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ABSTRACT
A new variable-speed ground-coupled liquid desiccant air-conditioner was proposed and applied to a multi-storey office building in a temperate city of Kunming in China. Dynamic system simulations were performed to compare its performance with a constant-speed ground-source heat pump system. It was found that the use of the new system for a single-floor office reduced the annual unbalanced load to the ground heat exchanger borefield by nearly 70% together with a borehole depth reduction of up to 30%. For the case of a multi-storey office building, the number of floors served could be increased by 144% together with a reduction of CO2 emission by 43%. The results highlighted the merit of the new hybrid system with enhanced applicability when it was applied to a multi-storey office building in a temperate city.
Nomenclature
| COP | = | coefficient of performance |
| T | = | temperature (°C) |
| x, y | = | ground measurement in the transverse direction (m) |
| z | = | measurement in the vertical direction (m) |
Subscripts
| bf | = | borefield fluid |
| i, j, m | = | ground discretization step designations in the z-, x- and y-directions |
| g | = | ground |
| max | = | maximum |
| out | = | outlet |
Abbreviations
| ASHP | = | air-source heat pump |
| GHE | = | ground heat exchanger borefield |
| GCLDAC | = | ground-coupled liquid desiccant air-conditioner |
| GSHP | = | ground-source heat pump |
| VSGCLDAC | = | variable-speed ground-coupled liquid desiccant air-conditioner |
| VSGSHP | = | variable-speed ground-source heat pump |