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Bobbitt, B., Savard, B., & Blanquart, G. (novembre 2013). High Karlovitz n-alkane premixed flame DNS: effects of the flame on turbulence characteristics [Communication écrite]. 66th Annual Meeting of the APS Division of Fluid Dynamics, Pittsburgh, Pennsylvania, USA. Non disponible
Boesch, G., Vo, H. D., Savard, B., Wanko-Tchatchouang, C., & Mureithi, N. W. (2010). Flight Control Using Wing-Tip Plasma Actuation. Journal of Aircraft, 47(6), 1836-1846. Lien externe
Chaudhuri, S., & Savard, B. (2023). Turbulent flame speed based on the mass flow rate: Theory and DNS. Combustion and Flame, 252, 7 pages. Lien externe
Dalakoti, D. K., Krisman, A., Savard, B., Wehrfritz, A., Wang, H., Day, M. S., Bell, J. B., & Hawkes, E. R. (2019). Structure and propagation of two-dimensional, partially premixed, laminar flames in diesel engine conditions. Proceedings of the Combustion Institute, 37(2), 1961-1969. Lien externe
Dalakoti, D. K., Savard, B., Wehrfritz, A., Day, M. S., Bell, J. B., & Hawkes, E. R. (décembre 2018). Rich Premixed Flame in a Spatially Developing n-Dodecane Jet in Diesel Engine Conditions [Communication écrite]. 21st Australasian Fluid Mechanics Conference, Adelaide, Australia. Lien externe
Dalakoti, D., Wehrfritz, A., Savard, B., Wang, H., & Hawkes, E. R. (décembre 2017). Laminar lifted flames in diesel engine conditions [Communication écrite]. 11th Asia-Pacific Conference on Combustion (ASPACC 2017), Sydney, Australia. Lien externe
Fan, L., Savard, B., Fond, B., Durocher, A., Bergthorson, J., Carlyle, S., & Vena, P. (juin 2023). Mechanisms Leading to Stabilization and Incomplete Combustion in Lean CH4/H2 Swirling Wall-Impinging Flames [Communication écrite]. ASME Turbo Expo 2023: Turbomachinery Technical Conference and Exposition (GT 2023), Boston, MA, USA (12 pages). Lien externe
Fan, L., Savard, B., Carlyle, S., Nozari, M., Naaman, R., Fond, B., & Vena, P. (2023). Simultaneous stereo-PIV and OHCH2O PLIF measurements in turbulent ultra lean CH4/H2 swirling wall-impinging flames. Proceedings of the Combustion Institute, 39(2), 2179-2188. Lien externe
Fan, L., Vena, P., Savard, B., & Fond, B. (2022). Experimental and numerical investigation on the accuracy of phosphor particle streak velocimetry. Experiments in Fluids, 63(10), 20 pages. Lien externe
Farjam, S., & Savard, B. (2022). Ignition and flame stabilization of n -dodecane turbulent premixed flames under Spray A thermochemical conditions. Combustion and Flame, 242, 112133 (19 pages). Lien externe
Fan, L., Vena, P., Savard, B., Xuan, G., & Fond, B. (2021). High-resolution velocimetry technique based on the decaying streaks of phosphor particles. Optics Letters, 46(3), 641-644. Lien externe
Fan, L., Vena, P., Savard, B., Xuan, G., & Fond, B. (août 2021). A novel streak velocimetry technique based on 2D fits of decaying phospor particle images [Communication écrite]. 14th International Symposium on Particle Image Velocimetry (ISPIV 2021) (2 pages). Lien externe
Galeazzo, F. C. C., Savard, B., Wang, H., Hawkes, E. R., Chen, J. H., & Krieger Filho, G. C. (2019). Performance assessment of flamelet models in flame-resolved LES of a high Karlovitz methane/air stratified premixed jet flame. Proceedings of the Combustion Institute, 37(2), 2545-2553. Lien externe
Li, Z., Hawkes, E. R., Wehrfritz, A., & Savard, B. (2023). A DNS evaluation of three MMC-like mixing models for transported PDF modelling of turbulent nonpremixed flames. Combustion and Flame, 258, 19 pages. Lien externe
Li, Z., Wehrfritz, A., Savard, B., & Hawkes, E. R. (décembre 2018). A DNS evaluation of a novel multiple mapping conditioning mixing model with a mixture-fraction like reference variable [Communication écrite]. 21st Australasian Fluid Mechanics Conference, Adelaide, Australia. Lien externe
Li, Z., Wehrfritz, A., Savard, B., & Hawkes, E. R. (juillet 2018). A DNS evaluation of two MMC mixing models for transported PDF modelling of turbulent non-premixed flames [Communication écrite]. 37th International Symposium on Combustion, Dublin, Ireland. Non disponible
