 | Monter d'un niveau |
Alifanti, M., Kirchnerova, J., Delmon, B., & Klvana, D. (2004). Methane and Propane Combustion Over Lanthanum Transition-Metal Perovskites: Role of Oxygen Mobility. Applied Catalysis. A, General, 262(2), 167-176. Lien externe
Chapuis, Y., Klvana, D., Guy, C., & Kirchnerova, J. (2002). Photocatalytic oxidation of volatile organic compounds using fluorescent visible lamp. Journal of the Air & Waste Management Association, 52(7), 845-854. Lien externe
Chaouki, J., Sapundjiev, C., Guy, C., Klvana, D., & Ratnani, K. (1999). Process and apparatus for gas phase exothermic reactions. (Brevet no US5941697). Lien externe
Chaouki, J., Klvana, D., & Guy, C. (1999). Selective and Complete Catalytic Oxidation of Natural Gas in Turbulent Fluidized Beds. Korean Journal of Chemical Engineering, 16(4), 494-500. Lien externe
Chaouki, J., Gonzalez, A., Guy, C., & Klvana, D. (1999). Two-Phase Model for a Catalytic Turbulent Fluidized-Bed Reactor: Application to Ethylene Synthesis. Chemical Engineering Science, 54(13-14), 2039-2045. Lien externe
Chehbouni, A., Chaouki, J., Guy, C., & Klvana, D. (1996). Description et modélisation des structures globale et locale des lits fluidisés en régime turbulent. Chemical engineering journal and the biochemical engineering journal, 61(2), 73-82. Lien externe
Chaouki, J., Klvana, D., & Guy, C. (1996). Développement de technologies de combustion catalytique du gaz naturel. (Rapport technique). Non disponible
Chaouki, J., Klvana, D., Guy, C., Koka, M., Kirchnerova, J., Kusohorsky, D., & Gauthier, P. (janvier 1995). Development of catalytic combustion technologies [Communication écrite]. International Gas Research Conference, Cannes, France. Non disponible
Chehbouni, A., Chaouki, J., Guy, C., & Klvana, D. (janvier 1995). Effect of temperature ont he hydrodynamics of turbulent fluidized beds [Communication écrite]. Fluidization VIII tours. Non disponible
Chehbouni, A., Chaouki, J., Guy, C., & Klvana, D. (1995). Effets de différents paramètres sur les vitesses de transition de la fluidisation en régime turbulent. Canadian Journal of Chemical Engineering, 73(1), 41-50. Lien externe
Chehbouni, A., Chaouki, J., Guy, C., & Klvana, D. (1994). Characterization of the flow transition between bubbling and turbulent fluidization. Industrial & Engineering Chemistry Research, 33(8), 1889-1896. Lien externe
Chaouki, J., Guy, C., Sapundzhiev, C., Kusohorsky, D., & Klvana, D. (mars 1994). Combustion of methane in a cyclic catalytic reactor [Communication écrite]. 207th spring national meeting of the American Chemical Society (ACS), San Diego, CA. Publié dans Industrial & engineering chemistry research, 33(12). Lien externe
Chaouki, J., & Klvana, D. (1994). Influence of the deactivation of an industrial Pt-Sn/Al₂O₃ catalyst on the performance of the dehydrogenation reactor. Chemical Engineering Science, 49(24, pt. A), 4639-4646. Lien externe
Chaouki, J., & Klvana, D. (janvier 1994). Influence of the deactivation of an industrial Pt-Sn/Al2O3 catalyst on thier performance of the dehydrogenation reactor [Communication écrite]. ISCRE 13, Baltimore, USA. Non disponible
Foka, M., Chaouki, J., Guy, C., & Klvana, D. (1996). Gas phase hydrodynamics of a gas-solid turbulent fluidized bed reactor. Chemical Engineering Science, 51(5), 713-723. Lien externe
Foka, M., Chaouki, J., Guy, C., & Klvana, D. (1994). Natural gas combustion in a catalytic turbulent fluidized bed. Chemical Engineering Science, 49(24, pt. A), 4269-4276. Lien externe
Forst, B., Kirchnerova, J., Klvana, D., Oliveira, J., Anantaraman, A., & Gourgouillon, D. (février 1994). Performance of Ni-Co based perovskite as electrocatalyst in alkaline fuel cells [Communication écrite]. 6. Canadian hydrogen workshop, Victoria (Canada). Non disponible
Joly, J.-P., Klvana, D., & Kirchnerova, J. (1999). Tpd of Oxygen From La-Sr-Ni-Co Perovskite Catalysts Doped With Fe or Mn. Reaction Kinetics and Catalysis Letters, 68(2), 249-255. Lien externe
