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Vertical ground heat exchanger pressure loss – Experimental comparisons and calculation procedures

Javed, Saqib LU and Spitler, Jeffrey D. (2022) In Geothermics 105.
Abstract

Vertical ground heat exchangers (GHEs) used with ground source heat pump systems have been constructed in a variety of configurations including single U-tubes, double U-tubes, quadruple U-tubes, and coaxial-type. Selections of vertical GHE other than single U-tubes are often motivated by a desire to decrease the borehole thermal resistance and therefore reduce the required amount of drilling and/or improve the thermal performance of the system. As with conventional heat exchanger design, the hydraulic performance – i.e. how much pressure loss is incurred – is also very important to the overall system performance. Yet, relatively little attention has been paid to this aspect of the design. In this paper, we present experimental... (More)

Vertical ground heat exchangers (GHEs) used with ground source heat pump systems have been constructed in a variety of configurations including single U-tubes, double U-tubes, quadruple U-tubes, and coaxial-type. Selections of vertical GHE other than single U-tubes are often motivated by a desire to decrease the borehole thermal resistance and therefore reduce the required amount of drilling and/or improve the thermal performance of the system. As with conventional heat exchanger design, the hydraulic performance – i.e. how much pressure loss is incurred – is also very important to the overall system performance. Yet, relatively little attention has been paid to this aspect of the design. In this paper, we present experimental measurements of pressure loss versus flow for four types of vertical GHE in a 200 m deep borehole: a single U-tube, double U-tubes connected in parallel, and in series, a coaxial heat exchanger, and a single U-tube with internal heat transfer enhancing ridges. Procedures for calculating the pressure loss in these configurations are tested. While standard procedures are adequate for the smooth U-tubes, the internally-ridged U-tube required a new correlation. For the coaxial heat exchanger, seemingly minor fittings that intruded into the annulus were shown to be important for calculating the pressure loss. Finally, the effects of using fiber optic cable assemblies inserted into the pipe are investigated and correlations for the excess pressure loss are given.

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Contribution to journal
publication status
published
subject
keywords
Borehole heat exchangers, Coaxial, Ground heat exchangers, Hydraulic performance, Pressure drops, Ridged, U-tube
in
Geothermics
volume
105
article number
102546
publisher
Elsevier
external identifiers
  • scopus:85135984610
ISSN
0375-6505
DOI
10.1016/j.geothermics.2022.102546
language
English
LU publication?
yes
id
ac464a10-5098-4034-973e-ed16a9097509
date added to LUP
2022-09-09 14:37:10
date last changed
2022-09-09 14:37:10
@article{ac464a10-5098-4034-973e-ed16a9097509,
  abstract     = {{<p>Vertical ground heat exchangers (GHEs) used with ground source heat pump systems have been constructed in a variety of configurations including single U-tubes, double U-tubes, quadruple U-tubes, and coaxial-type. Selections of vertical GHE other than single U-tubes are often motivated by a desire to decrease the borehole thermal resistance and therefore reduce the required amount of drilling and/or improve the thermal performance of the system. As with conventional heat exchanger design, the hydraulic performance – i.e. how much pressure loss is incurred – is also very important to the overall system performance. Yet, relatively little attention has been paid to this aspect of the design. In this paper, we present experimental measurements of pressure loss versus flow for four types of vertical GHE in a 200 m deep borehole: a single U-tube, double U-tubes connected in parallel, and in series, a coaxial heat exchanger, and a single U-tube with internal heat transfer enhancing ridges. Procedures for calculating the pressure loss in these configurations are tested. While standard procedures are adequate for the smooth U-tubes, the internally-ridged U-tube required a new correlation. For the coaxial heat exchanger, seemingly minor fittings that intruded into the annulus were shown to be important for calculating the pressure loss. Finally, the effects of using fiber optic cable assemblies inserted into the pipe are investigated and correlations for the excess pressure loss are given.</p>}},
  author       = {{Javed, Saqib and Spitler, Jeffrey D.}},
  issn         = {{0375-6505}},
  keywords     = {{Borehole heat exchangers; Coaxial; Ground heat exchangers; Hydraulic performance; Pressure drops; Ridged; U-tube}},
  language     = {{eng}},
  publisher    = {{Elsevier}},
  series       = {{Geothermics}},
  title        = {{Vertical ground heat exchanger pressure loss – Experimental comparisons and calculation procedures}},
  url          = {{http://dx.doi.org/10.1016/j.geothermics.2022.102546}},
  doi          = {{10.1016/j.geothermics.2022.102546}},
  volume       = {{105}},
  year         = {{2022}},
}