Energy pile field simulation in large buildings : Validation of surface boundary assumptions

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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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Date

2019-02-26

Department

Department of Civil Engineering

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Language

en

Pages

20

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Energies, Volume 12, issue 5

Abstract

As the energy efficiency demands for future buildings become increasingly stringent, preliminary assessments of energy consumption are mandatory. These are possible only through numerical simulations, whose reliability crucially depends on boundary conditions. We therefore investigate their role in numerical estimates for the usage of geothermal energy, performing annual simulations of transient heat transfer for a building employing a geothermal heat pump plant and energy piles. Starting from actual measurements, we solve the heat equations in 2D and 3D using COMSOL Multiphysics and IDA-ICE, discovering a negligible impact of the multiregional ground surface boundary conditions. Moreover, we verify that the thermal mass of the soil medium induces a small vertical temperature gradient on the piles surface. We also find a roughly constant temperature on each horizontal cross-section, with nearly identical average values when either integrated over the full plane or evaluated at one single point. Calculating the yearly heating need for an entire building, we then show that the chosen upper boundary condition affects the energy balance dramatically. Using directly the pipes’ outlet temperature induces a 54% overestimation of the heat flux, while the exact ground surface temperature above the piles reduces the error to 0.03%.

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Keywords

Computer simulations, Energy, Energy piles, Floor slab heat loss, Validation, floor slab heat loss, DESIGN, HEAT-TRANSFER, energy piles, THERMAL-RESISTANCE, PERFORMANCE, BEHAVIOR, computer simulations, MODEL, NUMERICAL-ANALYSIS, validation, energy

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DOI

10.3390/en12050770

Citation

Ferrantelli, A, Fadejev, J & Kurnitski, J 2019, 'Energy pile field simulation in large buildings : Validation of surface boundary assumptions', Energies, vol. 12, no. 5, 770. https://doi.org/10.3390/en12050770

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https://urn.fi/URN:NBN:fi:aalto-201904022511

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[article-cris] Insinööritieteiden korkeakoulu / ENG