Study on the Energy Efficiency and Indoor Environment for the Heat Insulation Solar Glass Buildings

• Main Authors: Chieh-yu Chang, 張傑瑜
• Other Authors: Chin-Huai Young
• Format: Others
• Language: zh-TW
• Published: 2014
• Online Access: http://ndltd.ncl.edu.tw/handle/95644410468234722758

碩士 === 國立臺灣科技大學 === 營建工程系 === 102 === This paper mainly affect architectural glass materials for indoor comfort of, and for energy analysis for indoor air conditioning, National Taiwan University of Science and Engineering II Pavilion roof build three test house, three test houses were in a pitched roof surface and the vertical facade installed set up different types of glass, energy comparison between different types of glass, various types of solar energy-saving glass, LOW-E glass and general glass cladding, its three test house air-conditioning energy consumption monitoring tests, the test house environment and climate monitoring, test house thermal environment monitoring tests Three test house will be part of the control windows in the test houses with sloping roofs and vertical surfaces of different types of facade glass window installed: According to the test house air conditioning energy consumption monitoring test statistics show that in all-season air conditioning energy consumption statistics, the total energy consumption air conditioning parts, usually glass house consumption (982.3 kWh) as a benchmark, Low E Glass House (812.03 kWh) relative reduction 17.33% power consumption, solar energy-saving glass house (614.19 kWh) 37.47% relative reduction in power consumption, energy consumption in air-conditioned section, relative to the general Glasshouse power consumption, Low E Glass House 17.37% relative reduction in power consumption, solar energy saving Glasshouse 54.32% relative reduction in power consumption, energy consumption in heating and air conditioning parts, relative to the general Glasshouse power consumption, Low E glass house 17.3% relative reduction in power consumption, solar energy-saving Glasshouse 20.99% relative reduction in power consumption amount; air conditioning energy consumption in each season statistics, part of autumn in the air conditioning energy consumption, relative to the general Glasshouse power consumption, Low E Glass House 29.83% relative reduction in power consumption, solar energy-saving Glasshouse 58.19% relative reduction in power consumption , part of the winter in the air conditioning energy consumption, this season belongs to colder climates, as opposed to general Glasshouse power consumption, Low E Glass House 17.75% relative reduction in power consumption, solar energy-saving glass house 30.7% relative reduction in power consumption, in air conditioning energy section in the spring, this season belongs to the transition between the cold and hot weather patterns, as opposed to general Glasshouse power consumption, Low E glass house 20.4% relative reduction in power consumption, solar energy-saving Glasshouse 39.04% relative reduction in power consumption amount of energy during the summer air-conditioning parts, this season belongs to the relatively hot and sunny weather patterns, as opposed to general Glasshouse power consumption, Low E glass house 3.96% relative reduction in power consumption, solar energy-consumption of 39.56% relative reduction in glass house power. According to the test house thermal environment monitoring tests, from thermal imaging surveillance photos were taken three test houses can be learned in a glass house indoor sunlight general subject area, the temperature can reach 45 ~ 44 ℃ and 31 to 30 part shade ℃ difference of about 14 ~ 13 ℃, the Low E glass glass house interior region by sunlight, the temperature can reach 38 ~ 35 ℃ difference of about 8 ~ 6 ℃ and shady part 30 ~ 28 ℃, while the solar energy-saving glass House is at 27 ~ 25 ℃ uniform and comfortable temperature The test results can be learned, solar energy-saving glass has the effect of maintaining the indoor comfort, reduce air conditioning energy consumption, and the use of air conditioning can reduce energy consumption, so the solar energy-saving glass is good for saving energy and reducing carbon materials.