Lam, K., Wehrfritz, A., Hawkes, E. R., & Savard, B. (décembre 2018). The role of diffusion on the products of cool laminarn-heptane/air premixed flames [Communication écrite]. 21st Australasian Fluid Mechanics Conference, Adelaide, Australia. Lien externe
Lapointe, S., Savard, B., & Blanquart, G. (2015). Differential diffusion effects, distributed burning, and local extinctions in high Karlovitz premixed flames. Combustion and Flame, 162(9), 3341-3355. Lien externe
Lapointe, S., Savard, B., & Blanquart, G. (octobre 2015). Tabulated chemistry approach based on reduced-dimension manifolds [Communication écrite]. Fall meeting of the Western States Section of the Combustion Institute, Provo, UT, USA. Non disponible
Niedzielska, U., Kapusta, L. J., Savard, B., & Teodorczyk, A. (2017). Influence of water droplets on propagating detonations. Journal of Loss Prevention in the Process Industries, 50, 229-236. Lien externe
Ranadive, H. D., Wang, H., Savard, B., & Hawkes, E. R. (2019). Assessment of artificial fluid properties for high-order accurate large-eddy simulations of shock-free compressible turbulent flows with strong temperature gradients. Computers & Fluids, 190, 274-293. Lien externe
Ranadive, H., Savard, B., & Hawkes, E. (juillet 2019). High-order accurate hybrid LES/PDF simulation of a supersonic coaxial lifted flame [Communication écrite]. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems (27th ICDERS), Beijing, China. Lien externe
Ranadive, H. D., Savard, B., & Hawkes, E. R. (décembre 2018). LES of a temporally evolving non-premixed CO/H2 jet flame involving extinction andre-ignition [Communication écrite]. 21st Australasian Fluid Mechanics Conference, Adelaide, Australia. Lien externe
Savard, B., Wehrfritz, A., Lam, K., Margerte, Q., Ferney, L., & Farjam, S. (2020). Decreased mixture reactivity and hot flame speed in the products of diffusion-affected autoignitive cool flames in the NTC regime. Combustion and Flame, 222, 434-445. Lien externe
Savard, B., Wang, H., Wehrfritz, A., & Hawkes, E. R. (2019). Direct numerical simulations of rich premixed turbulent n-dodecane/air flames at diesel engine conditions. Proceedings of the Combustion Institute, 37(4), 4655-4662. Lien externe
Savard, B., Lam, K., Wehrfritz, A., Wang, H., & Hawkes, E. R. (avril 2019). The importance of diffusion and turbulence on cool flame structure [Communication écrite]. Thousand Islands Fluid Dynamics Meeting, Gananoque, ON, Canada. Non disponible
Savard, B., Hawkes, E. R., Aditya, K., Wang, H., & Chen, J. H. (mai 2019). Regimes of premixed turbulent auto-ignition and deflagration under gas-turbine reheat combustion conditions [Communication écrite]. 17th International Conference on Numerical Combustion, Aachen, Germany. Lien externe
Savard, B., Hawkes, E. R., Aditya, K., Wang, H., & Chen, J. H. (2019). Regimes of premixed turbulent spontaneous ignition and deflagration under gas-turbine reheat combustion conditions. Combustion and Flame, 208, 402-419. Lien externe
Savard, B., Wang, H., Teodorczyk, A., & Hawkes, E. R. (2018). Low-temperature chemistry in n-heptane/air premixed turbulent flames. Combustion and Flame, 196, 71-84. Lien externe
Savard, B., Galeazzo, F. C. C., Wang, H., Hawkes, E. R., Krieger Filho, G. C., & Chen, J. H. (mai 2018). A priori and a posteriori assessment of flamelet models in a high Ka stratified premixed jet flame [Communication écrite]. Combustion-DNS Strategy & Data Analysis Workshop, Sorrento, Italy. Non disponible
Savard, B., Dalakoti, D. K., Wehrfritz, A., & Hawkes, E. R. (décembre 2018). Structure of (Very) Rich n-dodecane Premixed Turbulent Flames at Diesel Engine Conditions : a Criterion to Distinguish Deflagrations from Autoignition Fronts [Communication écrite]. 21st Australasian Fluid Mechanics Conference, Adelaide, Australia. Lien externe
Savard, B., Wang, H., & Hawkes, E. R. (décembre 2017). Direct numerical simulation of the transition from a laminar cool n-heptane/air ignition front to a distributed premixed turbulent cool flame [Communication écrite]. 11th Asia-Pacific Conference on Combustion, Sydney, Australia. Lien externe
Savard, B., & Blanquart, G. (2017). Effects of dissipation rate and diffusion rate of the progress variable on local fuel burning rate in premixed turbulent flames. Combustion and Flame, 180, 77-87. Lien externe
