Extinction Limits of Premixed Combustion Assisted by Catalytic Reaction in a Stagnation-Point Flow
نویسندگان
چکیده
Motivated by the potential use of catalytic materials in micro-combustor application, the primary scope of this study is to investigate the lean extinction characteristics of premixed flames in the presence of catalytic reaction. In particular, the effects of mixture dilution on the lean flammability limit are examined by adopting a stagnation-point flow system with a methane/air mixture over a platinum surface. For the reference fuel/air conditions, it was found that the lean flammability limit of homogeneous reaction is actually lower than that of the heterogeneous reaction. However, when sufficient amount of nitrogen is added to the reactant mixture, the surface reaction shows the benefit of extending the lean extinction limit to a lower value. It is also found that the magnitude of flammability extension by surface reaction is more pronounced in the presence of surface heat loss. Unsteady extinction behavior in response to equivalence ratio fluctuations shows an overall trend consistent with the steady results. These phenomena are explained as result of different characteristic time scale of homogeneous and heterogeneous reaction. Analytical calculation proved that under same reactant and thermal boundary condition, surface reaction has smaller time scale which is rather insensitive to dilution while gas phase reaction has larger one which changes more with different dilution magnitude.
منابع مشابه
Extinction Limits of Nonadiabatic, Catalyst-Assisted Flames in Stagnation- Point Flow
An idealized geometry corresponding to a premixed flame in stagnation-point flow is used to investigate the effects of catalysis on extending the extinction limits of nonadiabatic stretched flames. Specifically, a surface catalytic reaction is assumed to occur on the stagnation plane, thereby augmenting combustion in the bulk gas with an exothermic surface reaction characterized by a reduced ac...
متن کاملAn Experimental Study of the Effects of Platinum on Methane/Air and Propane/Air Mixtures in a Stagnation Point Flow Reactor
A stagnation-flow burner facility was used to study the catalytic surface reactions of premixed combustion systems at atmospheric pressure. The configuration serves as an important platform to investigate the interaction between homogeneous and heterogeneous reactions with independent control of the characteristic chemical and physical residence time scales. Methane/oxygen/nitrogen and propane/...
متن کاملEffects of dilution on the extinction characteristics of strained lean premixed flames assisted by catalytic reaction
As a fundamental study relevant to micro-combustor application, the effects of mixture dilution on the lean extinction characteristics is studied for a stagnation-point flow system with a methane/air mixture over a platinum surface. For steady conditions, the level of flammability extension by surface reaction depends strongly on the mixture dilution, such that the benefit of catalyst-assisted ...
متن کاملExtinction Characteristics of Catalyst-Assisted Combustion in a Stagnation-Point Flow Reactor
As a fundamental study to understand physical and chemical characteristics in micro-combustors, numerical simulations of a stagnation-point flow combustor with a catalytic surface are performed. One-dimensional similarity formulation is derived with full consideration of detailed surface and gasphase chemical kinetic models. Parametric studies are conducted to investigate the effects of strain ...
متن کاملEffects of platinum stagnation surface on the lean extinction limits of premixed methane/air flames at moderate surface temperatures
0010-2180/$ see front matter 2010 The Combust doi:10.1016/j.combustflame.2010.08.002 ⇑ Corresponding author. Fax: +1 734 647 3170. E-mail address: [email protected] (J.T. Wiswall A stagnation flow reactor was used to study the effects of platinum on the lean flammability limits of atmospheric pressure premixed methane/air flames at moderate stagnation surface temperatures. Experimental and com...
متن کامل