Abstract We present the dynamic thermal analysis of a residential ground-source heat pump (GSHP) with the following objectives: (1) to present a comprehensive GSHP model accounting for the dynamic behavior… Click to show full abstract
Abstract We present the dynamic thermal analysis of a residential ground-source heat pump (GSHP) with the following objectives: (1) to present a comprehensive GSHP model accounting for the dynamic behavior of a vapor compression unit, lumped serviced space, and the ground heat exchanger (GHE); (2) to identify a set of GHE temperature, mass flow rate, and evaporator area fraction ( α ) improving the time-averaged coefficient of performance ( COP ‾ ) while retaining thermal comfort in the serviced space; and (3) to propose a GHE design satisfying the desired design and operating conditions determined in (2). For a 4-ton residential GSHP considered herein, we verified the existence of a critical GHE mass flow rate of 1 kg / s after which the COP ‾ hardly varied. Furthermore, we observed a design trade-off between cooling and heating modes wherein a smaller α was preferred in cooling mode while the heating mode favored a higher α . Cooling COP ‾ was sensitivity to both α and GHE temperature ( T B ), whereas that in heating mode was insensitive to T B as long as both α and L t were sufficiently high. The optimal α impartial to both modes was 0.29 and the peak COP ‾ = 5.49 and 3.6 in cooling and heating mode, respectively.
               
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