted, and the installation of solar photovoltaic systems has also increased year by year. Disaster relief personnel face a risk in the new disaster model, and correct disaster relief principles can ensure the safety of disaster relief colleagues. Through literature collection, experimental data cross-analysis, case analysis, and expert interviews, this study analyzes the design types and hazard factors of solar photovoltaic systems, and then discusses in-depth the original disaster relief process optimization and disaster relief principles. Through the analysis of this study, the following research conclusions are put forward: 1. Solar photovoltaic system disasters can be divided into three types according to different fire characteristics: "solar photovoltaic module board fire", "battery room or energy storage system fire", and "general building fire". For different types of fires, they need to be handled according to different principles and procedures. 2. During the rescue process of the solar photovoltaic system, the commander should follow the "H, A, Z, M, A, T" execution procedures to determine the rescue plan. 3. During the rescue process of the solar photovoltaic system, when it is unknown whether the power is cut off or not, it should be regarded as "power on". |
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| Advisor Committee | |||
| Files | indicate access worldwide | ||
| Date of Defense | 2023-07-10 | Date of Submission | 2023-08-16 |