Experimental analysis of laminar spherically expanding flames

Varea, Emilien

30 January 2013

Laminar burning velocity is very useful for both combustion modeling and kinetic scheme validationand improvement. Accurate experimental data are needed. To achieve this, the spherical flame method was chosen. However various expression for burning velocity from the spherically expanding flame can be found. A theorical review details all the expressions and models for the burning veolcity and shows how they can be obtained experimentally. These models were comparated considering basic fuels - various Lewis numbers. As a result, it is shown that the pure kinematic measurement method is the only one thet does not introduce any assumptions. This kinematic measurement had needed the development and validation of an original post-processing tool. Following the theorical review, a parametric experimental study is presented. The new technique is extended to extract burning velocity and Markstein length relative to the fresh gas for pure ethanol, isooctane and blended fuels at high pressure.

Laminar burning velocity

Spherically expanding flame

Markstein length

Lewis number

Flame response to stretch

Ethanol

Isooctane

Experimental analysis of laminar spherically expanding flames / Analyse expérimentale des flammes en expansion sphérique : quelles formulations pour la vitesse de combustion ?

Varea, Emilien

30 January 2013

Bien qu'étudiée depuis plus de 100 ans, la détermination expérimentale de la vitesse de combustion reste compliquée. Dans ce travail de thèse, la configuration de flamme sphérique en expansion a été choisie. Cependant, il apparait plusieurs formulation pour cette vitesse de combustion. Ces dernières sont liées au référentiel de mesure qui est lié 1) au laboratoire, 2) au front de flamme et 3) au taux de réaction. Ces 3 formulations, bien que différentes par définition, doivent cependant converger vers une seule et unique valeur correspondant à la vitesse de combustion laminaire à étirement nul. Une étude comparant ces formulations pour des mélanges gazeux au nombre de Lewis bien défini a été menée. Il est montré que la formulation associée au front de flamme permet d'extraire une vitesse de combustion s'abstenant de toute hypothèse. Cette technique a été ensuite appliquée pour déterminer la vitesse de combustion de mélanges issoctane/éthanol et leur dépendance en pression (10 bars). / Laminar burning velocity is very useful for both combustion modeling and kinetic scheme validationand improvement. Accurate experimental data are needed. To achieve this, the spherical flame method was chosen. However various expression for burning velocity from the spherically expanding flame can be found. A theorical review details all the expressions and models for the burning veolcity and shows how they can be obtained experimentally. These models were comparated considering basic fuels - various Lewis numbers. As a result, it is shown that the pure kinematic measurement method is the only one thet does not introduce any assumptions. This kinematic measurement had needed the development and validation of an original post-processing tool. Following the theorical review, a parametric experimental study is presented. The new technique is extended to extract burning velocity and Markstein length relative to the fresh gas for pure ethanol, isooctane and blended fuels at high pressure.

Vitesse de combustion laminaire

Flamme sphérique en expansion

Longueur de Markstein

Nombre de Lewis

Dynamique de flamme

Ethanol

Isooctane

Laminar burning velocity

Spherically expanding flame

Markstein length

Lewis number

Flame response to stretch

Ethanol

Isooctane