Fabien Halter scite author profile

Effects of dilution on premixed methane/air combustion are investigated through experiments and numerical simulations on laminar burning velocities. Experiments are carried out at atmospheric pressure and 393 K; computed results are obtained using the GRI mechanism and the Premix code of the Chemkin package. Laminar burning velocities are determined for several diluents (nitrogen, carbon dioxide, vapor water, a mixture of the three previous gases representative of exhaust gases, helium, and argon) and for different dilution percentages. The equivalence ratio is kept constant equal to stoichiometric. Excellent agreements between experimental data and computed results are obtained. Because heat capacity seems to possess the predominant effect on the laminar flame, an explicit correlation between the heat capacity of the diluent and the laminar burning velocity is proposed.

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Nonlinear effects of stretch on the flame front propagation

Halter

Tahtouh

Mounaïm‐Rousselle

2010

Combustion and Flame

206

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Evaluation of Butanol–Gasoline Blends in a Port Fuel-injection, Spark-Ignition Engine

Dernotte

Mounaïm‐Rousselle

Halter

et al. 2009

Oil Gas Sci. Technol. – Rev. IFP

211

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Résumé -Évaluation de mélange butanol-essence dans un moteur à allumage commandé à injection indirecte -Cet article évalue le potentiel de l'utilisation de différents mélanges butanolessence dans un moteur à allumage commandé à injection indirecte afin de quantifier l'influence de l'ajout de butanol sur les émissions des hydrocarbures imbrûlés (HC), le monoxyde de carbone (CO) et les oxydes d'azote (NOx). De plus, l'influence sur la stabilité de combustion, le délai d'inflammation et sur la durée de la phase de combustion turbulente développée y sont également présentés. Les principaux résultats : 1) un mélange de 40 % butanol et 60 % essence (B40) par volume diminue les émissions de HC ; 2) aucun effet significatif sur les émissions de NOx n'a été observé à l'exception du mélange 80% butanol/20 % essence ; 3) l'ajout de butanol améliore la stabilité de combustion ; 4) l'ajout de butanol réduit le délai d'inflammation, quantifié par la durée pour consommer 10% de masse de gaz frais; et 5) la consommation spécifique de carburant pour un mélange stoechiométrique de B40 est 10% supérieure à celle de l'essence. [0][1][2][3][4][5][6][7][8][9][10] Abstract -Evaluation of Butanol-Gasoline Blends in a Port Fuel-Injection, Spark-Ignition Engine -This paper assesses different butanol-gasoline blends used in a port fuel-injection, spark-ignition engine to quantify the influence of butanol addition on the emission of unburned hydrocarbons, carbon monoxide, and nitrogen oxide. Furthermore, in-cylinder pressure was measured to quantify combustion stability and to compare the ignition delay and fully developed turbulent combustion phases as given by

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Characterization of the effects of hydrogen addition in premixed methane/air flames

Halter

Chauveau

Gökalp

2007

International Journal of Hydrogen Energy

168

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Effects of high pressure, high temperature and dilution on laminar burning velocities and Markstein lengths of iso-octane/air mixtures

Galmiche

Halter

Foucher

2012

Combustion and Flame

147

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Fabien Halter

An experimental and kinetic modeling study of n-butanol combustion

Characterization of the effects of pressure and hydrogen concentration on laminar burning velocities of methane–hydrogen–air mixtures

Experimental and detailed kinetic modeling study of 1-pentanol oxidation in a JSR and combustion in a bomb

Effects of Dilution on Laminar Burning Velocity of Premixed Methane/Air Flames

Nonlinear effects of stretch on the flame front propagation

Evaluation of Butanol–Gasoline Blends in a Port Fuel-injection, Spark-Ignition Engine

Characterization of the effects of hydrogen addition in premixed methane/air flames

Effects of high pressure, high temperature and dilution on laminar burning velocities and Markstein lengths of iso-octane/air mixtures

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