S. A. Labuda scite author profile

Ecole Nationale Supé rieure de Mé canique et d'Aé rotechnique, Futuroscope Chasseneuil Cedex, FranceThis work presents results of quenching distance and heat flux measurements during the head-on quenching of transient laminar stoichiometric methane=air flame in the pressure range 0.05-1.7 MPa. The results of direct visualization have been used to measure the quenching distance and to prove the relationship relating the quenching distance and heat flux to the wall over the global combustion reaction rate. It is shown that quenching distance decreases from 0.43 to 0.016 mm with pressure rise from 0.05 to 1.7 MPa. The maximum wall heat flux increases nonlinearly from 0.35 to 2.3 MW=m 2 with pressure rise from 0.05 to 1.7 MPa. The dimensionless value of the heat flux depends only slightly on the pressure and decreases from 0.3 to 0.2 with rise of pressure in this pressure range. Flame-wall interaction time is about constant and equal to 0.15-0.155 ms in all ranges of pressure variation.

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Direct measurement of laminar flame quenching distance in a closed vessel

Bellenoue

Kageyama

Labuda

et al. 2003

Experimental Thermal and Fluid Science

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Evolution of charged species in propane/air flames: mass-spectrometric analysis and modelling

Rodrigues¹,

Agneray²,

Jaffrezic³

et al. 2006

Plasma Sources Sci. Technol.

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Experimental and modelling studies of ion formation during combustion of propane/air mixtures are presented. The positive and negative ions mass/charge spectra in propane/air stoichiometric flame at atmospheric pressure are recorded in the range from 0 to 512 atomic mass units. The C 2 H 3 O + and HCO − 2 ions are found to be the most abundant ionic species in the flame front region. By increasing the distance from the flame front the ion composition changes significantly. In the burnt gas region the H 3 O + , NO + , CO − 3 , HCO − 3 ions are found to be the major charged species. To explain the experimental results the extended kinetic model describing the ion formation in flame and in the extraction system of the mass-spectrometer as well as ion-soot interaction is developed. It is shown that the ionic clusters, which are observed experimentally, form during the adiabatic expansion in the extraction system, and the presence of soot particles may change the total positive and negative ion concentrations in the gas phase.

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Experimental Study of Single-Wall Flame Quenching at High Pressures

Labuda

Karrer

Sotton

et al. 2011

Combustion Science and Technology

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S. A. Labuda

A thermal formulation for single-wall quenching of transient laminar flames

Head-on Quenching of Transient Laminar Flame: Heat Flux and Quenching Distance Measurements

Direct measurement of laminar flame quenching distance in a closed vessel

Evolution of charged species in propane/air flames: mass-spectrometric analysis and modelling

Experimental Study of Single-Wall Flame Quenching at High Pressures

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