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Documents dont l'auteur est "Eslami Nejad, Parham"

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Nombre de documents: 47

Kimiaei, S., Kazemi-Ranjbar, S., & Eslami Nejad, P. (2023). Grid-friendly ground source heat pump configurations to reduce the peak power demand of conventional electric-based heating systems. Energy and Buildings, 290, 113084 (14 pages). Lien externe

Bastani, A., Nguyen, A., Eslami Nejad, P., & Badache, M. (2023). Numerical investigation of using a field of shallow boreholes with latent heat storage and solar injection in cold climates. Geothermics, 112, 11 pages. Lien externe

Bastani, A., Eslami Nejad, P., Badache, M., & Nguyen, A. T. A. (2020). Experimental characterization of a transcritical CO₂ direct expansion ground source heat pump for heating applications. Energy and Buildings, 212, 109828 (11 pages). Lien externe

Eslami Nejad, P., Ouzzane, M., Guay, C., & Badache, M. (2020). Multi-channel ground heat exchange unit and geothermal system. (Brevet no US11181302). Lien externe

Eslami Nejad, P., Badache, M., Bastani, A., & Nguyen, A. (décembre 2020). Novel ground heat exchanger configurations for CO2 direct expansion geothermal heat pumps [Communication écrite]. 14th IIR-Gustav Lorentzen Conference Natural Refrigerants (GL2020), Kyoto, Japon. Lien externe

Eslami Nejad, P., Nguyen, A., Cimmino, M., Bastani, A., & Badache, M. (2020). Performance comparison of a vertical direct expansion geothermal evaporator: Part I, single U-pipe using different refrigerants. [Comparaison des performances d'un évaporateur géothermique vertical à détente directe: Partie I, Tuyauterie en U unique avec différents frigorigènes]. Lien externe

Eslami Nejad, P., Cimmino, M., Nguyen, A., Badache, M., & Bastani, A. (2020). Performance comparison of a vertical direct expansion geothermal evaporator: PART II, multiple U-pipes. International Journal of Refrigeration, 116, 161-171. Lien externe

Eslami Nejad, P., Bastani, A., & Giguere, D. (2020). Single-pipe thermal energy system. (Demande de brevet no US20200041163). Lien externe

Eslami Nejad, P., & Bastani, A. (décembre 2020). Two-phase CO₂ loop for thermal energy management in buildings: Concept and building energy performance improvement [Communication écrite]. 14th IIR-Gustav Lorentzen Conference Natural Refrigerants (GL2020). Lien externe

Corcoran, A., Eslami Nejad, P., Bernier, M., & Badache, M. (2019). Calibration of thermal response test (TRT) units with a virtual borehole. Geothermics, 79, 105-113. Disponible

Badache, M., Aidoun, Z., Eslami Nejad, P., & Blessent, D. (2019). Ground-Coupled Natural Circulating Devices (Thermosiphons): A Review of Modeling, Experimental and Development Studies. Lien externe

Nguyen, A., Eslami Nejad, P., Badache, M., & Bastani, A. (2019). Influence of an internal heat exchanger on the operation of a CO₂ direct expansion ground source heat pump. Energy and Buildings, 202, 109343 (10 pages). Lien externe

Badache, M., Eslami Nejad, P., Bastani, A., Aidoun, Z., & Nguyen, A. (2019). Theoretical and experimental analysis of a vertical direct expansion geothermal evaporator using CO₂ as refrigerant. Science and Technology for the Built Environment, 25(8), 1081-1094. Lien externe

Nguyen, A., & Eslami Nejad, P. (2019). A transient coupled model of a variable speed transcritical CO₂ direct expansion ground source heat pump for space heating and cooling. Renewable Energy, 140, 1012-1021. Lien externe

Badache, M., Eslami Nejad, P., Bastani, N. A., Aidoun, Z., & Ouzzane, M. (septembre 2018). Carbon dioxide evaporation process in direct expansion geothermal boreholes [Communication écrite]. 2018 IGSHPA Research Track, Stockholm, Sweden (9 pages). Lien externe

Eslami Nejad, P., Badache, M., Bastani, A., & Aidoun, Z. (2018). Detailed Theoretical Characterization of a Transcritical CO₂ Direct Expansion Ground Source Heat Pump Water Heater. Lien externe

