- ARTCLES PUBLIÉS DANS DES REVUES À COMITÉ DE LECTURE
Lagrandeur, J., Poncet, S., Sorin, M. et Khennich, M. (2019). Thermodynamic modeling and artificial neural network of air counterflow vortex tubes. International Journal of Thermal Sciences, (146), 106097.
Khennich, M., Galanis, N. et Sorin, M. (2016). Effects of design conditions and irreversibilities on the dimensions of ejectors in refrigeration systems. Appl. Energy, (179), p. 1020–1031.
Khennich, M., Sorin, M. et Galanis, N. (2016). Exergy Flows inside a One-Phase Ejector for Refrigeration Systems. Energies, (9), (3), 212; DOI: 10.3390/en9030212.
Khennich, M., Sorin, M. et Galanis, N. (2014). Equivalent Temperature-Enthalpy Diagram for the Study of Ejector Refrigeration Systems. Entropy, (16), (5), p. 2669–2685.
Khennich, M., Galanis, N. et Sorin, M. (2013). Comparison of Combined Heat and Power Systems using an Organic Rankine Cycle and a Low-Temperature Heat Source, International Journal of low-Carbon Technologies, doi:10.1093/ijlct/ctt028, (8), p. i42-i46.
Khennich, M., Galanis, N. (2012). Thermodynamic Analysis and Optimization of Power Cycles Using a Finite Low-Temperature Heat Source, International Journal of Energy Research, (36), (7), p. 871-885.
Khennich, M., Galanis, N. (2012). Optimal Design of ORC Systems with a Low-Temperature Heat Source. Entropy, (14), (2), p. 370-389.
- CHAPITRES DE LIVRES
Sorin, M., Khennich, M. (2018). Exergy Flows inside Expansion and Compression Devices Operating below and across Ambient Temperature. Published in Book: Energy Systems and Environment. Editor: INTECH (https://www.intechopen.com/).
- COMPTES RENDUS DE COLLOQUES AVEC COMITÉ DE LECTURE
Doiron, N., St-Onge, S., Khennich, M., (2021). Modélisation Thermodynamique et Analyse Exergétique d’un Tube Vortex Non-Adiabatique Utilisant un Fluide Naturel. In Proceedings of the Canadian Society for Mechanical Engineering International Congress (CSME Congress (June 27-30), Charlottetown (PE), Canada.
Khennich, M., Sorin, M. et Galanis, N. (2015). Effects of Condenser Pressure on the Size and Operation Conditions of Ejector Refrigeration Systems. In Proceedings of the International Conference on Innovative Technologies (INTECH), Dubrovnik, Croatia.
Khennich, M., Galanis, N., Sorin, M. et Fortin, J.-A. (2015). Modeling and Preliminary Design of a Solar-Driven Ejector Refrigeration System. In the XIIth Interuniversity Symposium Franco-Québécois in Thermal Systems (CIFQ), ART–04–05, Sherbrooke (QC), Canada.
Khennich, M., Galanis, N., Sorin, M. (2013). Performance of Cogeneration Systems Using Waste Heat. IMECE2013-63026, ASME 2013. International Mechanical Engineering Congress & Exposition. IMECE San Diego, California.
Khennich, M., Galanis, N., Sorin, M. (2012). Comparison of Combined Heat and Power Systems Using an Organic Rankine Cycle and a Low-Temperature Heat Source. HPC580, Heat Powered Cycles Conference in the Netherlands.
Khennich, M., Galanis, N. (2012). Comparative Analysis of Cogeneration Systems with a Low-Temperature Heat Source. International Journal of Arts and Sciences, Toronto.
Khennich, M., Galanis, N. (2011). Optimisation d’une Centrale à Fluide Organique Alimentée par une Source de Chaleur à Basse Température. Canadian Congress of Applied Mechanics, (CANCAM), Vancouver.
Khennich, M., Galanis, N. (2011). On the Optimization of ORC Systems, First International Seminar on ORC Power Systems – TU Delft, Holland.
Khennich, M., Galanis, N. (2010). Cycles thermodynamiques pour la Génération d’Électricité à partir de Sources Thermiques à Basse Température. Premier Colloque International Francophone d’Énergétique et Mécanique – (CIFEM), Saly, Sénégal.
Khennich, M., Galanis, N. (2010). Performance Limits of Power Cycles Using Low–Temperature Heat Sources. International Conference: Énergie et Environment (EE’10)- (WSEAS), Cambridge, UK.
- RAPPORTS TECHNIQUES
Khennich,M., N., Sorin, Galanis, N (2013). Modélisation et Conception d’un Système Solaire de Production du Froid (Rackam (QC)).
Khennich,M., N., Sorin (2018). Modélisation d’un Système à Air Comprimé Intégrant un Éjecteur Monophasique et un Tube Vortex pour la Génération de Chaleur et du froid (24 pages, Aéronergie (QC)).
Khennich,M : Modélisation Numérique et Simulation pour la Détermination de l’Enveloppe de Performance d’un Échangeur de Chaleur Innovant. (Building Experts, en cours 2021).