Effects of the Circuit Arrangement on the Thermal Performance of Double U-Tube Ground Heat Exchangers

Effects of the Circuit Arrangement on the Thermal Performance of Double U-Tube Ground Heat Exchangers

Given that the issue of variations in geometrical parameters of the borehole heat exchanger (BHE) revolves around the phenomenon of thermal resistance, a thorough understanding of these parameters is beneficial in enhancing thermal performance of BHEs. The present study seeks to identify relative ch...

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Bibliographic Details
Published in:Energies (Basel) Vol. 13; no. 12; p. 3275
Main Authors: Jahanbin, Aminhossein, Semprini, Giovanni, Natale Impiombato, Andrea, Biserni, Cesare, Rossi di Schio, Eugenia
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-06-2020
Subjects:
borehole heat exchangers
Boreholes
circuit arrangement
Configurations
double U-tube
geothermal energy
Geothermal power
ground heat exchangers
ground-source heat pumps
Heat conductivity
Heat exchangers
Heat transfer
Heating
High density polyethylenes
Investigations
Optimization
Thermal energy
Thermal resistance
Tube heat exchangers
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Summary:Given that the issue of variations in geometrical parameters of the borehole heat exchanger (BHE) revolves around the phenomenon of thermal resistance, a thorough understanding of these parameters is beneficial in enhancing thermal performance of BHEs. The present study seeks to identify relative changes in the thermal performance of double U-tube BHEs triggered by alterations in circuit arrangements, as well as the shank spacing and the borehole length. The thermal performance of double U-tube BHEs with different configurations is comprehensively analyzed through a 3D transient numerical code developed by means of the finite element method. The sensitivity of each circuit configuration in terms of the thermal performance to variations of the borehole length and shank spacing is investigated. The impact of the thermal interference between flowing legs, namely thermal short-circuiting, on parameters affecting the borehole thermal resistance is addressed. Furthermore, the energy exchange characteristics for different circuit configurations are quantified by introducing the thermal effectiveness coefficient. The results indicate that the borehole length is more influential than shank spacing in increasing the discrepancy between thermal performances of different circuit configurations. It is shown that deviation of the averaged-over-the-depth mean fluid temperature from the arithmetic mean of the inlet and outlet temperatures is more critical for lower shank spacings and higher borehole lengths.
ISSN:1996-1073
1996-1073
DOI:10.3390/en13123275