An advanced high dimensional model representation approach for internal combustion engine modeling and optimization

Jianhong Lei; Jing Li; Shaohua Wu; Haoxing Li; Gehan A.J. Amaratunga; Xu Han; Wenming Yang

doi:10.1016/j.energy.2024.133409

An advanced high dimensional model representation approach for internal combustion engine modeling and optimization

Jianhong Lei, Jing Li, Shaohua Wu, Haoxing Li, Gehan A.J. Amaratunga, Xu Han, Wenming Yang

School of Mechanical and Power Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

This work introduces an efficient data-driven approach for engine performance modeling and optimization. A highly accurate and robust high-dimensional model representation (HDMR) surrogate model is developed based on the dataset generated from a coupled KIVA4-CHEMKIN Ⅱ software. The HDMR model is integrated with a multi-objective optimization algorithm, enabling the automatic identification of optimal combustion strategies. Results suggest that the constructed HDMR model is able to accurately predict the engine performance and exhaust gas emissions with negligible CPU costs. Moreover, the model effectively identifies optimal engine operating conditions, leading to enhanced fuel efficiency.

Original language	English
Article number	133409
Journal	Energy
Volume	311
DOIs	https://doi.org/10.1016/j.energy.2024.133409
State	Published - 1 Dec 2024

Keywords

Data driven
High dimension model representation (HDMR)
Multi-objective optimization
NSGA-Ⅲ

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.energy.2024.133409

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title = "An advanced high dimensional model representation approach for internal combustion engine modeling and optimization",

abstract = "This work introduces an efficient data-driven approach for engine performance modeling and optimization. A highly accurate and robust high-dimensional model representation (HDMR) surrogate model is developed based on the dataset generated from a coupled KIVA4-CHEMKIN Ⅱ software. The HDMR model is integrated with a multi-objective optimization algorithm, enabling the automatic identification of optimal combustion strategies. Results suggest that the constructed HDMR model is able to accurately predict the engine performance and exhaust gas emissions with negligible CPU costs. Moreover, the model effectively identifies optimal engine operating conditions, leading to enhanced fuel efficiency.",

keywords = "Data driven, High dimension model representation (HDMR), Multi-objective optimization, NSGA-Ⅲ",

author = "Jianhong Lei and Jing Li and Shaohua Wu and Haoxing Li and Amaratunga, {Gehan A.J.} and Xu Han and Wenming Yang",

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T1 - An advanced high dimensional model representation approach for internal combustion engine modeling and optimization

AU - Lei, Jianhong

AU - Li, Jing

AU - Wu, Shaohua

AU - Li, Haoxing

AU - Amaratunga, Gehan A.J.

AU - Han, Xu

AU - Yang, Wenming

PY - 2024/12/1

Y1 - 2024/12/1

N2 - This work introduces an efficient data-driven approach for engine performance modeling and optimization. A highly accurate and robust high-dimensional model representation (HDMR) surrogate model is developed based on the dataset generated from a coupled KIVA4-CHEMKIN Ⅱ software. The HDMR model is integrated with a multi-objective optimization algorithm, enabling the automatic identification of optimal combustion strategies. Results suggest that the constructed HDMR model is able to accurately predict the engine performance and exhaust gas emissions with negligible CPU costs. Moreover, the model effectively identifies optimal engine operating conditions, leading to enhanced fuel efficiency.

AB - This work introduces an efficient data-driven approach for engine performance modeling and optimization. A highly accurate and robust high-dimensional model representation (HDMR) surrogate model is developed based on the dataset generated from a coupled KIVA4-CHEMKIN Ⅱ software. The HDMR model is integrated with a multi-objective optimization algorithm, enabling the automatic identification of optimal combustion strategies. Results suggest that the constructed HDMR model is able to accurately predict the engine performance and exhaust gas emissions with negligible CPU costs. Moreover, the model effectively identifies optimal engine operating conditions, leading to enhanced fuel efficiency.

KW - Data driven

KW - High dimension model representation (HDMR)

KW - Multi-objective optimization

KW - NSGA-Ⅲ

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DO - 10.1016/j.energy.2024.133409

M3 - 文章

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SN - 0360-5442

VL - 311

JO - Energy

JF - Energy

M1 - 133409

ER -

An advanced high dimensional model representation approach for internal combustion engine modeling and optimization

Abstract

Keywords

UN SDGs

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