Journal article
Thermal response testing of large diameter energy piles
L Jensen-Page, F Loveridge, GA Narsilio
Energies | MDPI | Published : 2019
DOI: 10.3390/en12142700
Abstract
Energy piles are a novel form of ground heat exchanger (GHE) used in ground source heat pump systems. However, characterizing the pile and ground thermal properties is more challenging than for traditional GHEs. Routine in-situ thermal response testing (TRT) methods assume that steady state conditions in the GHE are achieved within a few hours, whereas larger diameter energy piles may take days or even weeks, thereby incurring significant costs. Previous work on pile TRTs has focused on small diameters up to 450 mm. This paper makes the first rigorous assessment of TRT methods for larger diameter piles using field and laboratory datasets, the application of numerical and analytical modelling..
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Awarded by Department of Environment, Land, Water and Planning, State Government of Victoria
Funding Acknowledgements
The authors are grateful for support from the Department of Environment, Land, Water and Planning of the Government of Victoria (Sustainable Energy Pilot Demonstration (SEPD) Program). Fleur Loveridge was funded by the UK Royal Academy of Engineering and the Melbourne School of Engineering & IT Visiting Fellowship. Linden Jensen-Page was supported by the Len Stevens Scholarship. Guillermo Narsilio was funded by the Australian Research Council (FT140100227).