Stretched laminar flamelet modeling of turbulent chloromethane-air nonpremixed jet flames
- Univ. degli Studi di Roma La Sapienza (Italy). Dipt. di Meccanica e Aeronautica
- Univ. of Illinois, Chicago, IL (United States). Dept. of Mechanical Engineering
An experimental and numerical investigation of a nonpremixed turbulent flame burning chloromethane (CH{sub 3}Cl) in air is presented. Finite-rate chemistry plays an important role in halogenated flames due to the inhibitory effect of halogens on hydrocarbon combustion. The objective of the study is to assess the applicability of the stretched laminar flamelet (slf) model that accounts for finite-rate chemistry and differential diffusion effects. For sake of comparison, a single flamelet profile is also determined experimentally; notwithstanding the detailed chemical description adopted in the computational model, significant discrepancies are evident, possibly indicative of the weight of neglected effects (sooting, radiation, etc.). The applicability of the slf approach to the turbulent flame is checked by comparing the characteristic time of energetically significant reactions to the characteristic turbulent time scales, and the results show that the flame under study operates in the flamelet regime. Predictions for the turbulent flame indicate that the slf model gives improvement for predictions of the velocity, temperature, and concentrations of reactive species, as well as of the conserved scalar (which is affected by finite-rate chemistry through the effect of flame extinction on the mixture density), with respect to a near-equilibrium model. In particular, the location of temperature and concentration peaks are closely reproduced. An improvement is obtained regarding predictions of the concentrations of the important species CO, HCl, CH{sub 3}Cl, O{sub 2}, and N{sub 2}. At any rate, due to remaining discrepancies, further investigation is called for to include insofar neglected effects.
- OSTI ID:
- 215686
- Journal Information:
- Combustion and Flame, Journal Name: Combustion and Flame Journal Issue: 4 Vol. 103; ISSN CBFMAO; ISSN 0010-2180
- Country of Publication:
- United States
- Language:
- English
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