Klvana, D., Chaouki, J., Guy, C., Kirchnerova, J., & Zanoletti, M. (2005). Performance of auto-cyclic reactor in catalytic combustion of lean fuel mixtures. Industrial and Engineering Chemistry Research, 44(25), 9676-9682. Lien externe
Kirchnerova, J., Cohen, M. L. H., Guy, C., & Klvana, D. (2005). Photocatalytic Oxidation of N-Butanol Under Fluorescent Visible Light Lamp Over Commercial TiO₂ (Hombicat UV100 and Degussa P25). Applied Catalysis. A, General, 282(1-2), 321-332. Lien externe
Klvana, D., Kirchnerova, J., Chaouki, J., & Guy, C. (novembre 2004). Autocyclic reactor for catalytic methane combustion: limits of ots autothermic operation [Communication écrite]. International gas research conference, Vancouver, Canada. Non disponible
Klvana, D., Kirchnerova, J., Chaouki, J., & Courbariaux, Y. Auto cyclic reactor for catalytic combustion of lean mixtures of solvent vapors or hydrocarbons : limits of its autothermic operation [Communication écrite]. Combustion Canada 2003 Conference. Non disponible
Kirchnerova, J., & Klvana, D. (2003). Performance of La₁₋ₓSrₓAl₁₋y₋y' FeyMgy'O₃-Delta Perovskites in Methane Combustion: Effect of Aluminum and Magnesium Content. Catalysis Today, 83(1-4), 233-238. Lien externe
Klvana, D., Song, K. S., & Kirchnerova, J. (2002). Catalytic performance of La0.66Sr0.34Co0.2Fe0.8O3 perovskite in propane combustion: effect of preparation and SSA. Korean Journal of Chemical Engineering, 19(6), 932-939. Lien externe
Klvana, D., Kirchnerova, J., Chaouki, J., & Guy, C. (2000). Apparatus and process for catalytic gas involving reactions which are exothermic. (Demande de brevet no CA2273761). Lien externe
Kirchnerova, J., & Klvana, D. (2000). Design Criteria for High-Temperature Combustion Catalysts. Catalysis Letters, 67(2-4), 175-181. Lien externe
Kirchnerova, J., Klvana, D., & Chaouki, J. (2000). Preparation and Characterization of Alumina and Chromia Cryogel-Based Catalysts. Applied Catalysis. A, General, 196(2), 191-198. Lien externe
Klvana, D., Kirchnerová, J., & Tofan, C. (1999). Catalytic Decomposition of Nitric Oxide by Perovskites. Korean Journal of Chemical Engineering, 16(4), 470-477. Lien externe
Klvana, D., Kirchnerová, J., Chaouki, J., Delval, J., & Yaïci, W. (1999). Fiber-Supported Perovskites for Catalytic Combustion of Natural Gas. Catalysis Today, 47(1-4), 115-121. Lien externe
Kirchnerova, J., & Klvana, D. (1999). Process of making fine ceramic powders from aqueous suspensions. (Brevet no US5981445). Lien externe
Kirchnerová, J., & Klvana, D. (1999). Synthesis and Characterization of Perovskite Catalysts. Solid State Ionics, 123(1-4), 307-317. Lien externe
Kirchnerova, J., Boivin, I., & Klvana, D. (1998). Development of catalytic materials for high temperature combustion. (Rapport technique n° P2243). Non disponible
Klvana, D., Delval, J., Kirchnerova, J., & Chaouki, J. (1997). Deactivation of fiber-supported (perovskite) La₀.₆₅Sr₀.₃₅Ni₀.₂₉Co₀.₆₉Fe₀.₀₂O₃ Catalyst by (methyl) mercaptan during the combustion of methane or natural gas. Applied Catalysis. A, General, 165(1-2), 171-182. Lien externe
Klvana, D. (1997). Methane and its derivatives. Canadian Journal of Chemical Engineering, 75(5), 990-990. Lien externe
Klvana, D., Kirchnerova, J., Gauthier, P., Delval, J., & Chaouki, J. (1997). Preparation of supported La₀.₆₆Sr₀.₃₄Ni₀.₃Co₀.₇O₃ perovskite catalysts and their performance in methane and odorized natural gas combustion. Canadian Journal of Chemical Engineering, 75(3), 509-519. Lien externe
Klvana, D., Chaouki, J., Guy, C., & Kirchnerova, J. (juillet 1995). Catalytic combustion : New catalysts for new technologies [Communication écrite]. 3rd Clean Air Conference, Lisbon, Portugal. Publié dans Combustion science and technology, 121(1-6). Lien externe
Klvana, D., & Kirchnerova, J. (1995). Development of low cost catalytic radiant pads. (Rapport technique n° P1799). Non disponible
Klvana, D., & Chaouki, J. (1995). Développement de catalyseurs de combustion. (Rapport technique). Non disponible