Badache, M., Ouzzane, M., Eslami Nejad, P., & Aidoun, Z. (2018). Experimental study of a carbon dioxide direct-expansion ground source heat pump (CO2-DX-GSHP). Applied Thermal Engineering, 130, 1480-1488. Lien externe

Nguyen, A., Eslami Nejad, P., Badache, M., & Bastani, A. (2018). Pressure–enthalpy coupled thermal resistance and capacity model (PH-TRCM) for direct-expansion borehole heat exchangers: Application for supercritical CO₂. Geothermics, 76, 50-59. Lien externe

Eslami Nejad, P., Badache, M., Corcoran, A., & Bernier, M. (septembre 2018). A virtual borehole for thermal response test unit calibration : test facility and concept development [Communication écrite]. 2018 IGSHPA Research Track, Stockholm, Sweden (9 pages). Lien externe

Eslami Nejad, P., Badache, M., Ouzzane, M., & Aidoun, Z. (mars 2017). Direct expansion ground source heat pump using carbon dioxide as refrigerant: Test facility and theoretical model presentation [Communication écrite]. IGSHPA Technical/Research Conference and Expo, Denver, Colorado (9 pages). Lien externe

Cimmino, M., Eslami Nejad, P., & Hossatte-Ducassy, S. (mars 2017). Heat pump capacity effects on peak electricity consumption and total length of self and solar-assisted shallow ground heat exchanger networks [Communication écrite]. IGSHPA Technical/Research Conference and Expo, Denver, Colorado. Lien externe

Cimmino, M., & Eslami Nejad, P. (2017). A simulation model for solar assisted shallow ground heat exchangers in series arrangement. Energy and Buildings, 157, 227-246. Lien externe

Hakkaki-Fard, A., Aidoun, Z., & Eslami Nejad, P. (juin 2016). Evaluation of Refrigerant Mixtures in Three Different Cold-Climate Residential Air-Source Heat Pumps [Communication écrite]. Non spécifié (8 pages). Lien externe

Badache, M., Eslami Nejad, P., Ouzzane, M., Aidoun, Z., & Lamarche, L. (2016). A new modeling approach for improved ground temperature profile determination. Renewable Energy, 85, 436-444. Lien externe

Badache, M., Ouzzane, M., Eslami Nejad, P., & Aidoun, Z. (2016). Recent Advances in Shallow Ground Thermal Energy: Modeling and Developments. Lien externe

Eslami Nejad, P., Hakkaki-Fard, A., Aidoun, Z., & Ouzzane, M. (juin 2016). Technical assessment of ground source, air source and hybrid heat pumps for a single-family building in cold climates [Résumé]. 2016 ASHRAE Annual Conference, St-Louis, Missouri (11 pages). Publié dans ASHRAE Transactions, 122(2). Lien externe

Eslami Nejad, P., Hakkaki-Fard, A., Aidoun, Z., & Ouzzane, M. (juillet 2015). Assessment of three heat pump options for cold climate heating applications [Communication écrite]. 11th International Conference on Heat Transfer, Fluid Mechanics (HEFAT 2015), Kruger National Park, South Africa. Non disponible

Eslami Nejad, P., Hakkaki-Fard, A., Aidoun, Z., & Ouzzane, M. (juin 2015). Direct Expansion Ground-Source vs Air-Source Heat Pumps: Is the “Hybrid” System a Solution to Expensive Ground Loop Installations in Cold Climates? [Communication écrite]. 2015 ASME Power and Energy, San Diego, CA. Non disponible

Ouzzane, M., Eslami Nejad, P., Badache, M., & Aidoun, Z. (2015). New correlations for the prediction of the undisturbed ground temperature. Geothermics, 53, 379-384. Lien externe

Badache, M., Eslami Nejad, P., Ouzzane, M., & Aidoun, Z. (juin 2015). Nouvelle approche pour l'évaluation du profil de température du sol [Communication écrite]. XIIème Colloque Interuniversitaire Franco-Québécois sur la Thermique des Systèmes, Sherbrooke, Québec. Non disponible

