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In
combustion Combustion, or burning, is a high-temperature exothermic redox chemical reaction between a fuel (the reductant) and an oxidant, usually atmospheric oxygen, that produces oxidized, often gaseous products, in a mixture termed as smoke. Combus ...
engineering and
explosion An explosion is a rapid expansion in volume associated with an extreme outward release of energy, usually with the generation of high temperatures and release of high-pressure gases. Supersonic explosions created by high explosives are known ...
studies, the Markstein number characterizes the effect of local heat release of a propagating
flame A flame (from Latin '' flamma'') is the visible, gaseous part of a fire. It is caused by a highly exothermic chemical reaction taking place in a thin zone. When flames are hot enough to have ionized gaseous components of sufficient density the ...
on variations in the surface topology along the flame and the associated local flame front curvature. The
dimensionless A dimensionless quantity (also known as a bare quantity, pure quantity, or scalar quantity as well as quantity of dimension one) is a quantity to which no physical dimension is assigned, with a corresponding SI unit of measurement of one (or 1) ...
Markstein number is defined as: :\mathcal = \frac where \mathcal is the Markstein length, and \delta_L is the characteristic laminar flame thickness. The larger the Markstein length, the greater the effect of curvature on localised burning velocity. It is named after George H. Markstein (1911—2011), who showed that thermal diffusion stabilized the curved flame front and proposed a relation between the critical wavelength for stability of the flame front, called the Markstein length, and the thermal thickness of the flame. Phenomenological Markstein numbers with respect to the combustion products are obtained by means of the comparison between the measurements of the flame radii as a function of time and the results of the analytical integration of the linear relation between the flame speed and either flame stretch rate or flame curvature. The burning velocity is obtained at zero stretch, and the effect of the flame stretch acting upon it is expressed by a Markstein length. Because both flame curvature and aerodynamic strain contribute to the flame stretch rate, there is a Markstein number associated with each of these components.


Clavin–Williams equation

The Markstein number with respect to the unburnt gas mixture for a one step reaction in the limit of large
activation energy asymptotics Activation energy asymptotics (AEA), also known as large activation energy asymptotics, is an asymptotic analysis used in the combustion field utilizing the fact that the reaction rate is extremely sensitive to temperature changes due to the large ...
was derived by
Paul Clavin Paul Clavin is a French scientist at Aix-Marseille University, working in the field of combustion and statistical mechanics. He is the founder of Institute for Research on Nonequilibrium Phenomena (IRPHE). Biography Clavin served as the chair ...
and
Forman A. Williams Forman Arthur Williams (born January 12, 1934) is an American academic in the field of combustion and aerospace engineering who is Emeritus Professor of Mechanical and Aerospace Engineering at the University of California San Diego. Education Wil ...
in 1982. The Markstein number then is :\mathcal_u = \frac\ln \frac + \frac \frac \int_0^ \frac \, dx where *\alpha is the heat release parameter defined with density ratio, *\beta is the Zel'dovich number, *\rm is the
Lewis number The Lewis number (Le) is a dimensionless number defined as the ratio of thermal diffusivity to mass diffusivity. It is used to characterize fluid flows where there is simultaneous heat and mass transfer. The Lewis number puts the thickness of the ...
of the deficient reactant (either fuel or oxidizer) and the Markstein number with respect to the burnt gas mixture is derived by Clavin (1985) :\mathcal_b = \frac \ln \frac + \frac\int_0^ \frac \, dx


Second Markstein number

In general, Markstein number for the curvature effects \mathcal_c and strain effects \mathcal_s are not same in real flames.Clavin, Paul, and Geoff Searby. Combustion Waves and Fronts in Flows: Flames, Shocks, Detonations, Ablation Fronts and Explosion of Stars. Cambridge University Press, 2016. In that case, one defines a second Markstein number as :\mathcal_2=\mathcal_c-\mathcal_s.


See also

*
G equation In Combustion, G equation is a scalar G(\mathbf,t) field equation which describes the instantaneous flame position, introduced by Forman A. Williams in 1985 in the study of premixed turbulent combustion. The equation is derived based on the Level-s ...
* Prandtl number *
Schmidt number Schmidt number (Sc) is a dimensionless number defined as the ratio of momentum diffusivity ( kinematic viscosity) and mass diffusivity, and it is used to characterize fluid flows in which there are simultaneous momentum and mass diffusion convec ...


References

{{DEFAULTSORT:Markstein Number Combustion Dimensionless numbers of fluid mechanics Fluid dynamics Dimensionless numbers Dimensionless numbers of chemistry