https://scholars.lib.ntu.edu.tw/handle/123456789/448374
標題: | Research of water-base nano-PU paint for heat insulation | 作者: | Jwo, C.-S. Jeng, L.-Y. Cheng, H. Chen, S.-L. SIH-LI CHEN |
關鍵字: | Energy conservation; Heat insulation; Nanoparticle; Thermal resistance; Water-base nano-PU paint | 公開日期: | 2008 | 卷: | 7130 | 起(迄)頁: | - | 來源出版物: | Proceedings of SPIE - The International Society for Optical Engineering | 摘要: | The purpose of this study is to research and produce water-base nano-PU paint with energy conservation, environmental consciousness and high efficiency of heat insulation, which can be enhance the traditional PU paint for performance improvement of heat insulation and range of application. In this study, research will be held on the two-stage synthesis method. The SiO2 nanoparticles are added into the water-base PU paint to improve the properties of traditional PU paint. Next, the fundamental properties of this paint, including water resistance, weather rsistance, weak acid solvent resistance, and heat insulation rate, will be measured and analyzed, and the performance of heat insulation will be evaluated in order to confirm the performance and practicability of the heat insulation of water-base nano-PU paint in this study. The experimental results show that for the SiO2/W-PU composite nanopaint prepared by two-stage synthesis method, the dispersion of SiO2 powder in the water-base PU (W-PU) paint is even. For the SiO2/W-PU nanocomposite paint prepared by adding SiO2 powder at 8% wt. to the marketed water-base PU, the water absorption of its experimental sample is enhanced by around 10.1 times, whereas its weak acid dissolve erosion rate is increased by 3.3 times. However, the average heat insulation rate in the thermal properties is also increased, increasing around 24.22% for the W-PU paint without SiO2 powder. Through the multilayered coating construction, the water-base nano-PU paint added with SiO2 powder can be used on any facility of heat insulation, including vehicle, safety helmet, umbrella, drapes, and outer wall of building. The newly developed water-base nano-PU paint with high thermal resistance is especially suitable for application to the shell coating of air conditioner and cooling tower,. Due to the better thermal resistance of this nanopaint, the problems of poor heat transfer and temperature rise of cooling water caused by direct sunlight can be improved. This is of great help to the energy conservation of air conditioning system. © 2008 SPIE. |
URI: | https://scholars.lib.ntu.edu.tw/handle/123456789/448374 | DOI: | 10.1117/12.819557 | SDG/關鍵字: | Acid resistance; Acids; Air conditioning; Aluminum corrosion; Cooling; Energy conservation; Energy management; Erosion; Heat resistance; Mechanical variables measurement; Nanoparticles; Paint; Powders; Silicon oxides; Stages; Thermal insulation; Thermodynamic properties; Water absorption; Water cooling towers; Air conditioners; Air-conditioning systems; Erosion rates; Fundamental properties; Heat insulation; High efficiencies; High thermals; Multilayered coatings; Nanoparticle; Performance improvements; Poor heat transfers; Shell coatings; Synthesis methods; Temperature rise; Thermal properties; Thermal resistance; Two stages; Water resistances; Weak acids; Cooling water |
顯示於: | 機械工程學系 |
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