Application of the Optimized Decoupling Methodology for the Construction of a Skeletal Primary Reference Fuel Mechanism Focusing on Engine-Relevant Conditions

Chang, Yachao and Jia, Ming and Li, Yaopeng and Xie, Maozhao (2015) Application of the Optimized Decoupling Methodology for the Construction of a Skeletal Primary Reference Fuel Mechanism Focusing on Engine-Relevant Conditions. Frontiers in Mechanical Engineering, 1. ISSN 2297-3079

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Abstract

For the multi-dimensional simulation of the engines with advanced compression-ignition combustion strategies, a practical and robust chemical kinetic mechanism is highly demanded. Decoupling methodology is effective for the construction of skeletal mechanisms for long-chain alkanes. To improve the performance of the decoupling methodology, further improvements are introduced based on recent theoretical and experimental works. The improvements include (1) updating the H2/O2 sub-mechanism; (2) refining the rate constants in the HCO/CH3/CH2O sub-mechanism; (3) building a new reduced C2 sub-mechanism; and (4) improving the large-molecule sub-mechanism. With the improved decoupling methodology, a skeletal primary reference fuel (PRF) mechanism is developed. The mechanism is validated against the experimental data in shock tubes, jet-stirred reactors, and premixed and counterflow flames for various PRF fuels covering the temperature range of 500–1450 K, the pressure range of 0.1–5.5 MPa, and the equivalence ratio range of 0.25–1.0. Finally, the skeletal mechanism is coupled with a multi-dimensional computational fluid dynamics model to simulate the combustion and emission characteristics of homogeneous charge compression ignition (HCCI) engines fueled with iso-octane and PRF. Overall, the agreements between the experiment and prediction are satisfactory.

Item Type: Article
Subjects: East India Archive > Engineering
Depositing User: Unnamed user with email support@eastindiaarchive.com
Date Deposited: 13 Jun 2023 06:54
Last Modified: 22 Jun 2024 09:22
URI: http://ebooks.keeplibrary.com/id/eprint/1421

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