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Dion, G., Pasquier, P., Marcotte, D., & Beaudry, G. (2023). Multi-deconvolution in non-stationary conditions applied to experimental thermal response test analysis to obtain short-term transfer functions. Science and Technology for the Built Environment, 14 pages. Lien externe
Beaudry, G., Pasquier, P., & Nguyen, A. (2023). New formulations and experimental validation of non-stationary convolutions for the fast simulation of time-variant flowrates in ground heat exchangers. Science and Technology for the Built Environment, 20 pages. Lien externe
Beaudry, G., Pasquier, P., Marcotte, D., & Zarrella, A. (2022). Flow rate control in standing column wells: A flexible solution for reducing the energy use and peak power demand of the built environment. Applied Energy, 313, 14 pages. Lien externe
Beaudry, G., Pasquier, P., & Marcotte, D. (2021). A fast convolution-based method to simulate time-varying flow rates in closed-loop and standing column well ground heat exchangers. Renewable Energy, 174, 55-72. Lien externe
Beaudry, G., Pasquier, P., & Marcotte, D. (2019). The impact of rock fracturing and pump intake location on the thermal recovery of a standing column well: model development, experimental validation, and numerical analysis. Science and Technology for the Built Environment, 25(8), 1052-1068. Lien externe
Beaudry, G., Pasquier, P., & Robert, S. (avril 2023). The influence of local hydrogeological conditions on SCW operations [Communication écrite]. EGU General Assembly, Vienna, Austria. Lien externe
Tonellato, G., Beaudry, G., Kummert, M., Pasquier, P., & Candanedo, J. A. (décembre 2022). Control strategy evaluation framework for ground source heat pumps using standing column wells [Communication écrite]. International Ground Source Heat Pump Association annual Conference, Las vegas, NV, USA. Lien externe
Beaudry, G., & Pasquier, P. (décembre 2022). Dynamic simulation of ground source heat pump systems with non-stationary convolutions [Communication écrite]. International Ground Source Heat Pump Association annual Conference, Las vegas, NV, USA. Lien externe
Rose, C., Pasquier, P., Nguyen, A., & Beaudry, G. (décembre 2022). Forecasting hydraulic head changes in injection wells using LSTM network [Communication écrite]. International Ground Source Heat Pump Association annual Conference, Las vegas, NV, USA. Lien externe
Dion, G., Pasquier, P., Beaudry, G., & Marcotte, D. (décembre 2022). Stationary and non-stationary deconvolution to recover long-term transfer functions [Communication écrite]. International Ground Source Heat Pump Association annual Conference, Las vegas, NV, USA. Lien externe
Beaudry, G., Pasquier, P., & Marcotte, D. (avril 2021). Non stationary combinaison for the simulation of time-varying flow rates in closing-loop ground heat exchangers [Communication écrite]. EGU General Assembly (vEGU 2021). Lien externe
Beaudry, G., Pasquier, P., & Marcotte, D. (septembre 2018). Hydrogeothermal characterization and modelling of a standing column well experimental installation [Communication écrite]. IGSHPA Research Track, Stockholm, Sweden. Lien externe
Beaudry, G., Pasquier, P., Faucher, J., Tonellato, G., & Kummer, M. (avril 2024). Standing column wells in cold climates : a case study in a highly productive aquifer [Présentation]. Dans 2024 EGU General Assembly, Vienna, Austria. Non disponible
Beaudry, G. (2021). Convolution non stationnaire de fonctions de transfert pour la simulation efficace des systèmes géothermiques de puits à colonne permanente [Thèse de doctorat, Polytechnique Montréal]. Disponible