Eslami Nejad, P., Ouzzane, M., & Aidoun, Z. (2015). A quasi-transient model of a transcritical carbon dioxide direct-expansion ground source heat pump for space and water heating. Applied Thermal Engineering, 91, 259-269. Lien externe

Hakkaki-Fard, A., Eslami Nejad, P., Aidoun, Z., & Ouzzane, M. (2015). A techno-economic comparison of a direct expansion ground-source and an air-source heat pump system in Canadian cold climates. Energy, 87, 49-59. Lien externe

Ouzzane, M., Eslami Nejad, P., Aidoun, Z., & Lamarche, L. (2014). Analysis of the convective heat exchange effect on the undisturbed ground temperature. Solar Energy, 108, 340-347. Lien externe

Eslami Nejad, P., Bernier, M., & Cauret, O. (juin 2014). Evaluation of the thermal performance of two non- standard borehole configurations [Communication écrite]. 2014 ASHRAE Annual Conference, Seattle, WA, USA. Publié dans ASHRAE Transactions, 120(2). Lien externe

Eslami Nejad, P., Ouzzane, M., & Aidoun, Z. (2014). Modeling of a two-phase CO₂-filled vertical borehole for geothermal heat pump applications. Applied Energy, 114, 611-620. Lien externe

Eslami Nejad, P., Ouzzane, M., Aidoun, Z., & Lamarche, L. (mai 2014). Transcritical carbon dioxide direct-expansion ground coupled heat pump: modeling and application [Affiche]. 11th IEA Heat Pump Conference, Montréal, Québec. Lien externe

Eslami Nejad, P., Ouzzane, M., & Aidoun, Z. (novembre 2013). CO₂-Filled Vertical Geothermal Boreholes: Modeling and Application [Communication écrite]. ASME 2013 International Mechanical Engineering Congress and Exposition (IMECE 2013), San Diego, CA (6 pages). Lien externe

Ouzzane, M., Aidoun, Z., & Eslami Nejad, P. (juin 2013). Étude numérique et expérimentale de la distribution de la température dans le sol en présence de la neige [Communication écrite]. XIème Colloque Inter-universitaire Franco-Québécois, Reims, Paris. Non disponible

Eslami Nejad, P., & Bernier, M. (2013). A preliminary assessment on the use of phase change materials around geothermal boreholes. ASHRAE Transactions, 119(2), 312-321. Non disponible

Eslami Nejad, P., & Bernier, M. (2012). Freezing of geothermal borehole surroundings : a numerical and experimental assessment with applications. Applied Energy, 98, 333-345. Lien externe

Eslami Nejad, P., & Bernier, M. (mai 2012). Simulations of a new double U-tube borehole configuration with solar heat injection and ground freezing [Communication écrite]. IBPSA-Canada - eSim, Halifax, N.S., Canada. Lien externe

Eslami Nejad, P. (2011). Double U-Tube Geothermal Borehole Operation Under Phase Change Conditions [Thèse de doctorat, École Polytechnique de Montréal]. Disponible

Eslami Nejad, P., & Bernier, M. (2011). Coupling of geothermal heat pumps with thermal solar collectors using double U-tube boreholes with two independent circuits. Applied Thermal Engineering, 31(14-15), 3066-3077. Lien externe

Eslami Nejad, P., & Bernier, M. (2011). Heat Transfer in Double U-Tube Boreholes With Two Independent Circuits. Journal of Heat Transfer, 133(8). Lien externe

Eslami Nejad, P., & Bernier, M. (juillet 2009). Impact of grey water heat recovery on the electrical demand of domestic hot water heaters [Communication écrite]. 11th International Building Performance Simulation Association Conference and Exhibition, Glasgow. Lien externe

Eslami Nejad, P., Langlois, A., Chapuis, S., Bernier, M., & Faraj, W. (juin 2009). Solar heat injection into boreholes [Communication écrite]. 4th annual Canadian solar buildings conference : plug into the sun, Toronto, Ont. Non disponible

Eslami Nejad, P., & Saboohi, Y. (novembre 2005). Optimal Model of Solid Waste Technology Assessment [Communication écrite]. ASME 2005 International Mechanical Engineering Congress and Exposition (IMECE 2005), Orlando, Florida. Lien externe

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