Thermodynamic performance assessment of vacuum membrane-based dehumidification and air carrying energy radiant air-conditioning system(VMD-ACERS)  被引量:2

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作  者:Liang Chun Guangcai Gong Xi Fang Pei Peng 

机构地区:[1]Key Laboratory of Building Safety and Energy Efficiency Ministry of Education College of Civil Engineering,Hunan University,Changsha 410082,China

出  处:《Chinese Journal of Chemical Engineering》2021年第6期217-227,共11页中国化学工程学报(英文版)

基  金:The National Key Technology Support Program(2015BAJ03B01);the Hunan Provincial Innovation Foundation for Postgraduate Studies(CX20190287)。

摘  要:Temperature and humidity independent control(THIC)air-conditioning system is a promising technology.In this work,a novel temperature and humidity independent control(THIC)system is proposed,namely VMD-ACERS,which integrates vacuum membrane-based dehumidification and air carrying energy radiant air-conditioning system.This work establishes a novel coefficient of performance(COP)model of VMD-ACERS.The main parameters affecting the COP of conventional fan coil unit cooling system(FCUCS)and VMD-ACERS are investigated.The performance of FCUCS and VMD-ACERS are compared,and the energy-saving potential of VMD-ACERS is proved.Results indicate that,for FCUCS,the importance ranking of parameters is basically stable.However,for VMD-ACERS,the importance ranking will be affected by FCU and refrigerant.The most important parameters of VMD-ACERS are condensation temperature and permeate side pressure.On the contrary,superheating,subcooling are relatively less important parameters.For VMD-ACERS,it is not necessary to pursue the membrane with very high selectivity,because the selectivity of membrane would also be a less important parameter when it reaches 500.The COP of VMD-ACERS is higher than that of FCUCS when the permeate side pressure is higher than 8 k Pa.The VMD-ACERS solves two technical problems about power-saving and thermal comfort of conventional THIC,and can extend the application of THIC air-conditioning system.

关 键 词:Fan coil unit cooling system Temperature and humidity independent control ACERS Vacuum membrane-based dehumidification COP 

分 类 号:TB657.2[一般工业技术—制冷工程]

 

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