Filtered density functions from direct numerical simulation of a reactive jet in cross-flow
Filtered density functions from direct numerical simulation of a reactive jet in cross-flow
Direct numerical simulation (DNS) with multi-step hydrogen-air chemical kinetics is used to investigate the nearfield of a flame stabilized above a reactive jet in cross-flow (JICF). JICF configurations are typically used where rapid mixing is desirable; classical applications are fuel injection nozzles and dilution holes in gas turbine combustors. Due to the computational cost of DNS, approximate solution methods such as large-eddy simulation (LES) are essential to parametrically study the effect of changing fuel jet configurations on the far field, but these methods require submodels capable of accurately capturing the near-field flame stabilization for success. By incorporating a wealth of turbulence chemistry interactions (between the flame and vorticity generated by the jet shear layer instability as well as product recirculation by a large counter-rotating vortex pair), this DNS is exceptionally well suited to exploration of unclosed terms in LES formulations such as the chemical source-term. One quantity of direct relevance to several models for stratified combustion, such as the Bray-Moss (BM) model and doubly-conditional source-term estimation (DCSE), is the filtered density function for the mixture fraction ! and partially premixed progress variable c. Empirical extraction of the filtered density functions of progress variable and mixture fraction at two representative locations demonstrates the complexity of approximating these two functions from a one- or two-parameter functional form.
9781617384196
766-771
Grout, R.W.
80b4fc77-9aad-45e9-b160-99251d3338ac
Richardson, E.S.
a8357516-e871-40d8-8a53-de7847aa2d08
Gruber, A.
e2c365ab-5e1b-4af1-a2f8-05063688f850
Yoo, C.S.
3e57efec-fb73-4e27-b690-47dfb99ef9c8
Chen, J.H.
fd295f97-acff-4984-a655-ee18d3b2a734
22 February 2010
Grout, R.W.
80b4fc77-9aad-45e9-b160-99251d3338ac
Richardson, E.S.
a8357516-e871-40d8-8a53-de7847aa2d08
Gruber, A.
e2c365ab-5e1b-4af1-a2f8-05063688f850
Yoo, C.S.
3e57efec-fb73-4e27-b690-47dfb99ef9c8
Chen, J.H.
fd295f97-acff-4984-a655-ee18d3b2a734
Grout, R.W., Richardson, E.S., Gruber, A., Yoo, C.S. and Chen, J.H.
(2010)
Filtered density functions from direct numerical simulation of a reactive jet in cross-flow.
In,
Western States Section of the Combustion Institute Spring Technical Meeting 2010.
Combustion Institute Spring Technical Meeting (22/03/10 - 23/03/10)
Curran Associates, Inc., .
Record type:
Book Section
Abstract
Direct numerical simulation (DNS) with multi-step hydrogen-air chemical kinetics is used to investigate the nearfield of a flame stabilized above a reactive jet in cross-flow (JICF). JICF configurations are typically used where rapid mixing is desirable; classical applications are fuel injection nozzles and dilution holes in gas turbine combustors. Due to the computational cost of DNS, approximate solution methods such as large-eddy simulation (LES) are essential to parametrically study the effect of changing fuel jet configurations on the far field, but these methods require submodels capable of accurately capturing the near-field flame stabilization for success. By incorporating a wealth of turbulence chemistry interactions (between the flame and vorticity generated by the jet shear layer instability as well as product recirculation by a large counter-rotating vortex pair), this DNS is exceptionally well suited to exploration of unclosed terms in LES formulations such as the chemical source-term. One quantity of direct relevance to several models for stratified combustion, such as the Bray-Moss (BM) model and doubly-conditional source-term estimation (DCSE), is the filtered density function for the mixture fraction ! and partially premixed progress variable c. Empirical extraction of the filtered density functions of progress variable and mixture fraction at two representative locations demonstrates the complexity of approximating these two functions from a one- or two-parameter functional form.
Text
JICF_WSS_Groutetal.pdf
- Author's Original
More information
Published date: 22 February 2010
Venue - Dates:
Combustion Institute Spring Technical Meeting, Boulder, United States, 2010-03-22 - 2010-03-23
Organisations:
Engineering Science Unit
Identifiers
Local EPrints ID: 203195
URI: http://eprints.soton.ac.uk/id/eprint/203195
ISBN: 9781617384196
PURE UUID: c147c16d-7533-479c-8d45-f686a1b96263
Catalogue record
Date deposited: 15 Nov 2011 15:16
Last modified: 15 Mar 2024 03:37
Export record
Contributors
Author:
R.W. Grout
Author:
A. Gruber
Author:
C.S. Yoo
Author:
J.H. Chen
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
