| URN | etd-0731124-173150 | Statistics | This thesis had been viewed 119 times. Download 0 times. |
| Author | Chi-feng Lin | ||
| Author's Email Address | ge1219@gmail.com | ||
| Department | Department of construction & spatial design | ||
| Year | 2023 | Semester | 2 |
| Degree | Master | Type of Document | Master's Thesis |
| Language | zh-TW.Big5 Chinese | Page Count | 104 |
| Title | Research on Non-ionizing Terahertz Radiation Technology - Taking Air Conditioning Energy Saving as an Example | ||
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| Abstract | In today¡¦s world, improving energy efficiency has become a critical global issue. With the rapid increase in global population and industrialization, energy consumption is rising rapidly, putting pressure on economic development and having profound impacts on the environment and climate change. Therefore, exploring and implementing energy-saving technologies and strategies is of utmost importance, not only to reduce energy consumption and costs but also to minimize environmental impact and promote sustainable development. This paper aims to explore the current development of energy-saving technologies, analyze their applications in key sectors such as buildings, transportation, industry, and household electricity, and discuss potential future directions for energy-saving technologies. In particular, this study will focus on emerging technologies such as intelligent control systems, integration of renewable energy, and advanced materials, which show great potential in improving energy efficiency. This research specifically examines the application of non-ionizing terahertz radiation tube mechanisms in split air conditioning systems. Through four sets of experiments totaling sixteen tests, the relevant temperatures and power consumption were measured over 24 hours. The results indicate that with an outdoor temperature variation of ¡Ó5% to ¡Ó20%, power consumption was reduced by 10-80%, with an average energy saving of 40%. These findings confirm that the use of non-ionizing terahertz radiation technology can effectively achieve energy savings in air conditioning systems and support government ESG (Environmental, Social, and Governance) sustainable development policies. |
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| Files | indicate access worldwide | ||
| Date of Defense | 2024-07-16 | Date of Submission | 2024-07-31 |