Alexander Konnov

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  1. Laminar burning velocities of n-decane and binary kerosene surrogate mixture

    V. A. Alekseev, J. V. Soloviova-Sokolova, S. S. Matveev, I. V. Chechet, S. G. Matveev & A. A. Konnov, 2017 Jan 1, In: Fuel. 187, p. 429-434 6 p.

    Research output: Contribution to journalArticle

  2. Laminar burning velocities of n-heptane, iso-octane, ethanol and their binary and tertiary mixtures

    J. P. J. van Lipzig, E. J. K. Nilsson, L. P. H. de Goey & Alexander Konnov, 2011, In: Fuel. 90, 8, p. 2773-2781

    Research output: Contribution to journalArticle

  3. Laminar burning velocities of primary reference fuels and simple alcohols

    L. Sileghem, Vladimir Alekseev, J. Vancoillie, Elna Heimdal Nilsson, S. Verhelst & Alexander Konnov, 2014, In: Fuel. 115, p. 32-40

    Research output: Contribution to journalArticle

  4. Laminar burning velocities of rich near-limiting flames of hydrogen

    V. V. Zamashchikov, Vladimir Alekseev & Alexander Konnov, 2014, In: International Journal of Hydrogen Energy. 39, 4, p. 1874-1881

    Research output: Contribution to journalArticle

  5. Laminar burning velocities of surrogate components blended with ethanol

    Sergey S. Matveev, Dmitriy V. Idrisov, Sergey G. Matveev & Alexander A. Konnov, 2019, In: Combustion and Flame. 209, p. 389-393 5 p.

    Research output: Contribution to journalArticle

  6. Laminar burning velocity of acetic acid + air flames

    Moah Christensen & Alexander A. Konnov, 2016 Aug 1, In: Combustion and Flame. 170, p. 12-29 18 p.

    Research output: Contribution to journalArticle

  7. Laminar burning velocity of diacetyl + air flames. Further assessment of combustion chemistry of ketene

    Moah Christensen & Alexander A. Konnov, 2017 Apr 1, In: Combustion and Flame. 178, p. 97-110 14 p.

    Research output: Contribution to journalArticle

  8. Laminar burning velocity of gasoline and the gasoline surrogate components iso-octane, n-heptane and toluene

    L. Sileghem, Vladimir Alekseev, J. Vancoillie, K. M. Van Geem, Elna J. K. Nilsson, S. Verhelst & Alexander Konnov, 2013, In: Fuel. 112, p. 355-365

    Research output: Contribution to journalArticle

  9. Laminar burning velocity of gasolines with addition of ethanol

    P. Dirrenberger, P. A. Glaude, R. Bounaceur, H. Le Gall, A. Pires da Cruz, Alexander Konnov & F. Battin-Leclerc, 2014, In: Fuel. 115, p. 162-169

    Research output: Contribution to journalArticle

  10. Laminar burning velocity of lean H-2-CO mixtures at elevated pressure using the heat flux method

    M. Goswami, R. J. M. Bastiaans, Alexander Konnov & L. P. H. de Goey, 2014, In: International Journal of Hydrogen Energy. 39, 3, p. 1485-1498

    Research output: Contribution to journalArticle

  11. Laminar burning velocity of nitromethane plus air flames: A comparison of flat and spherical flames

    Jenny Nauclér, Elna Heimdal Nilsson & Alexander Konnov, 2015, In: Combustion and Flame. 162, 10, p. 3803-3809

    Research output: Contribution to journalArticle

  12. Laminar premixed flat non-stretched lean flames of hydrogen in air

    Vladimir Alekseev, Moah Christensen, Edouard Berrocal, Elna Heimdal Nilsson & Alexander Konnov, 2015, In: Combustion and Flame. 162, 10, p. 4063-4074

    Research output: Contribution to journalArticle

  13. Measurements of Laminar Flame Velocity for Components of Natural Gas

    Patricia Dirrenberger, Herve Le Gall, Roda Bounaceur, Olivier Herbinet, Pierre-Alexandre Glaude, Alexander Konnov & Frederique Battin-Leclerc, 2011, In: Energy & Fuels. 25, 9, p. 3875-3884

    Research output: Contribution to journalArticle

  14. Measurements of the laminar burning velocities and NO concentrations in neat and blended ethanol and n-heptane flames

    Marco Lubrano Lavadera, Christian Brackmann, Gianluca Capriolo, Torsten Methling & Alexander A. Konnov, 2021 Mar 15, In: Fuel. 288, 119585.

