Theoretical modelling and experimental study of air thermal conditioning process of a heat pump assisted solid desiccant cooling system

•A HP-SDC was proposed based on the VOCs and moisture adsorption of desiccant.•A theoretical model of air thermal process in desiccant rotor was modelled.•A prototype unit of the HP-SDC was developed and measured.•The HP-SDC has high energy efficiency in tropical climates.•The energy efficiency of t...

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Bibliographic Details
Published in:Energy and buildings 2017-10, Vol.153, p.31-40
Main Authors: Nie, Jinzhe, Li, Zan, Hu, Wenju, Fang, Lei, Zhang, Qunli
Format: Article
Language:English
Subjects:
Adsorption
Air conditioners
Air purification
Air quality
Air temperature
Contaminants
Cooling
Cooling systems
Dehumidification
Desiccant rotor
Differential equations
Energy consumption
Energy efficiency
Energy measurement
Evaporation
Heat
Heat pump
High temperature
Indoor air pollution
Indoor environments
Mathematical models
Moisture
Moisture absorption
Partial differential equations
Purification
Regeneration
Sensible cooling
Solid desiccant cooling
Temperature
Temperature effects
Thermal environments
Ventilation
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Summary:•A HP-SDC was proposed based on the VOCs and moisture adsorption of desiccant.•A theoretical model of air thermal process in desiccant rotor was modelled.•A prototype unit of the HP-SDC was developed and measured.•The HP-SDC has high energy efficiency in tropical climates.•The energy efficiency of the HP-SDC is sensitive to outdoor humidity ratio. Taking the integrated gaseous contaminants and moisture adsorption potential of desiccant material, a new heat pump assisted solid desiccant cooling system (HP-SDC) was proposed based on the combination of desiccant rotor with heat pump. The HP-SDC was designed for dehumidification, cooling and air purification aimed at improving indoor air quality and reducing building energy consumption. The heat and moisture transfer in adsorption desiccant rotor was theoretical modelled with one-dimensional partial differential equations. The theoretical model was validated with experimental measurements, and the results showed the model could be used to predict the heat and moisture transfer in desiccant rotor. The air thermal conditioning process and energy consumption of HP-SDC was then experimental measured under varied outdoor thermal environments. Results showed that compared to conventional ventilation system, the energy performance of HP-SDC was more efficient mainly due to high efficient air purification capacity, reduction of cooling load and raised evaporation temperature. The energy performance of HP-SDC was sensitive to outdoor humidity ratio. Further improvements of HP-SDC energy efficiency are suggested to be focused on low regeneration temperature desiccant rotor and more efficient high temperature refrigerant.
ISSN:0378-7788
1872-6178
DOI:10.1016/j.enbuild.2017.07.075