Litcius/Paper detail

Progress in the Application of Machine Learning in Combustion Studies

Zhi-Hao Zheng, Xiaodong Lin, Ming Yang, Zeming He, Ergude Bao, Hang Zhang, Zhen‐Yu Tian

2020ES Energy & Environments52 citationsDOIOpen Access PDF

Abstract

Combustion is the main source of energy and environmental pollution. The objective of the combustion study is to improve combustion efficiency and to reduce pollution emissions. In the past decades, machine learning (ML), as a branch of artificial intelligence, has attracted increasing interests, especially in the combustion field. In the present work, the definition, current status and recent progress in the applications of ML on researches related to combustion are briefly reviewed. Combustion studies combined with ML can be divided into theoretical and industrial aspects. Studies of combustion theory include computational fluid dynamics (CFD) simulation, combustion phenomenon and fuel. ML is used to reduce the cost of CFD, including reducing the scale of combustion mechanism, saving the memory storage of the probability density function table and optimizing Large Eddy Simulation. ML helps in the research of combustion phenomena, such as detecting thermoacoustic combustion oscillation, portioning regimes of ignition and detonation, and reconstructing cellular surface of gaseous detonation. ML has been also applied to study physicochemical properties of fuels and to design the next generation fuels.

Topics & Concepts

CombustionHomogeneous charge compression ignitionIgnition systemProcess engineeringEnvironmental scienceCombustion chamberDetonationAutomotive engineeringComputer scienceEngineeringChemistryAerospace engineeringOrganic chemistryExplosive materialAdvanced Algorithms and ApplicationsAdvanced Sensor and Control SystemsSpectroscopy and Laser Applications