本研究之目的為藉由遠紅外線材料致使分離式空調機達到節能減碳的效益,並採用外加噴塗的方式將遠紅外線材料披覆於分離式空調機之熱交換器上,藉此以非破壞性的裝設方式達到節能與工程應用的可行性。實驗中為藉由塗佈於管鰭式冷凝器上在相同的外氣環境與室內環境下,同時比較有塗佈與未塗佈遠紅外線材料對分離式空調機其熱交換之換熱與節能效益的差異。實驗結果顯示,使用商用遠紅外線材料應用於分離式空調機上在塗佈管鰭式冷凝器時,其能達到15.94%~17.87%的EER提升率;4.62%~6.32%的消耗電力節省率;9.8%~10.58%的冷凍能力提升率;2.6%~4.1%的吐出口溫度降低率。本實驗所使用的遠紅外線材料確實能提升熱交換裝置其運轉時之效益,並且能使用外加噴塗的裝設方式,能大大的提升未來實際應用的可行性。
The purpose of this study is to examine how far infrared materials enable split- air conditioner to effectively achieve energy saving and carbon reduction as well as the viability of a nondestructive installation method, i.e. spray-applied coating of far infrared materials on heat exchangers of split-air conditioner for energy saving and engineering application. Experiments were conducted to compare the different effects of finned tube condensers coated and not coated with far infrared materials on the heat exchange and energy saving efficiencies of split-air conditioner in both the same outside air and indoor environments. Experiment results show that the use of commercial far infrared materials on finned tube condensers in split-air conditioner can increase the EER by 15.94-17.87%, power savings by 4.62-6.32%, the freezing capability by 9.8-10.58%, and outlet temperature reduction by 2.6%-4.1%. The far infrared materials used in this experiment are proven to be able to improve the in-service efficiency of heat exchangers. This means that the spray-applied installation method can significantly improve the viability of far infrared materials in future real world applications.