A Study of Volumetric Ignition Using High-Speed Plasma for Improving Lean Combustion Performance in Internal Combustion Engines

It is well known that ultra-lean combustion can result in higher thermal efficiency, better fuel economy, and greatly reduced NOx emissions. Accomplishing ultra-lean combustion is very difficult with a conventional spark plug, and ignition instability can be cited as one of the factors. Therefore, i...

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Veröffentlicht in:	SAE International journal of engines 2009-01, Vol.1 (1), p.399-408, Article 2008-01-0466
Hauptverfasser:	Shiraishi, Taisuke, Kakuho, Akihiko, Urushihara, Tomonori, Cathey, Charles, Tang, Tao, Gundersen, Martin
Format:	Artikel
Sprache:	eng
Schlagworte:	Air gaps Arc discharges Combustion Cylindrical plasmas Electric arcs Electric discharges Electric field strength Electric potential Electric sparks Electrodes Electrons Energy consumption Engines Flames Fuel economy Gasoline engines High speed Ignition Ignition systems Internal combustion engines Nitrogen oxides Plasma Pulse generators Short pulses Spark ignition Spark plugs Thermodynamic efficiency
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container_title	SAE International journal of engines
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creator	Shiraishi, Taisuke Kakuho, Akihiko Urushihara, Tomonori Cathey, Charles Tang, Tao Gundersen, Martin
description	It is well known that ultra-lean combustion can result in higher thermal efficiency, better fuel economy, and greatly reduced NOx emissions. Accomplishing ultra-lean combustion is very difficult with a conventional spark plug, and ignition instability can be cited as one of the factors. Therefore, it is thought that ignition system innovation is important for the achievement of ultra-lean combustion in gasoline engines. This study investigated high-speed plasma ignition as a new ignition system for internal combustion engines. High-speed plasma refers to the transient (non-equilibrated) phase of plasma before formation of an arc discharge; it is obtained by applying high voltage with an ultra-short pulse between coaxial cylindrical electrodes. High-speed plasma can inherently form a multi-channel discharge, with the electrical discharge spreading over a much larger volume than a spark discharge does. Accordingly, it is expected to achieve volumetric ignition different from the point ignition of a conventional spark plug. The results of verification experiments conducted with a single-cylinder engine showed that volumetric ignition was achieved with low energy consumption. It was also confirmed that ignitability was improved in comparison with a conventional spark plug. It was observed that the electric field strength in the air gap between the coaxial cylindrical electrodes during high-speed plasma formation was increased more by applying a shorter pulse. It was also clarified experimentally that the shorter pulse improved ignitability even further.
doi_str_mv	10.4271/2008-01-0466
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Accomplishing ultra-lean combustion is very difficult with a conventional spark plug, and ignition instability can be cited as one of the factors. Therefore, it is thought that ignition system innovation is important for the achievement of ultra-lean combustion in gasoline engines. This study investigated high-speed plasma ignition as a new ignition system for internal combustion engines. High-speed plasma refers to the transient (non-equilibrated) phase of plasma before formation of an arc discharge; it is obtained by applying high voltage with an ultra-short pulse between coaxial cylindrical electrodes. High-speed plasma can inherently form a multi-channel discharge, with the electrical discharge spreading over a much larger volume than a spark discharge does. Accordingly, it is expected to achieve volumetric ignition different from the point ignition of a conventional spark plug. 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subjects	Air gaps Arc discharges Combustion Cylindrical plasmas Electric arcs Electric discharges Electric field strength Electric potential Electric sparks Electrodes Electrons Energy consumption Engines Flames Fuel economy Gasoline engines High speed Ignition Ignition systems Internal combustion engines Nitrogen oxides Plasma Pulse generators Short pulses Spark ignition Spark plugs Thermodynamic efficiency
title	A Study of Volumetric Ignition Using High-Speed Plasma for Improving Lean Combustion Performance in Internal Combustion Engines
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