Enhancing Automotive Performance: A Comparative Study of Spark Plug Electrode Configurations on Engine Behaviour and Emission Characteristics

Enhancing Automotive Performance: A Comparative Study of Spark Plug Electrode Configurations on Engine Behaviour and Emission Characteristics

This work systematically explores the impact of spark plug electrode number on engine performance and environmental effects, including noise, vibration, fuel consumption, and exhaust emissions. Indicators of combustion efficiency and mechanical health are engine vibration and noise; emissions direct...

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Bibliographic Details
Main Authors: Essam B. Moustafa, Hossameldin Hussein
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Vehicles
Subjects:
spark plug
multi-electrodes
vibration
fuel
performance
chemical emissions
Online Access:https://www.mdpi.com/2624-8921/7/2/55
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Summary:This work systematically explores the impact of spark plug electrode number on engine performance and environmental effects, including noise, vibration, fuel consumption, and exhaust emissions. Indicators of combustion efficiency and mechanical health are engine vibration and noise; emissions directly affect ecological sustainability. Four-electrode spark plugs reduce vibration by 10%, noise by 5%, and fuel economy by 15%, according to experimental results showing they outperform single-electrode designs. Especially four-electrode designs also lower harmful hydrocarbon (HC) and carbon monoxide (CO) emissions by up to 20%, indicating more complete combustion and providing significant environmental benefits through lower air pollution and greenhouse gas emissions. Reduced exhaust temperatures of surface discharge plugs indicate better combustion efficiency and perhaps help with decarbonization. With poorer emission profiles, two- and three-electrode configurations raise fuel consumption, noise, and vibration. Reduced quenching effects, improved spark distribution, and accelerated flame propagation all help to explain enhanced combustion efficiency in multi-electrode designs and so affect the fundamental combustion chemistry. These results highlight the possibilities of four-electrode spark plugs to improve engine performance and reduce environmental impact, providing information for automotive engineers and legislators aiming at strict emissions standards (e.g., Euro 7) and sustainability targets. With an eye toward the chemical processes involved, additional study is required to investigate electrode geometry, material innovations, and lifetime environmental impacts.
ISSN:2624-8921

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