| URN | etd-0714125-144845 | Statistics | This thesis had been viewed 20 times. Download 0 times. |
| Author | Ching-Hong Yang | ||
| Author's Email Address | bells1006185@gmail.com | ||
| Department | Institute of construction technology | ||
| Year | 2024 | Semester | 2 |
| Degree | Master | Type of Document | Master's Thesis |
| Language | zh-TW.Big5 Chinese | Page Count | 87 |
| Title | Study on Fire Accidents of Solar Photovoltaic Equipment System for Rescue-Take AirForce Base as an Example | ||
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| Abstract | The Ministry of National Defense oversees various air force bases, mainly tasked with carrying out air defense and anti-aircraft missions in the Taiwan Strait for the Republic of China. The study focuses on solar power equipment systems' fire accidents and rescue strategies at air force bases, employing methods such as literature review, case analysis, field surveys, and expert interviews. By examining domestic and international air force base solar system fire accident cases, this study identified key fire risk factors including electrical faults, environmental factors, and human operational errors. Results show that the unique environment of air force bases, with factors like high temperatures, dust, and vibrations, heightens the fire risk of solar systems. Based on these findings, the study proposes targeted firefighting and rescue strategies, including specialized extinguishing techniques, emergency plans, and personnel training programs. Additionally, preventive measures such as system design improvements, enhanced maintenance practices, and strict safety regulations are suggested. The results show that there were many causes of fire accidents at air force bases, including aircraft fuel leaks, electrical equipment short circuits, human negligence and optoelectronic system failures, especially fuel and high-voltage equipment fires, which were highly dangerous. It was found that introducing the complete prevention mechanism and intelligent monitoring technology can enhance fire warning and early control capabilities. As for fire-fighting equipment, the photoelectric fire design and enhanced protection and fire-extinguishing system should be comprehensively upgraded, the water source distribution and water pressure stability should be improved. In terms of response procedures, it was necessary to establish standardized processes and integrate cross-departmental collaboration to improve the efficiency of notification, evacuation and fire fighting. In addition, personnel training should also keep pace with the times and strengthen high-voltage electrical environment operations and the application of smart firefighting technology to ensure that disaster relief can be completed as soon as possible when the fire accident occurs. |
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| Files | indicate access worldwide | ||
| Date of Defense | 2025-07-01 | Date of Submission | 2025-07-20 |