| Summary: | 碩士 === 國立臺灣科技大學 === 營建工程系 === 106 === This thesis is mainly for the research of the efficiency by using Heat Insulation Solar Glass and other insulating glass in buildings, and the fundamental properties for the research are based on Heat Insulation Solar Glass, ordinary insulating glass, and Low-E insulating glass with same thickness. First, perform optics and thermology experiments to understand the properties of the glass. Second, actually construct three testing houses which are installed with the temperature controlling system for automatically regulating the air conditioners; then measure power generation and energy consumption to compare the energy efficiency. Third, analyze the results by considering the experiment data of light environment and thermal environment and temperature humidity index to understand the influence between different insulating glass. Eventually, simulate power generation and energy consumption in several exhibition halls which locate in different climate areas; then make the estimations of the efficiency of economic and environment for Taiwan. Due to the better insulation effect, the testing house installed with Heat Insulation Solar Glass only needs the half of electricity demands comparing to ordinary insulating glass during the testing process. Besides, because of the lower shading coefficient and U value, not only do the better abilities of isolating the radian heat and conduction heat in Heat Insulation Solar Glass, but the comfortable environment lasts longer while executing the experiments in the enclosed space. What's more, the traditional idea that the transparency of the photoelectric products is inferior doesn't apply. According to the light enviroment experiments, all the results meet the Chinese Nation Standard. Moreover, research also indicates that the energy efficiency is better when the latitude is lower. Taking a 10,200 cubic meters of exhibition hall in Taichung city as an example, after replacing Heat Insulation Solar Glass, the payback period only needs 4.56 years, and the Internal Rate of Return is 21.4 percent. For twenty years, the net earnings will be 22,226,059 NT dollars; as for carbon reduction in the environment, the effect is equivalent to planting 8,086 trees.
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