| URN | etd-0722125-101103 | Statistics | This thesis had been viewed 20 times. Download 0 times. |
| Author | Hao-Lun Wu | ||
| Author's Email Address | a0976894929@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 | 88 |
| Title | A Study on Firefighting with Specialized Equipment: A Case Study of Tin-Sheet Factory Fire Rescue | ||
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| Abstract | Tin-sheet factories are a common form of building structure in Taiwan. Due to their poor heat resistance, insufficient fire compartmentalization, and frequent accumulation of large quantities of combustible materials, fires in such structures tend to spread rapidly and often lead to structural collapse, posing serious risks to firefighters. To enhance rescue efficiency and ensure personnel safety during fire incidents, this study focuses on the application and effectiveness of specialized equipment¡Xnamely firefighting robots, drones, and thermal imaging cameras¡Xin fire rescue operations. The research adopts a methodology involving literature analysis and expert interviews to investigate the standard operating procedures (SOPs) for the use of thermal imaging cameras, drones, and firefighting robots. These findings are further validated through live rescue drills. The results indicate that specialized equipment can significantly improve both the efficiency and safety of firefighting operations: thermal imaging cameras allow for rapid identification of fire sources and temperature distribution, while drones and firefighting robots enhance situational awareness and remote operational capabilities. To maximize the effectiveness of these three types of equipment, integration and the establishment of standard operating procedures are essential. Furthermore, the study summarizes that specialized equipment contributes effectively to improving rescue outcomes and firefighter safety. It emphasizes the importance of equipment integration and SOP development, and proposes recommendations for strengthening personnel training and advancing intelligent firefighting system integration, with the aim of supporting future disaster response and equipment development. |
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| Files | indicate access worldwide | ||
| Date of Defense | 2025-06-26 | Date of Submission | 2025-08-01 |