    Research output: Contribution to journalArticle

  15. Mechanism and rate constants of the CH2 + CH2CO reactions in triplet and singlet states: A theoretical study

    Anna S. Savchenkova, Alexander S. Semenikhin, Ivan V. Chechet, Sergey G. Matveev, Alexander A. Konnov & Alexander M. Mebel, 2019 Jan 15, In: Journal of Computational Chemistry. 40, 2, p. 387-399

    Research output: Contribution to journalArticle

  16. Mechanism and Rate Constants of the CH3+ CH2CO Reaction: A Theoretical Study

    A. S. Semenikhin, E. G. Shubina, A. S. Savchenkova, I. V. Chechet, S. G. Matveev, A. A. Konnov & A. M. Mebel, 2018 Apr, In: International Journal of Chemical Kinetics. 50, 4, p. 273-284

    Research output: Contribution to journalArticle

  17. Methyl-3-hexenoate combustion chemistry: Experimental study and numerical kinetic simulation

    Ilya E. Gerasimov, Denis A. Knyazkov, Tatyana A. Bolshova, Andrey G. Shmakov, Oleg P. Korobeinichev, Maxime Carbonnier, Benoîte Lefort, Alan Kéromnès, Luis Le Moyne, Marco Lubrano Lavadera, Alexander A. Konnov, Chong Wen Zhou, Zeynep Serinyel, Guillaume Dayma & Philippe Dagaut, 2020, In: Combustion and Flame. 222, p. 170-180 11 p.

    Research output: Contribution to journalArticle

  18. Modeling Ozone Decomposition Flames

    Alexander Konnov, 2013, In: Energy & Fuels. 27, 1, p. 501-506

    Research output: Contribution to journalArticle

  19. NCN concentration and interfering absorption by CH2O, NH and OH in low pressure methane/air flames with and without N2O

    R. J. H. Klein-Douwel, Alexander Konnov, N. J. Dam & J. J. ter Meulen, 2011, In: Combustion and Flame. 158, 11, p. 2090-2104

    Research output: Contribution to journalArticle

  20. Numerical Simulations of Flat Laminar Premixed Methane-Air Flames at Elevated Pressure

    M. Goswami, K. Coumans, R. J. M. Bastiaans, Alexander Konnov & L. P. H. de Goey, 2014, In: Combustion Science and Technology. 186, 10-11, p. 1447-1459

    Research output: Contribution to journalArticle

  21. OH*-chemiluminescence during autoignition of hydrogen with air in a pressurised turbulent flow reactor

    Alessandro Schönborn, Parisa Sayad, Alexander Konnov & Jens Klingmann, 2014, In: International Journal of Hydrogen Energy. 39, 23, p. 12166-12181

    Research output: Contribution to journalArticle

  22. Onset of cellular flame instability in adiabatic CH4/O-2/CO2 and CH4/air laminar premixed flames stabilized on a flat-flame burner

    Jiangfei Yu, Rixin Yu, Xiaoqiang Fan, Moah Christensen, Alexander Konnov & Xue-Song Bai, 2013, In: Combustion and Flame. 160, 7, p. 1276-1286

    Research output: Contribution to journalArticle

  23. On the role of excited species in hydrogen combustion

    Alexander Konnov, 2015, In: Combustion and Flame. 162, 10, p. 3755-3772

    Research output: Contribution to journalArticle

  24. Over-rich combustion of CH4, C2H6, and C3H8 +air premixed flames investigated by the heat flux method and kinetic modeling

    Xinlu Han, Zhihua Wang, Yong He, Shixing Wang, Yanqun Zhu & Alexander A. Konnov, 2019, In: Combustion and Flame. 210, p. 339-349 11 p.

    Research output: Contribution to journalArticle

  25. Oxidation kinetics of methyl crotonate: A comprehensive modeling and experimental study

    Praise Noah Johnson, Marco Lubrano Lavadera, Alexander A. Konnov & Krithika Narayanaswamy, 2021, In: Combustion and Flame. 229, 111409.

    Research output: Contribution to journalArticle

  26. Oxy-fuel Combustion of Ethanol in Premixed Flames

    Jenny Nauclér, Moah Christensen, Elna Heimdal Nilsson & Alexander Konnov, 2012, In: Energy & Fuels. 26, 7, p. 4269-4276

    Research output: Contribution to journalArticle

  27. Parametrization of the temperature dependence of laminar burning velocity for methane and ethane flames

    Xinlu Han, Zhihua Wang, Shixing Wang, Ronald Whiddon, Yong He, Yu Lv & Alexander A. Konnov, 2019, In: Fuel. 239, p. 1028-1037 10 p.

    Research output: Contribution to journalArticle

  28. Performance of methanol kinetic mechanisms at oxy-fuel conditions

    Jenny Nauclér, Louis Sileghem, Elna Heimdal Nilsson, Sebastian Verhelst & Alexander Konnov, 2015, In: Combustion and Flame. 162, 5, p. 1719-1728

    Research output: Contribution to journalArticle

  29. Photofragmentation laser-induced fluorescence imaging in premixed flames

    Olof Johansson, Joakim Bood, Bo Li, Andreas Ehn, Zhongshan Li, Zhiwei Sun, Malin Jonsson, Alexander Konnov & Marcus Aldén, 2011, In: Combustion and Flame. 158, 10, p. 1908-1919

    Research output: Contribution to journalArticle

  30. Revisiting diacetyl and acetic acid flames: The role of the ketene + OH reaction

    Anna S. Savchenkova, Alexander S. Semenikhin, Ivan V. Chechet, Sergey G. Matveev, Alexander M. Mebel & Alexander A. Konnov, 2020, In: Combustion and Flame. 218, p. 28-41 14 p.

