Toufik Boushaki

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Scientist

Toufik Boushaki (Template:IPA-ar, Template:Lang-ber), (born Template:Date in Algiers, is an Algerian doctor in Energy engineering who made contributions to understanding Oxy-fuel combustion process and Chemiluminescence. Boushaki is also a promoter of scientific research.[1]

Biography

Toufik Boushaki is a native of Kabylie in Algeria where he pursued his basic studies in the Boumerdès Province before joining the University of Blida in 1994 for a technological course.

After completing his technological core curriculum in 1996, he opted for a specialization in Engineering of Mechanics, with the Energy engineering as an option.

Education

Education of Toufik Boushaki
Diploma Institution From To
01 Bachelor of Applied Science in Mechanical engineering[2] University of Blida[3] September 1, 1994 July 31, 1999
02 Master of Advanced Studies in Energy engineering[4] National Polytechnic Institute of Toulouse September 1, 1999 July 31, 2003
03 Doctor of Philosophy in Energy engineering[5] Institut national des sciences appliquées de Rouen[6] September 1, 2003 July 31, 2007

Doctoral genealogy

Doctoral genealogy of Toufik Boushaki
Professors Institutions
01 M. Rousseau[7] * Institut national des sciences appliquées de Rouen[8]
02 Denis Stepowski[9] * Institut national des sciences appliquées de Rouen
03 Jean-Charles Sautet[10] * Institut national des sciences appliquées de Rouen
04 Toufik Boushaki[11] * Institut national des sciences appliquées de Rouen

Career

Career of Toufik Boushaki
Position Institution From To
01 Teaching assistant[12] Institut national des sciences appliquées de Rouen[13] September 1, 2007 August 31, 2008
02 Research Assistant[14] Institut de Mécanique des Fluides de Toulouse[15] September 1, 2008 October 31, 2009
03 Postdoctoral researcher[11] Complexe de Recherche Interprofessionnel en Aérothermochimie[16] November 1, 2009 August 31, 2010
04 Teacher Researcher[17] University of Orléans, ICARE-CNRS[18] September 1, 2010[19] 2017[20]

Research topics

Toufik Boushaki has a scientific activity in different areas of physics:[21]

  • Behaviour of lifted oxy-fuel flames in burners.[22]
  • Experimental investigation of separated jets.[23]
  • Combustion characteristics of flames.[24]
  • Effects of hydrogen and steam on burning velocity.[25]
  • Simulation of Reacting Flow in a Model Burner.[26]
  • Dynamics characteristics of flames.[27]

Awards

Toufik Boushaki received in France the "Public Environment and Climate Research Trophy 2015" from the Environment and Energy Management Agency (ADEME) for his project "Combustion enriched with oxygen and capture of CO2 on industrial boilers: development of a demonstrator"[28]Template:,.[29]

As scientific director of ICARE (Institute of Combustion of Aerothermic Reactivity and Environment - Clean Research Unit associated with the University of Orléans), he was also awarded "Green News Techno" with the same project[30]Template:,.[31]

Organized by the ADEME and the "World Efficiency Fair", and selected by six specialized magazines, this Trophy of public research Énergie-Environnement-Climat awarded Toufik Boushaki's research team for its work of research in the energy, environment and climate sectors, with the aim of raising the awareness of the economic actors of research that may eventually have concrete economic applications.[32]

This award-winning scientific project received the trophy in the Energy Masters category[33]Template:,.[34]

Toufik Boushaki benefited in his research partnership with 3 industrialists: Leroux and Lotz, the Parisian heating company and Polymem[35]Template:,.[36]

