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.