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Combustion and Flame, ISSN 0010-2180, 02/2017, Volume 176, pp. 117 - 124
A simple model of radiating diffusion flames considered by Kavousanakis et al. (2013) [1] is extended to two spatial dimensions... 
Diffusion flames | Instabilities | Localized states | COMBUSTION | ENERGY & FUELS | STABILITY | SNAKING | ENGINEERING, MECHANICAL | JET FLAMES | ENGINEERING, CHEMICAL | THERMODYNAMICS | ENGINEERING, MULTIDISCIPLINARY | DYNAMICS | OSCILLATIONS | DISSIPATIVE SYSTEMS | EXTINCTION | BIFURCATION | Mechanics | Engineering Sciences | Fluids mechanics
Journal Article
Combustion and Flame, ISSN 0010-2180, 11/2016, Volume 173, pp. 57 - 64
The kinetic behavior of the water–gas shift (WGS) sub-system has been studied computationally for hydrocarbon diffusion flames in the counterflow geometry... 
Water–gas shift | Equilibrium domains | Diffusion flame | Apparent equilibrium | JET FLAMES | ENGINEERING, CHEMICAL | Water-gas shift | SCALAR STRUCTURE | THERMODYNAMICS | ENGINEERING, MULTIDISCIPLINARY | ENERGY & FUELS | RATIO SPACE | ENGINEERING, MECHANICAL
Journal Article
Combustion and Flame, ISSN 0010-2180, 05/2016, Volume 167, pp. 198 - 206
The chemiluminescence from electronically excited CH (denoted as CH*) is investigated in nitrogen-diluted laminar coflow methane diffusion flames under microgravity and normal gravity conditions... 
Coflow flame | Heat release rate | Chemiluminescence | Microgravity | ENGINEERING, CHEMICAL | THERMODYNAMICS | ENGINEERING, MULTIDISCIPLINARY | ENERGY & FUELS | CHEMILUMINESCENT EMISSION | JET | ENGINEERING, MECHANICAL
Journal Article
Proceedings of the Combustion Institute, ISSN 1540-7489, 2017, Volume 36, Issue 3, pp. 4209 - 4216
In this study, a comparison of flame base structures of hydrogen/methane–air diffusion flames formed over a tiny-jet is made numerically for both isothermal... 
Hydrogen flame | Micro flame | Flame-burner interaction | Extinction | Jet diffusion flame | ENGINEERING, CHEMICAL | COMBUSTION | THERMODYNAMICS | MECHANISM | ENERGY & FUELS | AIR | ENGINEERING, MECHANICAL | Methane | Hydrogen | Activation energy | Mechanical engineering | Analysis | Electric properties
Journal Article
Combustion and Flame, ISSN 0010-2180, 01/2015, Volume 162, Issue 1, pp. 144 - 158
Journal Article
Fuel (Guildford), ISSN 0016-2361, 2013, Volume 109, pp. 234 - 240
Journal Article
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, ISSN 0360-3199, 11/2014, Volume 39, Issue 34, pp. 19832 - 19845
Journal Article
International journal of heat and mass transfer, ISSN 0017-9310, 11/2018, Volume 126, pp. 123 - 138
•Methane diffusion flame impinging a target surface at a distance of z/d = 20 is studied.•A minimization technique is proposed for separation of heat transfer components... 
Separation of heat transfer components | Convective heat transfer coefficient | Emissivity | Reference temperature | Methane diffusion flame impingement | FIRE-PLUME | IMPINGEMENT | AIR-JET | FLUX | ENGINEERING, MECHANICAL | MECHANICS | THERMODYNAMICS | GAS | SURFACE | SLOT | BURNERS | PLATE
Journal Article
Journal Article
Applied Thermal Engineering, ISSN 1359-4311, 01/2016, Volume 93, pp. 884 - 887
....•A global model is proposed for flame length of jet flames from inclined nozzles. Flame length of buoyancy-controlled turbulent jet diffusion flames from inclined nozzles with inclined angles of 0°, 30°, 45°, 60°, and 90... 
Flame length | Heat release rate | Inclined nozzles | Jet flames | FIRES | MECHANICS | THERMODYNAMICS | ENERGY & FUELS | HEIGHTS | ENGINEERING, MECHANICAL | Turbulence | Diffusion flames | Computational fluid dynamics | Buoyancy | Entrainment | Nozzles
Journal Article
Journal of fluid mechanics, ISSN 0022-1120, 07/2016, Volume 798, pp. 997 - 1014
Journal Article
Combustion and Flame, ISSN 0010-2180, 06/2014, Volume 161, Issue 6, pp. 1587 - 1603
Journal Article
Proceedings of the Combustion Institute, ISSN 1540-7489, 2015, Volume 35, Issue 3, pp. 3513 - 3520
...) to the nozzle of laminar propane coflow diffusion flames. Light scattering, laser-induced incandescence and laser-induced fluorescence techniques were used to identify the soot zone, and the structures of OH and polycyclic aromatic hydrocarbons (PAHs... 
Recirculation | Electric field | Diffusion flame | Soot | Laminar | COMBUSTION | SOOT PARTICLES | ENERGY & FUELS | STABILIZATION | BUNSEN FLAMES | PROPANE | PROPAGATION SPEED | ENGINEERING, MECHANICAL | JET FLAMES | BLOWOFF | ENGINEERING, CHEMICAL | METHANE | THERMODYNAMICS | TRIBRACHIAL FLAMES | Polycyclic aromatic hydrocarbons | Electric fields | Electromagnetism | Diffusion flames | Fluid dynamics | Vortices | Fluid flow | Nozzles | Formations | Alternating current
Journal Article
Energy (Oxford), ISSN 0360-5442, 10/2018, Volume 160, pp. 1201 - 1207
.... The study was performed using a coaxial (CoA) circular inverse diffusion flame burners of different diameters... 
Emission | Coaxial flame | Flame appearance | Non premixed flame | Inverse diffusion flame | THERMODYNAMICS | TEMPERATURE | SWIRL | ENERGY & FUELS | JET | PLIF | BEHAVIORS | Environmental aspects | Mechanical engineering
Journal Article