    Research output: Contribution to journalArticle

  31. Role of HOCO Chemistry in Syngas Combustion

    E. J K Nilsson & A. A. Konnov, 2016 Mar 17, In: Energy & Fuels. 30, 3, p. 2443-2457 15 p.

    Research output: Contribution to journalArticle

  32. Small ester combustion chemistry: Computational kinetics and experimental study of methyl acetate and ethyl acetate

    Ahfaz Ahmed, William J. Pitz, Carlo Cavallotti, Marco Mehl, Nitin Lokachari, Elna J.K. Nilsson, Jui Yang Wang, Alexander A. Konnov, Scott W. Wagnon, Bingjie Chen, Zhandong Wang, Seonah Kim, Henry J. Curran, Stephen J. Klippenstein, William L. Roberts & S. Mani Sarathy, 2019, In: Proceedings of the Combustion Institute. 37, 1, p. 419-428

    Research output: Contribution to journalArticle

  33. Temperature dependence of the laminar burning velocity for n-heptane and iso-octane/air flames

    Xinlu Han, Zhihua Wang, Yong He, Shixing Wang, Yingzu Liu & Alexander A. Konnov, 2020, In: Fuel. 276, 118007.

    Research output: Contribution to journalArticle

  34. Temperature Dependence of the Laminar Burning Velocity of Methanol Flames

    J. Vancoillie, Moah Christensen, Elna Heimdal Nilsson, S. Verhelst & Alexander Konnov, 2012, In: Energy & Fuels. 26, 3, p. 1557-1564

    Research output: Contribution to journalArticle

  35. The comparative and combined effects of hydrogen addition on the laminar burning velocities of methane and its blends with ethane and propane

    Elna J K Nilsson, Astrid van Sprang, Jenny Larfeldt & Alexander A. Konnov, 2017 Feb 1, In: Fuel. 189, p. 369-376 8 p.

    Research output: Contribution to journalArticle

  36. The Comparative and Combined Effects of Nitric Oxide and Higher Alkanes in Sensitizing Methane Oxidation

    Y. L. Chan, J. H. Bromly, Alexander Konnov & D. K. Zhang, 2012, In: Combustion Science and Technology. 184, 1, p. 114-132

    Research output: Contribution to journalArticle

  37. The development and validation of a chemical kinetic model for anisole, a compound to represent biomass pyrolysis fuels

    Scott W. Wagnon, Sébastien Thion, Elna J.K. Nilsson, Marco Mehl, Zeynep Serinyel, Kuiwen Zhang, Phillippe Dagaut, Alexander A. Konnov, Guillaume Dayma & William J. Pitz, 2017 Jan 1.

    Research output: Contribution to conferencePaper, not in proceeding

  38. The differentiated effect of NO and NO2 in promoting methane oxidation

    Y. L. Chan, F. J. Barnes, J. H. Bromly, Alexander Konnov & D. K. Zhang, 2011, In: Proceedings of the Combustion Institute. 33, p. 441-447

    Research output: Contribution to journalArticle

  39. The effect of elevated pressures on the laminar burning velocity of methane plus air mixtures

    Mayuri Goswami, Sander C. R. Derks, Kris Coumans, Willemyn J. Slikker, Marcelo H. de Andrade Oliveira, Rob J. M. Bastiaans, Carlo C. M. Luijten, L. Philipus H. de Goey & Alexander Konnov, 2013, In: Combustion and Flame. 160, 9, p. 1627-1635

    Research output: Contribution to journalArticle

  40. The effect of temperature on the adiabatic burning velocities of diluted hydrogen flames: A kinetic study using an updated mechanism

    Vladimir Alekseev, Moah Christensen & Alexander Konnov, 2015, In: Combustion and Flame. 162, 5, p. 1884-1898

    Research output: Contribution to journalArticle

  41. The effect of temperature on the adiabatic laminar burning velocities of CH4-air and H-2-air flames

    Alexander Konnov, 2010, In: Fuel. 89, 9, p. 2211-2216

    Research output: Contribution to journalArticle

  42. The effects of dilution with nitrogen and steam on the laminar burning velocity of methanol at room and elevated temperatures

    J. Vancoillie, Moah Christensen, Elna Heimdal Nilsson, S. Verhelst & Alexander Konnov, 2013, In: Fuel. 105, p. 732-738

    Research output: Contribution to journalArticle

  43. The temperature dependence of the laminar burning velocities of methyl formate plus air flames

    Moah Christensen, Elna Heimdal Nilsson & Alexander Konnov, 2015, In: Fuel. 157, p. 162-170

    Research output: Contribution to journalArticle

  44. The temperature dependence of the laminar burning velocity and superadiabatic flame temperature phenomenon for NH3/air flames

    Xinlu Han, Zhihua Wang, Yong He, Yingzu Liu, Yanqun Zhu & Alexander A. Konnov, 2020, In: Combustion and Flame. 217, p. 314-320 7 p.

    Research output: Contribution to journalArticle