Journal Publications

Toufik Boushaki
  1. Effects of hydrogen and steam addition on laminar burning velocity of methane–air premixed flame: experimental and numerical analysis, Toufik Boushaki, Y Dhué, L Selle, B Ferret, T Poinsot, International Journal of Hydrogen Energy 37 (11), 9412–9422, 46, 2012.[37]
  2. The behaviour of lifted oxy-fuel flames in burners with separated jets, Toufik Boushaki, JC Sautet, L Salentey, B Labegorre, International Communications in Heat and Mass Transfer 34 (1), 8-18, 26, 2007.[38]
  3. Effects of inclined jets on turbulent oxy-flame characteristics in a triple jet burner, Toufik Boushaki, MA Mergheni, JC Sautet, B Labegorre, Experimental Thermal and Fluid Science 32 (7), 1363–1370, 24, 2008.[39]
  4. Control of flames by tangential jet actuators in oxy-fuel burners, Toufik Boushaki, JC Sautet, B Labegorre, Combustion and Flame 156 (11), 2043–2055, 18, 2009.[40]
  5. Oxy-combustion properties of interacting separated jets, JC Sautet, Toufik Boushaki, L Salentey, B Labegorre, Combustion science and technology 178 (12), 2075–2096, 17, 2006.[41]
  6. Responses of V-flames placed in an HF transverse acoustic field from a velocity to pressure antinode, F Lespinasse, F Baillot, Toufik Boushaki, Comptes Rendus Mécanique 341 (1-2), 110-120, 16, 2013.[42]
  7. Combustion characteristics of methane–oxygen enhanced air turbulent non-premixed swirling flames, N Merlo, Toufik Boushaki, C Chauveau, S De Persis, L Pillier, B Sarh, I Gökalp, Experimental thermal and fluid science 56, 53-60, 12, 2014.[43]
  8. Characteristics of flow from an oxy-fuel burner with separated jets: influence of jet injection angle, Toufik Boushaki, JC Sautet, Experiments in Fluids 48 (6), 1095–1108, 11, 2010.[44]
  9. Predictive analysis of combined burner parameter effects on oxy-fuel flames, Toufik Boushaki, S Guessasma, JC Sautet, Applied Thermal Engineering 31 (2), 202-212, 10, 2011.[45]
  10. Experimental study of oxygen enrichment effects on turbulent non-premixed swirling flames, N Merlo, Toufik Boushaki, C Chauveau, S de Persis, L Pillier, B Sarh, Energy & Fuels 27 (10), 6191–6197, 9, 2013.[46]
  11. Du contrôle passif au contrôle actif: application à l'oxy-combustion dans des brûleurs à jets séparés, Toufik Boushaki, INSA de Rouen, 7, 2007.[47]
  12. Effects of Burned Gas Recirculation on NO x Emissions from Natural Gas–Hydrogen–Oxygen Flames in a Burner with Separated Jets, S Yon, JC Sautet, Toufik Boushaki, Energy & Fuels 26 (8), 4703–4711, 5, 2012.[48]
  13. Effects of different mean velocity ratios on dynamics characteristics of a coaxial jet, AM Mergheni, Toufik Boushaki, JC Sautet, G Godard, TH Ben, NS Ben, Thermal science 12 (2), 49-58, 5, 2008.[49]
  14. Numerical computations of premixed propane flame in a swirl-stabilized burner: Effects of hydrogen enrichment, swirl number and equivalence ratio on flame characteristics, Z Mansouri, M Aouissi, Toufik Boushaki, International Journal of Hydrogen Energy 41 (22), 9664–9678, 3, 2016.[50]
  15. Experimental and numerical study of the accuracy of flame speed measurements in a Bunsen burner, Y Dhue, Toufik Boushaki, L Selle, B Ferret, T Poinsot, 3, 2009.[51]
  16. Numerical and experimental investigation of turbulent three separated jets, A Hidouri, N Yahya, Toufik Boushaki, A Sadiki, JC Sautet, Applied Thermal Engineering 104, 153-161, 2, 2016.[52]
