摘要
Traditional salt solutions,due to their susceptibility to crystallization and corrosion,can be replaced by ionic liquids(ILs)to enhance the effectiveness of liquid desiccant dehumidification systems.This study proposes integrating a transcrtical-carbon-dioxide heat pump(TCHP)with an IL dehumidification cycle,thereby providing both cooling and heating for IL under large temperature differentials.Thermodynamic analysis is conducted to investigate the influence of key design parameters.The findings reveal that the TCHP is capable of handling the significant temperature rise during IL regeneration.The evaporation temperature is the key factor for matching the supply and demand of cooling and heating in the system.The self-circulation ratio of the solution is limited by the regeneration temperature.When the initial air humidity ratio is 8.0 g/kg and the supply air humidity ratio is 1.0 g/kg,the proposed system's total heat COP is 31.9%higher than that of the reference systems.
基金
financially supported by the National Natural Science Foundation of China(Grant number 52076039)。
