Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel Engine

Based on the theory of direct relation graph (DRG) and the sensitivity analysis, a reduced mechanism for the diesel-syngas dual fuel was constructed. Three small thresholds were applied in the process of the detailed mechanism simplification by DRG, and a skeletal mechanism with 185 elements and the...

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Main Author: Shiquan Feng
Format: Article
Language:English
Published: Hindawi Limited 2017-01-01
Series:Mathematical Problems in Engineering
Online Access:http://dx.doi.org/10.1155/2017/6825079
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spelling doaj-3cc7d79c250b4caea7c6f4b84f1919d62020-11-24T23:22:37ZengHindawi LimitedMathematical Problems in Engineering1024-123X1563-51472017-01-01201710.1155/2017/68250796825079Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel EngineShiquan Feng0Merchant Marine College, Shanghai Maritime University, Shanghai, ChinaBased on the theory of direct relation graph (DRG) and the sensitivity analysis, a reduced mechanism for the diesel-syngas dual fuel was constructed. Three small thresholds were applied in the process of the detailed mechanism simplification by DRG, and a skeletal mechanism with 185 elements and the 832 elementary reactions was obtained. According to the framework of the skeletal mechanism, the time-consuming approach of sensitivity analysis was employed for further simplification, and the skeletal mechanism was further reduced to the size of 158 elements and 705 reactions. The Chemkin software with the detailed mechanism was utilized to calculate the effect of syngas addition on the combustion characteristics of diesel combustion. The findings showed that the addition of syngas could reduce the ignition delay time and increase the laminar flame speed. Based on the reduced mechanism and engine parameters, a 3D model of the engine was constructed with the Forte code. The 3D model was adopted to study the effect of syngas addition on the performance and exhaust emissions of the engine and the relevant data of the experiment was used in the calibration of the 3D model.http://dx.doi.org/10.1155/2017/6825079
collection DOAJ
language English
format Article
sources DOAJ
author Shiquan Feng
spellingShingle Shiquan Feng
Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel Engine
Mathematical Problems in Engineering
author_facet Shiquan Feng
author_sort Shiquan Feng
title Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel Engine
title_short Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel Engine
title_full Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel Engine
title_fullStr Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel Engine
title_full_unstemmed Numerical Study of the Performance and Emission of a Diesel-Syngas Dual Fuel Engine
title_sort numerical study of the performance and emission of a diesel-syngas dual fuel engine
publisher Hindawi Limited
series Mathematical Problems in Engineering
issn 1024-123X
1563-5147
publishDate 2017-01-01
description Based on the theory of direct relation graph (DRG) and the sensitivity analysis, a reduced mechanism for the diesel-syngas dual fuel was constructed. Three small thresholds were applied in the process of the detailed mechanism simplification by DRG, and a skeletal mechanism with 185 elements and the 832 elementary reactions was obtained. According to the framework of the skeletal mechanism, the time-consuming approach of sensitivity analysis was employed for further simplification, and the skeletal mechanism was further reduced to the size of 158 elements and 705 reactions. The Chemkin software with the detailed mechanism was utilized to calculate the effect of syngas addition on the combustion characteristics of diesel combustion. The findings showed that the addition of syngas could reduce the ignition delay time and increase the laminar flame speed. Based on the reduced mechanism and engine parameters, a 3D model of the engine was constructed with the Forte code. The 3D model was adopted to study the effect of syngas addition on the performance and exhaust emissions of the engine and the relevant data of the experiment was used in the calibration of the 3D model.
url http://dx.doi.org/10.1155/2017/6825079
work_keys_str_mv AT shiquanfeng numericalstudyoftheperformanceandemissionofadieselsyngasdualfuelengine
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