Details

Autor(en) / Beteiligte

• Medwell, Paul R.
• Kalt, Peter A. M.
• Dally, Bassam B.

Titel

Reaction Zone Weakening Effects under Hot and Diluted Oxidant Stream Conditions

Ist Teil von

• Combustion science and technology, 2009-01, Vol.181 (7), p.937-953

Ort / Verlag

Philadelphia, PA: Taylor & Francis Group

Erscheinungsjahr

2009

Quelle

Taylor & Francis Journals Auto-Holdings Collection

Beschreibungen/Notizen

• This paper reports computational results, to complement experimental observations, on the turbulence-chemistry interaction of nonpremixed jet flames issuing into a heated and highly diluted oxidant stream. It is found experimentally that large-scale vortices and flame stretch can lead to spatial thinning and a decrease in OH concentration. This reduction in OH is described as a weakening of the reaction zone. Accompanying reaction zone weakening is also an increase in H 2 CO levels. The reduction in reaction rates is most noticeable at low oxidant stream O 2 levels. The heated and low oxygen oxidant conditions typify those of moderate or intense low oxygen dilution (MILD) combustion. The computational results indicate that the effects of the low oxygen levels of MILD combustion leads to both a reduction in reaction rates and an increase in transport of O 2 across the reaction zone. The relationship between the reaction rate and level of O 2 permeation suggests that a form of partial premixing can occur under MILD combustion conditions. This partial premixing leads to the formation of flame intermediates, which contribute to the stabilization of the flames. The permeation effects are most pronounced at high strain rates, which are commonly encountered in practical MILD combustors.