Perfomance of a borehole heat exchanger: The influence of thermal properties estimation under tidal fluctuation

This research assesses how groundwater flow induced by tide influences the performance of a borehole heat exchanger (BHE) using a case study in Guayaquil, Ecuador. The Thermal Response Test (TRT) was applied to determine the thermal properties of the ground. The experimental results of TRT showed pe...

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Published inEngineering science and technology, an international journal Vol. 30; p. 101057
Main Authors Moreira, Daniel, Macias, Jose, Hidalgo-Leon, Ruben, Jervis, Freddy X., Soriano, Guillermo
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2022
Elsevier
Subjects
Borehole heat exchanger
Phreatic level
Thermal properties of saturated soil
Thermal response test
Tidal effect
Phreatic level
Thermal response test
Borehole heat exchanger
Tidal effect
Thermal properties of saturated soil
Online AccessGet full text
ISSN2215-0986
2215-0986
DOI10.1016/j.jestch.2021.09.003

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Abstract This research assesses how groundwater flow induced by tide influences the performance of a borehole heat exchanger (BHE) using a case study in Guayaquil, Ecuador. The Thermal Response Test (TRT) was applied to determine the thermal properties of the ground. The experimental results of TRT showed periodic fluctuations in the response, presumably induced by the tide. An explanation of the effects of the tide on thermal performance was carried out systematically. Later, an analytical solution was proposed to estimate the phreatic level near the shore. A geometric mean model then predicted the thermal properties of the ground, given the groundwater level fluctuations. Consequently, a relationship between the effective thermal capacity of the soil and the phreatic level was found. Results show that thermal diffusivity is overpredicted by 50% and thermal conductivity by 8.8%. Finally, we evaluated the heat dissipation of a borehole heat exchanger using a TRNSYS simulation, revealing an overestimation of 12% in the heat rate capacity of the BHE when ignoring tidal effects. This overestimation shows how using standard thermal properties measurement methodologies may affect the design process resulting in substantial inaccuracies in performance and implementation costs.
AbstractList This research assesses how groundwater flow induced by tide influences the performance of a borehole heat exchanger (BHE) using a case study in Guayaquil, Ecuador. The Thermal Response Test (TRT) was applied to determine the thermal properties of the ground. The experimental results of TRT showed periodic fluctuations in the response, presumably induced by the tide. An explanation of the effects of the tide on thermal performance was carried out systematically. Later, an analytical solution was proposed to estimate the phreatic level near the shore. A geometric mean model then predicted the thermal properties of the ground, given the groundwater level fluctuations.Consequently, a relationship between the effective thermal capacity of the soil and the phreatic level was found. Results show that thermal diffusivity is overpredicted by 50% and thermal conductivity by 8.8%. Finally, we evaluated the heat dissipation of a borehole heat exchanger using a TRNSYS simulation, revealing an overestimation of 12% in the heat rate capacity of the BHE when ignoring tidal effects. This overestimation shows how using standard thermal properties measurement methodologies may affect the design process resulting in substantial inaccuracies in performance and implementation costs.
This research assesses how groundwater flow induced by tide influences the performance of a borehole heat exchanger (BHE) using a case study in Guayaquil, Ecuador. The Thermal Response Test (TRT) was applied to determine the thermal properties of the ground. The experimental results of TRT showed periodic fluctuations in the response, presumably induced by the tide. An explanation of the effects of the tide on thermal performance was carried out systematically. Later, an analytical solution was proposed to estimate the phreatic level near the shore. A geometric mean model then predicted the thermal properties of the ground, given the groundwater level fluctuations. Consequently, a relationship between the effective thermal capacity of the soil and the phreatic level was found. Results show that thermal diffusivity is overpredicted by 50% and thermal conductivity by 8.8%. Finally, we evaluated the heat dissipation of a borehole heat exchanger using a TRNSYS simulation, revealing an overestimation of 12% in the heat rate capacity of the BHE when ignoring tidal effects. This overestimation shows how using standard thermal properties measurement methodologies may affect the design process resulting in substantial inaccuracies in performance and implementation costs.
ArticleNumber 101057
Author Moreira, Daniel
Jervis, Freddy X.
Hidalgo-Leon, Ruben
Soriano, Guillermo
Macias, Jose
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Keywords Phreatic level
Thermal response test
Borehole heat exchanger
Tidal effect
Thermal properties of saturated soil
Language English
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Snippet This research assesses how groundwater flow induced by tide influences the performance of a borehole heat exchanger (BHE) using a case study in Guayaquil,...
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SubjectTerms Borehole heat exchanger
Phreatic level
Thermal properties of saturated soil
Thermal response test
Tidal effect
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Title Perfomance of a borehole heat exchanger: The influence of thermal properties estimation under tidal fluctuation
URI https://dx.doi.org/10.1016/j.jestch.2021.09.003
https://doi.org/10.1016/j.jestch.2021.09.003
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