Comprehensive Review on Technical Developments of Methanol-Fuel-Based Spark Ignition Engines to Improve the Performance, Combustion, and Emissions

Farooq, Muhammad Shahid; Baig, Abdullah; Wei, Yanju; Liu, He

doi:10.1115/1.4065249

Journal of Energy Resources Technology

2024

DOI: 10.1115/1.4065249

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Comprehensive Review on Technical Developments of Methanol-Fuel-Based Spark Ignition Engines to Improve the Performance, Combustion, and Emissions

Muhammad Shahid Farooq,

Abdullah Baig,

Yanju Wei

et al.

Abstract: Methanol (CH3OH) is emerging as a viable alternative to fossil-based fuels, addressing the increasing global energy demand while promoting sustainability. The spark ignition (SI) engines are widely used to run the automobile sector. Methanol as a widely available and cheap source of energy can be strongly replaced with expensive and limited fossil-based fuels to power the SI engines. The prime objective of this study is to evaluate the advancements made in improving the fuel blends, performance, combustion, an… Show more

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Cited by 3 publications

References 122 publications

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A concise review of developments to overcome the cold start problems by analyzing combustion and emissions of methanol-based-fueled spark ignition engines

Farooq,

Baig,

Wei

et al. 2025

International Journal of Hydrogen Energy

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A concise review of developments to overcome the cold start problems by analyzing combustion and emissions of methanol-based-fueled spark ignition engines

Farooq,

Baig,

Wei

et al. 2025

International Journal of Hydrogen Energy

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Study on Chemical Kinetic Mechanism and Autoignition Characteristics of Isopentanol/Gasoline Surrogate Fuel

Zhang,

Suo,

Liu

et al. 2024

Journal of Energy Resources Technology

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In this paper, the detailed mechanism of isopentanol was simplified by DRGEP, generation rate analysis, reaction path optimisation and sensitivity analysis, and a comprehensive simplified mechanism of isopentanol/gasoline alternative fuels was obtained. isopentanol/gasoline characterised fuels with different blending ratios were investigated, and the results showed that blending of isopentanol promoted the autoignition of gasoline. It was found that blending isopentanol does not significantly affect the low-temperature reaction path of alkanes, but increases the reaction path flux from toluene to benzene. During combustion of isopentanol/gasoline alternative fuels, the isopentanol component exhibits a unique two-stage combustion phenomenon.

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Experimental Demonstration of a High-Power Density Electric Generator

Gore,

Nonavinakere Vinod,

Fang

2024

Journal of Engineering for Gas Turbines and Power

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Electric vehicles (EV) and hybrid powertrain vehicles are an increasingly common alternative to pure gasoline vehicles. However, most have significantly shorter drivable ranges than combustion engine vehicles, require a long waiting period to recharge, have a low specific power, or are prohibitively expensive and heavy. The goal of this work is to develop and showcase a high-power density generator, which may be used as a component in an EV or hybrid drivetrain. The generator can be used as, for example, a range extender for an EV, or a generator for hybrid powertrains where specific power is important, such as in UAVs, marine applications, motorcycles, and ATVs. Moreover, the generator of this work is constructed from commercially available components configured to be easily transportable and remain substantially lightweight. The device discussed in this work comprises a two-stroke single-cylinder gasoline engine and a compact permanent magnet brushless dynamo, assembled as a generator. The advantages of this combination include compactness, simplicity, lower weight, and high specific power. This paper discusses the design and experimental development of such a portable high-power-density power generator. The performance and emissions characteristics of the generator are investigated at varying loads and engine RPMs. During preliminary experiments, the power generator produced 8.5 kW while having a dry weight of 21 kg. Future design recommendations for the use of alternative or renewable fuels are also explored.

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Comprehensive Review on Technical Developments of Methanol-Fuel-Based Spark Ignition Engines to Improve the Performance, Combustion, and Emissions

Cited by 3 publications

References 122 publications

A concise review of developments to overcome the cold start problems by analyzing combustion and emissions of methanol-based-fueled spark ignition engines

A concise review of developments to overcome the cold start problems by analyzing combustion and emissions of methanol-based-fueled spark ignition engines

Study on Chemical Kinetic Mechanism and Autoignition Characteristics of Isopentanol/Gasoline Surrogate Fuel

Experimental Demonstration of a High-Power Density Electric Generator

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