G-scheme-based simplification and analysis methodology for hydrocarbon ignition
G-scheme-based simplification and analysis methodology for hydrocarbon ignition
For the simulation of reactive flows, the use of a simplified model is a common simplification to reduce the computational cost, although the reduced model may introduce significant errors in the simulation. Using the G-Scheme, the local structure of the local tangent space is characterized through the subspaces associated with the slow, active, and fast reactive scales. This specific feature can be of great significance in the analysis of the dynamics with the aim of achieving a low-dimensional description and allowing a time-scale-aware sensitivity analysis of the problem. Such analysis can be exploited to simplify/reduce/understand the reaction dynamics of interest. We have developed specific procedures to generate simplified mechanisms with an a priori known error for chemical kinetics processes, to analyze them in order to understand the role of the most important reactions, and to identify the most important reactions paths of the processes. The procedure is based on a G-Scheme Participation Index that makes use of a G-Scheme generated database. The effectiveness of the procedures to produce simplified mechanisms is demonstrated by applying them to the auto-ignition problems for homogeneous hydrogen/air and hydrocarbon/air mixtures.
Temistocle, Grenga
be0eba30-74b5-4134-87e7-3a2d6dd3836f
Paolucci, Samuel
d9d7b875-1826-43d8-8058-c48802001e29
Valorani, Mauro
831fae90-ef8a-49fb-bef8-123a70ef8024
2016
Temistocle, Grenga
be0eba30-74b5-4134-87e7-3a2d6dd3836f
Paolucci, Samuel
d9d7b875-1826-43d8-8058-c48802001e29
Valorani, Mauro
831fae90-ef8a-49fb-bef8-123a70ef8024
Temistocle, Grenga, Paolucci, Samuel and Valorani, Mauro
(2016)
G-scheme-based simplification and analysis methodology for hydrocarbon ignition.
2016 Spring Technical Meeting of the Eastern States Section of the Combustion Institute, ESSCI 2016, , Princeton, United States.
13 - 16 Mar 2016.
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Conference or Workshop Item
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Abstract
For the simulation of reactive flows, the use of a simplified model is a common simplification to reduce the computational cost, although the reduced model may introduce significant errors in the simulation. Using the G-Scheme, the local structure of the local tangent space is characterized through the subspaces associated with the slow, active, and fast reactive scales. This specific feature can be of great significance in the analysis of the dynamics with the aim of achieving a low-dimensional description and allowing a time-scale-aware sensitivity analysis of the problem. Such analysis can be exploited to simplify/reduce/understand the reaction dynamics of interest. We have developed specific procedures to generate simplified mechanisms with an a priori known error for chemical kinetics processes, to analyze them in order to understand the role of the most important reactions, and to identify the most important reactions paths of the processes. The procedure is based on a G-Scheme Participation Index that makes use of a G-Scheme generated database. The effectiveness of the procedures to produce simplified mechanisms is demonstrated by applying them to the auto-ignition problems for homogeneous hydrogen/air and hydrocarbon/air mixtures.
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Published date: 2016
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© 2016, Eastern States Section of the Combustion Institute. All rights reserved.
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2016 Spring Technical Meeting of the Eastern States Section of the Combustion Institute, ESSCI 2016, , Princeton, United States, 2016-03-13 - 2016-03-16
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Local EPrints ID: 480909
URI: http://eprints.soton.ac.uk/id/eprint/480909
PURE UUID: cf0ce8db-a019-4535-8cb6-a13ecbcb1627
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Date deposited: 10 Aug 2023 16:53
Last modified: 06 Jun 2024 02:16
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Contributors
Author:
Grenga Temistocle
Author:
Samuel Paolucci
Author:
Mauro Valorani
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