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Comparative analysis of methods for heat losses in physically-derived reduced-order manifolds

Comparative analysis of methods for heat losses in physically-derived reduced-order manifolds
Comparative analysis of methods for heat losses in physically-derived reduced-order manifolds

Heat loss substantially modifies turbulent combustion processes, especially the formation of pollutants such as nitrogen oxides, which are strongly temperature sensitive. To account for the effects of heat loss in Large Eddy Simulation (LES) using a reduced-order manifold approach, thermochemical states are computed via a priori 1-D premixed flame calculations over a range of reduced enthalpy states. Two basic approaches are explored for generating these reduced enthalpy states, which are compared to assess any effects on turbulent flame structure and emissions. In the first approach, a variable heat loss source term is introduced into the 1-D flame solutions by mimicking a real heat loss to reduce the post-flame enthalpy. In the second approach, fuel and oxidizer are converted to products in the unburned gases at a constant temperature to produce reduced enthalpy in the entire 1-D flame solution. The two approaches are compared in methane-air piloted turbulent premixed planar jet flames that maintain a constant adiabatic flame temperature but experience differing radiation heat losses. The results indicate that the manner in which the heat loss is accounted for in the manifold is of secondary importance compared to other model uncertainties such as the chemical mechanism.

LES, NOx, Radiation, Turbulent premixed flames
Cody Nunno, A.
e62d0330-7656-4f2b-9053-429fa816e2ca
Grenga, Temistocle
be0eba30-74b5-4134-87e7-3a2d6dd3836f
Mueller, Michael E.
de069534-2aa2-4382-a380-0f3fdbfc6526
Cody Nunno, A.
e62d0330-7656-4f2b-9053-429fa816e2ca
Grenga, Temistocle
be0eba30-74b5-4134-87e7-3a2d6dd3836f
Mueller, Michael E.
de069534-2aa2-4382-a380-0f3fdbfc6526

Cody Nunno, A., Grenga, Temistocle and Mueller, Michael E. (2017) Comparative analysis of methods for heat losses in physically-derived reduced-order manifolds. 10th U.S. National Combustion Meeting, , College Park, United States. 23 - 26 Apr 2017.

Record type: Conference or Workshop Item (Paper)

Abstract

Heat loss substantially modifies turbulent combustion processes, especially the formation of pollutants such as nitrogen oxides, which are strongly temperature sensitive. To account for the effects of heat loss in Large Eddy Simulation (LES) using a reduced-order manifold approach, thermochemical states are computed via a priori 1-D premixed flame calculations over a range of reduced enthalpy states. Two basic approaches are explored for generating these reduced enthalpy states, which are compared to assess any effects on turbulent flame structure and emissions. In the first approach, a variable heat loss source term is introduced into the 1-D flame solutions by mimicking a real heat loss to reduce the post-flame enthalpy. In the second approach, fuel and oxidizer are converted to products in the unburned gases at a constant temperature to produce reduced enthalpy in the entire 1-D flame solution. The two approaches are compared in methane-air piloted turbulent premixed planar jet flames that maintain a constant adiabatic flame temperature but experience differing radiation heat losses. The results indicate that the manner in which the heat loss is accounted for in the manifold is of secondary importance compared to other model uncertainties such as the chemical mechanism.

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More information

Published date: 2017
Additional Information: Funding Information: The authors gratefully acknowledge funding from the U.S. Department of Energy, National Energy Technology Laboratory through the University Turbine Systems Research Program and valuable support in the form of computational time on the TIGRESS high performance computer center at Princeton University, which is jointly supported by the Princeton Institute for Computational Science and Engineering (PICSciE) and the Princeton University Office of Information Technology’s Research Computing Department. Publisher Copyright: © 2017 Eastern States Section of the Combustion Institute. All rights reserved.
Venue - Dates: 10th U.S. National Combustion Meeting, , College Park, United States, 2017-04-23 - 2017-04-26
Keywords: LES, NOx, Radiation, Turbulent premixed flames

Identifiers

Local EPrints ID: 480911
URI: http://eprints.soton.ac.uk/id/eprint/480911
PURE UUID: 20653aba-61a4-4fb0-be64-21ee24629736
ORCID for Temistocle Grenga: ORCID iD orcid.org/0000-0002-9465-9505

Catalogue record

Date deposited: 10 Aug 2023 16:54
Last modified: 06 Jun 2024 02:16

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Contributors

Author: A. Cody Nunno
Author: Temistocle Grenga ORCID iD
Author: Michael E. Mueller

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