Amirali Shateri; Zhiyin Yang; Jianfei Xie

Utilizing Artificial intelligence to identify an Optimal Machine learning model for predicting fuel consumption in Diesel engines

Journal article

Amirali Shateri, Zhiyin Yang and Jianfei Xie 2024. Utilizing Artificial intelligence to identify an Optimal Machine learning model for predicting fuel consumption in Diesel engines. Energy and AI. 16, pp. 1-17. https://doi.org/10.1016/j.egyai.2024.100360

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Authors	Amirali Shateri, Zhiyin Yang and Jianfei Xie
Abstract	This paper describes the utilization of artificial intelligence (AI) techniques to identify an optimal machine learning (ML) model for predicting dodecane fuel consumption in diesel combustion. The study incorporates sensitivity analysis to assess the impact levels of various parameters on fuel consumption, thereby highlighting the most influential factors. In addition, this study addresses the impact of noise and implements data cleaning techniques to ensure the reliability of the obtained results. To validate the accuracy of the predictions, the study performs several metrics and validation process, including comparisons with computational fluid dynamics (CFD) results and experimental data. Comprehensive comparisons are made among neural networks (NN), random forest regression (RFR), and Gaussian process regression (GPR) models, taking into account the complexity associated with fuel consumption predictions. The findings demonstrate that the GPR model outperforms the others in terms of accuracy, as evidenced by metrics such as mean absolute error (MAE), mean squared error (MSE), Pearson coefficient (PC), and R-squared (R2). The GPR model exhibits superior predictive ability, accurately detecting and predicting even individual data points that deviate from the overall trend. The significantly lower absolute error values also consistently indicate its higher accuracy compared with the NN and RFR models. Furthermore, the GPR model shows a remarkable speedup, approximately 1.7 times faster than traditional CFD solvers, and physically captures the momentum and thermal characteristics in a surface field prediction. Finally, the target optimization is assessed using the Euclidean distance as a fitness function, ensuring the reliability of predicted data.
Keywords	AI evaluation; Machine learning; Diesel engine; Fuel consumption; Decarbonization
Year	2024
Journal	Energy and AI
Journal citation	16, pp. 1-17
Publisher	Elsevier
ISSN	2666-5468
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.egyai.2024.100360
Web address (URL)	https://doi.org/10.1016/j.egyai.2024.100360
Publisher's version	1-s2.0-S2666546824000260-main.pdf License CC BY 4.0 File Access Level Open
Output status	Published
Publication dates	18 Mar 2024
Deposited	11 Apr 2024

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