Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis

Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis

Based on the theory of direct relation graph (DRG) and sensitivity analysis (SA), a reduced mechanism for diesel-CH4-H2 tri-fuel is constructed. The detailed mechanism of Lawrence Livermore National Laboratory, which has 654 elements and 2827 elementary reactions, is used for mechanism reduction wit...

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Bibliographic Details
Main Authors: Rui Zhao, Leping Xu, Shiquan Feng
Format: Article
Language:English
Published: Sciendo 2020-12-01
Series:Polish Journal of Chemical Technology
Subjects:
diesel
natural gas
hydrogen
reduced mechanism
drg
sa
Online Access:https://doi.org/10.2478/pjct-2020-0039
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spelling doaj-7e340067d91a4e52a167d65b2d2864fb2021-09-05T14:01:02ZengSciendoPolish Journal of Chemical Technology1899-47412020-12-01224556010.2478/pjct-2020-0039pjct-2020-0039Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity AnalysisRui Zhao0Leping Xu1Shiquan Feng2Merchant Marine College, Shanghai Maritime University, Shanghai201306, ChinaMerchant Marine College, Shanghai Maritime University, Shanghai201306, ChinaSchool of Automotive Engineering, Changshu Institute of Technology, Suzhou215500, ChinaBased on the theory of direct relation graph (DRG) and sensitivity analysis (SA), a reduced mechanism for diesel-CH4-H2 tri-fuel is constructed. The detailed mechanism of Lawrence Livermore National Laboratory, which has 654 elements and 2827 elementary reactions, is used for mechanism reduction with DRG. Some small thresholds are used in the process of simplifying the detailed mechanism via DRG, and a skeletal mechanism of 266 elements is obtained. Based on the framework of the skeletal mechanism, the time-consuming approach of sensitivity analysis is used for further simplification, and the skeletal mechanism is reduced to 262 elements. Validation of the reduced mechanism is done via a comparison of ignition delay time and laminar flame speed from the calculation using the reduced mechanism and the detailed mechanism or experiment. The reduced mechanism shows good agreement with the detailed mechanism and with related experimental data.https://doi.org/10.2478/pjct-2020-0039dieselnatural gashydrogenreduced mechanismdrgsa
collection DOAJ
language English
format Article
sources DOAJ
author Rui Zhao
Leping Xu
Shiquan Feng
spellingShingle Rui Zhao
Leping Xu
Shiquan Feng
Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis
Polish Journal of Chemical Technology
diesel
natural gas
hydrogen
reduced mechanism
drg
sa
author_facet Rui Zhao
Leping Xu
Shiquan Feng
author_sort Rui Zhao
title Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis
title_short Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis
title_full Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis
title_fullStr Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis
title_full_unstemmed Construction of a reduced mechanism for diesel-natural gas -hydrogen using HCCI model with Direct Relation Graph and Sensitivity Analysis
title_sort construction of a reduced mechanism for diesel-natural gas -hydrogen using hcci model with direct relation graph and sensitivity analysis
publisher Sciendo
series Polish Journal of Chemical Technology
issn 1899-4741
publishDate 2020-12-01
description Based on the theory of direct relation graph (DRG) and sensitivity analysis (SA), a reduced mechanism for diesel-CH4-H2 tri-fuel is constructed. The detailed mechanism of Lawrence Livermore National Laboratory, which has 654 elements and 2827 elementary reactions, is used for mechanism reduction with DRG. Some small thresholds are used in the process of simplifying the detailed mechanism via DRG, and a skeletal mechanism of 266 elements is obtained. Based on the framework of the skeletal mechanism, the time-consuming approach of sensitivity analysis is used for further simplification, and the skeletal mechanism is reduced to 262 elements. Validation of the reduced mechanism is done via a comparison of ignition delay time and laminar flame speed from the calculation using the reduced mechanism and the detailed mechanism or experiment. The reduced mechanism shows good agreement with the detailed mechanism and with related experimental data.
topic diesel
natural gas
hydrogen
reduced mechanism
drg
sa
url https://doi.org/10.2478/pjct-2020-0039
work_keys_str_mv AT ruizhao constructionofareducedmechanismfordieselnaturalgashydrogenusinghccimodelwithdirectrelationgraphandsensitivityanalysis
AT lepingxu constructionofareducedmechanismfordieselnaturalgashydrogenusinghccimodelwithdirectrelationgraphandsensitivityanalysis
AT shiquanfeng constructionofareducedmechanismfordieselnaturalgashydrogenusinghccimodelwithdirectrelationgraphandsensitivityanalysis
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