The Effect of Groundwater Flow on the Thermal Performance of a Novel Borehole Heat Exchanger for Ground Source Heat Pump Systems: Small Scale Experiments and Numerical Simulation
Energies • 2020
Publication Information
Authors
Ahmed A. Serageldin, Ali Radwan, Yoshitaka Sakata, Takao Katsura, Nagano Katsunori
Keywords
Ground source heat pump; oval cross-section; groundwater; borehole heat exchanger; CFD; Sandtank
Journal
Energies
Publisher
MDPI
Volume
13
Issue
6
Pages
1418
publication.type
International
Paper Link
Open Link
Supplementary Materials
Not Available
Abstract
New small-scale experiments are carried out to study the effect of groundwater flow on the thermal performance of water ground heat exchangers for ground source heat pump systems. Four heat exchanger configurations are investigated; single U-tube with circular cross-section (SUC), single U-tube with an oval cross-section (SUO), single U-tube with circular cross-section and single spacer with circular cross-section (SUC+ SSC) and single U-tube with an oval cross-section and single spacer with circular cross-section (SUO+ SSC). The soil temperature distributions along the horizontal and vertical axis are measured and recorded simultaneously with measuring the electrical energy injected into the fluid, and the borehole wall temperature is measured as well; consequently, the borehole thermal resistance (R b) is calculated. Moreover, two dimensional and steady-state CFD simulations are validated against the experimental measurements at the groundwater velocity of 1000 m/year with an average error of 3%. Under saturated conditions without groundwater flow effect; using a spacer with SUC decreases the R b by 13% from 0.15 m· K/W to 0.13 m· K/W, also using a spacer with the SUO decreases the R b by 9% from 0.11 m· K/W to 0.1 m· K/W. In addition, the oval cross-section with spacer SUO+ SSC decreases the R b by 33% compared with SUC. Under the effect of groundwater flow of 1000 m/year; R b of the SUC, SUO, SUC+ SSC and SUO+ SSC cases decrease by 15.5%, 12.3%, 6.1% and 4%, respectively, compared with the saturated condition
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