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Jasmin Raymond

 

Membre régulier

Centre Eau-Terre-Environnement, INRS-ETE

Centre Eau Terre Environnement
490, rue de la Couronne
INRS-ETE
Québec
Québec, Canada
G1K 9A9

418.654.2559
jasmin.raymond@ete.inrs.ca

 

http://132.203.57.253:8080/donneesweb/document/image/perso_3974.jpg

 


 

Étudiants / Chercheurs postdoctoraux au CEN

Alvarado, Edgardo J. (Maîtrise). Évaluation du potentiel géothermique de la mine Éléonore.

Fakhari, Milad (Doctorat). Évaluation de la contribution de l’eau souterraine aux refuges thermiques piscicoles des rivières du Nord du Québec en considérant l’effet des changements climatiques.

Giordano, Nicolò (Post-Doctorat). Potentiel géothermique superficiel du Québec du nord.

Miranda, Mafalda (Doctorat). Évaluation du potentiel des ressources géothermiques profondes au Nunavik, Nord-du-Québec, Canada.

 
 

Thèses et mémoires récents

Morgan, Andrea , 2018 (Maîtrise). Le potentiel géothermique des mines abandonnées à Chibougamau et Chapais, Québec.

 
 

Communications scientifiques

Giordano, N., Raymond, J., 2019. Alternative and sustainable heat production for drinking water needs in a subarctic climate (Nunavik, Canada): Borehole thermal energy storage to reduce fossil fuel dependency in off-grid communities. Applied Energy, 252. Article #113463. DOI: 10.1016/j.apenergy.2019.113463.

Koubikana Pambou, C.H., Raymond, J., Lamarche, L., 2019. Improving thermal response tests with wireline temperature logs to evaluate ground thermal conductivity profiles and groundwater fluxes. Heat and Mass Transfer, 55(6): 1829-1843. DOI: 10.1007/s00231-018-2532-y.

Larmagnat, S., Des Roches, M., Daigle, L.-F., Francus, P., Lavoie, D., Raymond, J., Malo, M., Aubiès-Trouilh, A., 2019. Continuous porosity characterization: Metric-scale intervals in heterogeneous sedimentary rocks using medical CT-scanner. Marine and Petroleum Geology, 109: 361-380. DOI: 10.1016/j.marpetgeo.2019.04.039.

Malo, M., Malo, F., Bédard, K., Raymond, J., 2019. Public perception regarding deep geothermal energy and social acceptability in the Province of Québec, Canada. Pages 91-103 dans Manzella, A., Allansdottir, A., Pellizzone, A. (Éditeurs). Geothermal Energy and Society. Lecture Notes in Energy, vol. 67, Springer. Cham, Suisse. DOI: 10.1007/978-3-319-78286-7_7.

Vélez, M.I., Raymond, J., Blessent, D., Philippe, M., 2019. Terrestrial heat flow evaluation from thermal response tests combined with temperature profiling. Physics and Chemistry of the Earth, Parts A/B/C(published online 07-07-2019). DOI: 10.1016/j.pce.2019.07.002.

Bédard, K., Comeau, F.-A., Raymond, J., Malo, M., Nasr, M., 2018. Geothermal characterization of the St. Lawrence Lowlands sedimentary basin, Québec, Canada. Natural Resources Research, 27(4): 479-502. DOI: 10.1007/s11053-017-9363-2.

Lamarche, L., Raymond, J., Koubikana Pambou, C.H., 2018. Evaluation of the internal and borehole resistances during thermal response tests and impact on ground heat exchanger design. Energies, 11(1): 38. DOI: 10.3390/en11010038.

Moreno, D., López-Sánchez, J., Blessent, D., Raymond, J., 2018. Fault characterization and heat-transfer modeling to the Northwest of Nevado del Ruiz Volcano. Journal of South American Earth Science, 88: 50-63. DOI: 10.1016/j.jsames.2018.08.008.

Nasr, M., Raymond, J., Malo, M., Gloaguen, E., 2018. Geothermal potential of the St. Lawrence Lowlands sedimentary basin from well log analysis. Geothermics, 75: 68-80. DOI: 10.1016/j.geothermics.2018.04.004.

Raymond, J., 2018. Colloquium 2016: Assessment of the subsurface thermal conductivity for geothermal applications. Canadian Geotechnical Journal, 55(9): 1209-1229. DOI: 10.1139/cgj-2017-0447.

Vélez, M.I., Blessent, D., Córdoba, S., López-Sánchez, J., Raymond, J., Parra-Palacio, E., 2018. Geothermal potential assessment of the Nevado del Ruiz volcano based on rock thermal conductivity measurements and numerical modeling of heat transfer. Journal of South American Earth Science, 81: 153-164. DOI: 10.1016/j.jsames.2017.11.011.

Vélez, M.I., Raymond, J., Blessent, D., Philippe, M., Simon, N., Bour, O., Lamarche, L., 2018. Distributed thermal response tests using a heating cable and fiber optic temperature sensing. Energies, 11(11). Article #3059. DOI: 10.3390/en11113059.

Belzile, P., Comeau, F.-A., Raymond, J., Lamarche, L., Carreau, M., 2017. Arctic climate horizontal ground-coupled heat pump. Geothermal Resources Council Transactions, 41: 1958-1978.

Comeau, F.-A., Raymond, J., Malo, M., Dezayes, C., Carreau, M., 2017. Geothermal potential of northern Québec: A regional assessment. Geothermal Resources Council Transactions, 41: 1076-1094.

Raymond, J., Simon, C., Nasr, M., Malo, M., 2017. Evaluating the geothermal heat pump potential from a thermostratigraphic assessment of rock samples in the St. Lawrence Lowlands, Canada. Environmental Earth Sciences, 76(2): 1-15. DOI: 10.1007/s12665-017-6398-y.

Blessent, D., Raymond, J., Dezayes, C., 2016. Les ressources géothermiques profondes au Québec et en Colombie; un secteur dont le développement pourrait s’inspirer des centrales géothermiques en France. Techniques Sciences Méthodes (TSM), 9: 52-67. DOI: 10.1051/tsm/201609052 .

Raymond, J., Lamarche, L., Malo, M., 2016. Extending thermal response test assessments with inverse numerical modeling of temperature profiles measured in ground heat exchangers. Renewable Energy, 99: 614-621. DOI: 10.1016/j.renene.2016.07.005.

Rouleau, J., Gosselin, L., Raymond, J., 2016. New concept of combined hydro-thermal response tests (H/TRTS) for ground heat exchangers. Geothermics, 62: 103-114. DOI: 10.1016/j.geothermics.2016.03.002.

Raymond, J., Therrien, R., 2014. Optimizing the design of a geothermal district heating and cooling system located at a flooded mine in Canada. Hydrogeology Journal, 22(1): 217-231. DOI: 10.1007/s10040-013-1063-3.

Raymond, J., Therrien, R., Gosselin, L., 2011. Borehole temperature evolution during thermal response tests. Geothermics, 40(1): 69-78. DOI: 10.1016/j.geothermics.2010.12.002.

Raymond, J., Therrien, R., Gosselin, L., Lefebvre, R., 2011. A review of thermal response test analysis using pumping test concepts. Groundwater, 49(6): 932-945. DOI: 10.1111/j.1745-6584.2010.00791.x.

Raymond, J., Therrien, R., Gosselin, L., Lefebvre, R., 2011. Numerical analysis of thermal response tests with a groundwater flow and heat transfer model. Renewable Energy, 36: 315-324. DOI: 10.1016/j.renene.2010.06.044.

 
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