No.177
Author:Chen-Kang Huang1, Yu-Wei Liu2
1 Associate Professor, Department of Bio-Industrial Mechatronics Engineering, National Taiwan University
2 Graduate student, Department of Bio-Industrial Mechatronics Engineering, National Taiwan University
Abstract:
In this study, the feasibility exploration of the thermally-driven absorption chiller, and adsorption chiller was described. For high-temperature and high-humidity environment in Taipei, the output water temperature of the solar water heater was studied for better chilling performance. The effects of section ratios of the dehumidifying wheel and indoor humidity were discussed. If other waste heat can be used to replace the solar thermal energy, the technology can be used to convert heat to air-conditioning to fulfill chilling requirements and conserve the traditional energy resource.
Keywords: Solar energy, Thermally-driven chilling, Adsorption air-conditioning.