2020 - Fellow of the Combustion Institute for excellent experimental and kinetic modeling research in flame propagation and combustion chemistry
Alexander A. Konnov mainly focuses on Combustion, Heat flux, Laminar flow, Combustor and Adiabatic process. His Combustion study integrates concerns from other disciplines, such as Hydrogen, Stoichiometry, Reaction rate, Ignition system and Methane. His Methane research is multidisciplinary, incorporating perspectives in Propane and Premixed flame.
His Heat flux research incorporates elements of Work and Analytical chemistry. Alexander A. Konnov has included themes like Organic chemistry and Gasoline in his Analytical chemistry study. Adiabatic process and Atmospheric pressure are two areas of study in which Alexander A. Konnov engages in interdisciplinary research.
Alexander A. Konnov mostly deals with Laminar flow, Combustion, Heat flux, Analytical chemistry and Combustor. Alexander A. Konnov conducted interdisciplinary study in his works that combined Laminar flow and Atmospheric pressure. His research in Combustion intersects with topics in Inorganic chemistry, Hydrogen, Ignition system and Environmental chemistry.
His research integrates issues of Adiabatic process, Reaction rate constant, Dilution and Work in his study of Heat flux. His biological study spans a wide range of topics, including Organic chemistry, Methane and Laser-induced fluorescence. Alexander A. Konnov studies Premixed flame, a branch of Combustor.
His primary areas of investigation include Materials science, Laminar flow, Heat flux, Combustion and Atmospheric pressure. Alexander A. Konnov combines subjects such as Propane, Mole fraction and Methane with his study of Laminar flow. His work deals with themes such as Reaction rate constant, Adiabatic process and Work, which intersect with Heat flux.
His Reaction rate constant research includes themes of Computational chemistry, Reaction rate, Mixing ratio and Nitrous oxide. Combustion is often connected to Pyrolysis in his work. His biological study deals with issues like Formic acid, which deal with fields such as Condensation, Partial pressure and Formaldehyde.
Laminar flow, Materials science, Heat flux, Combustion and Atmospheric pressure are his primary areas of study. His studies in Laminar flow integrate themes in fields like Laminar flame speed and Methane. His Methane study combines topics from a wide range of disciplines, such as Activation energy and Analytical chemistry.
His research brings together the fields of Reaction rate constant and Heat flux. His research in Combustion focuses on subjects like Pyrolysis, which are connected to Alcohol fuel, Volumetric flow rate, Gasoline and Anisole. Alexander A. Konnov has researched Flame structure in several fields, including Adiabatic process, Ignition system, Adiabatic flame temperature and Thermal radiation.
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Implementation of the NCN pathway of prompt-NO formation in the detailed reaction mechanism
AA Alexander Konnov.
Combustion and Flame (2009)
Remaining uncertainties in the kinetic mechanism of hydrogen combustion
AA Alexander Konnov.
Combustion and Flame (2008)
Dioxin levels in wood combustion - a review.
Elena Daniela Lavric;Alexander A. Konnov;Jacques De Ruyck.
Biomass & Bioenergy (2004)
Laminar burning velocities of n-heptane, iso-octane, ethanol and their binary and tertiary mixtures
van Jpj Lipzig;Ejk Nilsson;de Lph Philip Goey;AA Alexander Konnov.
An experimental and modeling study of propene oxidation. Part 2: Ignition delay time and flame speed measurements
Sinead M. Burke;Ultan Burke;Reuben Mc Donagh;Olivier Mathieu.
Combustion and Flame (2015)
Laminar burning velocity of gasolines with addition of ethanol
P. Dirrenberger;P. A. Glaude;R. Bounaceur;H. Le Gall.
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.
The effects of composition on burning velocity and nitric oxide formation in laminar premixed flames of CH4 + H2 + O2 + N2
Fhv Coppens;de J Ruyck;AA Alexander Konnov.
Combustion and Flame (2007)
Measurements of Laminar Flame Velocity for Components of Natural Gas
Patricia Dirrenberger;Herve Le Gall;Roda Bounaceur;Olivier Herbinet.
Energy & Fuels (2011)
A comprehensive review of measurements and data analysis of laminar burning velocities for various fuel+air mixtures
Alexander A. Konnov;Akram Mohammad;Velamati Ratna Kishore;Nam Il Kim.
Progress in Energy and Combustion Science (2018)
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