Kirchnerova, J., Klvana, D., Hinatsu, J., Xie, S., Forst, V., Oliveira, J., Anantaraman, A., & Goledzinovska, M. (juillet 1995). New Ni-Co based perovskites as electrocatalysts in alkaline fuel cells [Communication écrite]. New Materials for Fuel Cell Systems, Montréal, Québec. Non disponible
Klvana, D., Vaillancourt, J., Kirchnerova, J., & Chaouki, J. (1994). Combustion of methane over La₀.₆₆Sr₀.₃₄Ni₀.₃Co₀.₇O₃ and La₀.₄Sr₀.₆Fe₀.₄Co₀.₆O₃ prepared by freeze-drying. Applied Catalysis. A, General, 109(2), 181-193. Lien externe
Klvana, D., Chaouki, J., Guy, C., & Kirchnerova, J. (octobre 1994). Development of catalytic combustion technologies [Communication écrite]. 44th Canadian chemical engineering conference. Non disponible
Kirchnerova, J., & Klvana, D. (1994). Preparation and characterization of high surface perovskite electrocatalysts. International Journal of Hydrogen Energy, 19(6), 501-506. Lien externe
Klvana, D., Kirchneriva, J., Hinatsu, J., Xia, S., Oliveira, J., & Anantaraman, A. (1994). Synthesis of perovskites of the type La0,66Sr0,34Ni0,3Co0,7O3 and their performance as oxygen reduction electrocatalysts in alkaline fuel cells. (Rapport technique n° P1770). Non disponible
Lortie, R., Klvana, D., & Paris, J. (1983). Isothermes d'adsorption de l'ion chromique sur l'hydroxyde de titane fraîchement précipité. Canadian Journal of Chemical Engineering, 61(4), 548-553. Lien externe
Perrier, M., Bertrand, F., Dubois, C., Klvana, D., Legros, R., & Farand, P. (juin 2005). A case study in curriculum integration of core courses in chemical engineering [Communication écrite]. 2005 ELD/ASEE Annual Conference, Portland, Oregon, USA. Non disponible
Perrier, M., Bertrand, F., Dubois, C., Klvana, D., Legros, R., & Farand, P. (juin 2005). Integrating process control unit operations in a single core course of the chemical engineering curriculum [Communication écrite]. 2nd Canadian Design Engineering Network Conference, Kananaskis, AB, Canada. Non disponible
Pajonk, G. M., Repellin-Lacroix, M., Abouarnadasse, S., Chaouki, J., & Klvana, D. (1990). From sol-gel to aerogels and cryogels. Journal of Non-Crystalline Solids, 121(1), 66-67. Lien externe
Song, K. S., Klvana, D., & Kirchnerova, J. (2001). Kinetics of Propane Combustion Over La0.66sr0.34ni0.3co0.7o3 Perovskite. Applied Catalysis. A, General, 213(1), 113-121. Lien externe
Sapundzhiev, C., Chaouki, J., Guy, C., & Klvana, D. (janvier 1993). Catalytic incineration of VOCs in a cyclic reactor [Communication écrite]. Characterization and control of odours and VOC in the process industries, Louvain-la-Neuve, Beligum. Lien externe
Tofan, C., Klvana, D., & Kirchnerova, J. (2002). Decomposition of Nitric Oxide Over Perovskite Oxide Catalysts: Effect of CO₂, H₂O and CH₄. Applied Catalysis. B, Environmental, 36(4), 311-323. Lien externe
Tofan, C., Klvana, D., & Kirchnerova, J. (2002). Direct Decomposition of Nitric Oxide Over Perovskite-Type Catalysts Part I. Activity When No Oxygen Is Added to the Feed. Applied Catalysis. A, General, 223(1-2), 275-286. Lien externe
Tofan, C., Klvana, D., & Kirchnerova, J. (2002). Direct Decomposition of Nitric Oxide Over Perovskite-Type Catalysts. Part II : Effect of Oxygen in the Feed on the Activity of Three Selected Compositions. Applied Catalysis. A, General, 226(1-2), 225-240. Lien externe
Venkatesh, R. D., Chaouki, J., & Klvana, D. (1996). Fluidization of cryogels in a conical column. Powder Technology, 89(3), 179-186. Lien externe
Zanoletti, M., Klvana, D., Kirchnerova, J., & Perrier, M. (2010). Modeling of autocyclic reactor for the removal of unburned methane from emissions of natural gas engines. Industrial and Engineering Chemistry Research, 49(3), 1063-1070. Lien externe
Zanoletti, M., Klvana, D., Kirchnerova, J., Perrier, M., & Guy, C. (2009). Auto-cyclic reactor: design and evaluation for the removal of unburned methane from emissions of natural gas engines. Chemical Engineering Science, 64(5), 945-954. Lien externe