Savard, B., & Teodorczyk, A. (avril 2017). Low-temperature chemistry in n-heptane/air premixed turbulent flames in the thin reaction zones regime [Communication écrite]. 8th European Combustion Meeting (ECM 2017), Dubrovnik, Croatia. Non disponible
Savard, B., Lapointe, S., & Teodorczyk, A. (2017). Numerical investigation of the effect of pressure on heat release rate in iso-octane premixed turbulent flames under conditions relevant to SI engines. Proceedings of the Combustion Institute, 36(3), 3543-3549. Lien externe
Savard, B., & Blanquart, G. (2015). Broken reaction zone and differential diffusion effects in high Karlovitz n-C7H16 premixed turbulent flames. Combustion and Flame, 162(5), 2020-2033. Lien externe
Savard, B., Xuan, Y., Bobbitt, B., & Blanquart, G. (2015). A computationally-efficient, semi-implicit, iterative method for the time-integration of reacting flows with stiff chemistry. Journal of Computational Physics, 295, 740-769. Lien externe
Savard, B., Lapointe, S., Blanquart, G., & Teodorczyk, A. (septembre 2015). Effect of pressure on the reaction zone in turbulent premixed flames [Communication écrite]. 22nd edition of the International Symposium on Combustion Processes (ISoCP 2015), Polish Jurassic Highland, Poland. Non disponible
Savard, B., Bobbitt, B., & Blanquart, G. (2015). Structure of a high Karlovitz n-C7H16 premixed turbulent flame. Proceedings of the Combustion Institute, 35(2), 1377-1384. Lien externe
Savard, B., & Blanquart, G. (avril 2015). Trivariate chemistry model for the simulation of high Karlovitz premixed turbulent flames [Communication écrite]. 15th International Conference on Numerical Combustion, Avignon, France. Non disponible
Savard, B., & Blanquart, G. (2014). An a priori model for the effective species Lewis numbers in premixed turbulent flames. Combustion and Flame, 161(6), 1547-1557. Lien externe
Savard, B., & Blanquart, G. (novembre 2014). Bivariate chemistry model for the simulation of high Karlovitz premixed turbulent flames in the absence of differential diffusion [Communication écrite]. 67th Annual Meeting of the APS Division of Fluid Dynamics, San Francisco, California. Non disponible
Savard, B., & Blanquart, G. (mars 2014). Broken reaction zone and differential diffusion effects in a high Karlovitz n-C7H16 premixed turbulent flame [Communication écrite]. Western States Section of the Combustion Institute Spring Technical Meeting 2014, Pasadena, United States. Non disponible
Savard, B., Bobbitt, B., & Blanquart, G. (novembre 2013). High Karlovitz n-alkane premixed flame DNS: effects of turbulence on the flame structure [Communication écrite]. 66th Annual Meeting of the APS Division of Fluid Dynamics, Pittsburgh, Pennsylvania. Non disponible
Savard, B., & Blanquart, G. (mai 2013). A priori model for the effective Lewis numbers in premixed turbulent flames [Communication écrite]. 8th US national combustion meeting 2013, Park City, Utah, USA. Non disponible
Savard, B., & Blanquart, G. (avril 2013). A priori model for the effective Lewis numbers in premixed turbulent flames [Communication écrite]. 7th Southern California Symposium on Flow Physics, Pasadena, CA, USA. Non disponible
Wang, H., Hawkes, E. R., Savard, B., & Chen, J. H. (2018). Direct numerical simulation of a high Ka CH4/air stratified premixed jet flame. Combustion and Flame, 193, 229-245. Lien externe
Wehrfritz, A., Savard, B., & Hawkes, E. R. (décembre 2017). Comparison of chemical mechanisms for n-dodecane at engine conditions using an unsteady flamelet model [Communication écrite]. 11th Asia-Pacific Conference on Combustion, Sydney, Australia. Lien externe
Wang, H., Savard, B., Hawkes, E. R., & Chen, J. H. (décembre 2017). The structure and modeling analysis of a high Ka CH4/air stratified premixed jet flame using DNS [Communication écrite]. 11th Asia-Pacific Conference on Combustion, Sydney, Australia. Lien externe
Xuan, Y., Savard, B., Bobbitt, B., & Blanquart, G. (mars 2014). An efficient semi-implicit time-integration scheme for stiff chemical source terms [Communication écrite]. Western States Section of the Combustion Institute Spring Technical Meeting 2014, Pasadena, United States. Non disponible