  17. Numerical study of oxy-flame characteristics in a burner with three separated jets, MA Mergheni, Toufik Boushaki, JC Sautet, SB Nasrallah, Applied Thermal Engineering 111, 1-7, 1, 2017.[53]
  18. Large Eddy Simulation Modeling of Non-Premixed Turbulent Oxy-Fuel Combustion Supplied by Three Separated Jets, N Yahya, A Hidouri, M Chrigui, Toufik Boushaki, A Omri, Combustion Science and Technology 188 (8), 1220–1238, 1, 2016.[54]
  19. An experimental investigation on dynamics of turbulent non-premixed swirling oxygen-enriched flames, N Merlo, Toufik Boushaki, C Chauveau, I Gökalp, Proceedings of the 7th European Combustion Meeting (ECM2015), Budapest, Hungary, 1, 2015.[55]
  20. Volumetric velocity measurements (V3V) on turbulent swirling flows, Toufik Boushaki, A Koched, Z Mansouri, F Lespinasse, Flow Measurement and Instrumentation 54, 46-55, 2017.[56]
  21. Large eddy simulation of two isothermal and reacting turbulent separated oxy-fuel jets, A Hidouri, M Chrigui, Toufik Boushaki, A Sadiki, J Janicka, Fuel 192, 108-120, 2017.[57]
  22. Swirl Motion Effects on Flame Dynamic of Pulverized Olive Cake in a Vertical Furnace, A Elorf, NM Koched, Toufik Boushaki, B Sarh, J Chaoufi, S Bostyn, I Gökalp, Combustion Science and Technology 188 (11-12), 1951–1971, 2016.[58]
  23. Detached Eddy Simulation of High Turbulent Swirling Reacting Flow in a Premixed Model Burner, Z Mansouri, M Aouissi, Toufik Boushaki, Combustion Science and Technology 188 (11-12), 1777–1798, 2016.[59]
  24. Study of pollutant emissions and dynamics of non-premixed turbulent oxygen enriched flames from a swirl burner, Toufik Boushaki, N Merlo, C Chauveau, I Gökalp, Proceedings of the Combustion Institute, 2016.[60]
  25. A Numerical Study of Swirl Effects on the Flow and Flame Dynamics in a Lean Premixed Combustor, Z Mansouri, M Aouissi, Toufik Boushaki, INTERNATIONAL JOURNAL OF HEAT AND TECHNOLOGY 34 (2), 227-235, 2016.[61]
  26. Effets de l'enrichissement en oxygène sur une flamme turbulente non-prémélangée, méthane-air, stabilisée par un swirl, N MERLO, Toufik Boushaki, C CHAUVEAU, S DE PERSIS, L PILLIER, 21ème Congrès Français de Mécanique, 26 au 30 août 2013, Bordeaux, France (FR), 2013.[62]
  27. PIV Measurements on Oxy-Fuel Burners, Toufik Boushaki, JC Sautet, The Particle Image Velocimetry - Characteristics, Limits and Possible, 2012.[63]
  28. Recirculation of burned gas effects on NOx emissions from natural gas-hydrogen-oxygen flames in a burner with separated jets, S Yon, JC Sautet, Toufik Boushaki, F. Zheng, C. Basciano, J. Li.[64]
  29. Etude expérimentale de la dynamique dans les jets coaxiaux turbulents diphasiques, M A Mergheni, Toufik Boushaki, J C Sautet, G Godard, H Ticha.[65]

Bibliography

Notes

Toufik Boushaki
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  26. "Numerical computations of premixed propane flame in a swirl-stabilized burner: Effects of hydrogen enrichment, swirl number and equivalence ratio on flame characteristics (PDF Download Available)". researchgate.net. https://www.researchgate.net/publication/301758239_Numerical_computations_of_premixed_propane_flame_in_a_swirl-stabilized_burner_Effects_of_hydrogen_enrichment_swirl_number_and_equivalence_ratio_on_flame_characteristics. Retrieved 2017-02-13. 
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See also

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