Sensitivity analysis of a vertical geothermal heat pump system

Abstract: This paper conducts sensitivity analyses on factors affecting the performance of vertical geothermal heat pump system, aiming to formulate design and operation strategies to improve its performance. It firstly describes the development of a 3D coupled Finite Element Model (FEM), which is utilized to simulate the steady state and transient behaviors of geothermal heat exchanger (GHE). The model holistically couples the heat exchange processes between pipe fluid flow, grouting backfill material, and adjacent gro… Show more

“…Minimizing the installation and operation costs requires that the local geological and climate conditions are adequately considered [8][9][10].…”

Effect of undisturbed ground temperature on the design of closed-loop geothermal systems: A case study in a semi-urban environment

“…Minimizing the installation and operation costs requires that the local geological and climate conditions are adequately considered [8][9][10].…”

Effect of undisturbed ground temperature on the design of closed-loop geothermal systems: A case study in a semi-urban environment

“…However, installation cost for borehole heat exchangers (BHEs) is typically much higher, with drilling often accounting for half of the GSHP system installation cost [4]. A further consideration is that the efficiency of the heat pump is strongly dependent on the correct sizing of BHEs.…”

Numerical simulation of ground source heat pump systems considering unsaturated soil properties and groundwater flow

“…A similar approach was used by Ozudogru et al [17], who coupled the commercial software COMSOL ® for the description of the heat transfer in the borehole with a 1D description of heat and water transport in the pipe. In another study, Han et al [18] developed a 3D coupled Finite Element Model, which was then utilized to simulate steady-state and transient behaviors of a geothermal heat exchanger. Han et al [18] validated the model and then used it to investigate the influence of several factors on the borehole behavior by carrying out a sensitivity analysis.…”

“…In another study, Han et al [18] developed a 3D coupled Finite Element Model, which was then utilized to simulate steady-state and transient behaviors of a geothermal heat exchanger. Han et al [18] validated the model and then used it to investigate the influence of several factors on the borehole behavior by carrying out a sensitivity analysis. However, one of the main disadvantages of 3D mechanistic models is their computational cost, which limits their use in conjunction with parameter estimation algorithms.…”

A computationally efficient pseudo-3D model for the numerical analysis of borehole heat exchangers