Numerical modeling of the effects of the radial and axial location of added micro-encapsulated phase change materials in vertical borehole heat exchangers

• Published in: Geothermics Vol. 110; p. 102684
• Main Authors: Aljabr, Ahmad, Chiasson, Andrew
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.05.2023
• Subjects: GCHP; Geothermal heat pump; Phase change materials location; GCHP; Geothermal heat pump; Phase change materials location
• ISSN: 0375-6505; 1879-3576
• DOI: 10.1016/j.geothermics.2023.102684

•The best radial location for PCM is intermixed within the grout.•The best placement for PCM within borehole grout is in the bottom half-depth of the borehole.•Placement of PCM within borehole grout can significantly improve the economics of its use.•Current cost of PCM remains an economic challenge against its use in borehole grouts. A numerical model of a vertical borehole heat exchanger (BHE) with micro-encapsulated phase-change material (PCM) was used to examine the thermal effect of the radial and axial location of the added PCM within the borehole. In the radial direction, PCM could be placed at the center of the borehole, at the borehole periphery, or interspersed within the grout. In the axial direction, PCM could be concentrated either in the top, bottom, or mid portions of the borehole grout, or again interspersed evenly. PCM could also be added to the borehole heat transfer fluid. Each location has its own thermal, and therefore economic, advantages and disadvantages, and thus this present work investigated these effects toward decreasing borehole length. Analysis of results showed that the best radial location for the PCM is intermixed within the grout, even though that configuration has a disadvantage of increasing the overall borehole thermal resistance. In the axial direction, it was found that the thermal behavior of the PCM varied over the borehole length, and thus adding the PCM-grout mixture to only the bottom half-depth of the borehole reduced the thermal benefit by only about 19%. Thus, it is concluded that strategic placement of PCM within borehole grout can significantly improve the economics of its use in vertical GCHP systems, but at current costs of PCM, its use in borehole grouts remains an economic challenge.