| URN | etd-0716120-220615 | Statistics | This thesis had been viewed 96 times. Download 1 times. |
| Author | Chih-Jen Pai | ||
| Author's Email Address | No Public. | ||
| Department | Department of construction & spatial design | ||
| Year | 2019 | Semester | 2 |
| Degree | Master | Type of Document | Master's Thesis |
| Language | zh-TW.Big5 Chinese | Page Count | 77 |
| Title | Research of thermal break window performances on external building envelope | ||
| Keyword | |||
| Abstract | Globally, due to the greenhouse effect, urban thermal effect and other factors, the short-term gradual warming temperature has risen significantly. The first step in responding to environmental climate change is to "reduce greenhouse gas emissions." Collected in air and seawater to remove carbon. Therefore, by 2050, net zero carbon emissions must be achieved. In view of the building's current appearance and the implementation of green buildings, improvements have been made in terms of energy saving, environmental protection and greening. This article will analyze and compare the carbon reduction and improvement measures of thermal broken bridge aluminum doors and windows based on energy-saving, heat insulation, sound insulation, noise prevention, and waterproof functions of doors and windows on the outer wall. The walls of the building. The doors and windows of the thermal broken bridge aluminum are widely used in Europe, the United States, Japan and northern China, especially in extremely cold and hot areas. On the other hand, the temperature difference in the domestic market has not changed significantly, so the market utilization rate is extremely low. Without further measures, natural disasters such as heat waves caused by climate change, forest fires and sea-level rise will intensify. The government will promote green energy technologies, building regulations and other energy efficiency requirements. Relevant units and the general public will gradually pay attention. This study explores the characteristics, structure, and cost-effectiveness of thermal broken bridge aluminum doors and windows on the external walls of domestic buildings through literature compilation, analysis, and expert interviews, analyzes and compares actual development cases, studies the effects of indoor temperature differences in summer and winter, and proposes Improving countermeasures. In addition, this article constructs the comparison of thermal broken bridge aluminum doors and windows with ordinary doors and windows and the benefits of energy conservation and carbon reduction. It is time to start investigating and developing new technologies, and to start the "carbon removal" action as soon as possible. |
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| Files | indicate access worldwide | ||
| Date of Defense | 2020-06-29 | Date of Submission | 2020-07-27 |