SAE International Combustion Visualization, Performance, and CFD Modeling of a Pre-Chamber Turbulent Jet Ignition System in a Rapid Compression Machine 2015-01-0779

Description
Turbulent jet ignition is a pre-chamber ignition enhancement method that produces a distributed ignition source through the use of a chemically active turbulent jet which can replace the spark plug in a conventional spark ignition engine. In this paper combustion visualization and characterization was performed for the combustion of a premixed propane/air mixture initiated by a pre-chamber turbulent jet ignition system with no auxiliary fuel injection, in a rapid compression machine. Three different single orifice nozzles with orifice diameters of 1.5 mm, 2 mm, and 3 mm were tested for the turbulent jet igniter pre-chamber over a range of air to fuel ratios. The performance of the turbulent jet ignition system based on nozzle orifice diameter was characterized by considering both the 0-10 % and the 10-90 % burn durations of the pressure rise due to combustion. It was found that the 1.5 mm orifice exhibited the shortest 0-10 % burn duration, which corresponded to the fastest flame initiation. The orifice diameter did not significantly affect the 10-90 % burn duration near stoichiometric air to fuel ratios. In addition to the experimental results, further insight into the combustion process was obtained by performing computational fluid dynamic modeling, which showed similar flame propagation and jet structure.
Description
Turbulent jet ignition is a pre-chamber ignition enhancement method that produces a distributed ignition source through the use of a chemically active turbulent jet which can replace the spark plug in a conventional spark ignition engine. In this paper combustion visualization and characterization was performed for the combustion of a premixed propane/air mixture initiated by a pre-chamber turbulent jet ignition system with no auxiliary fuel injection, in a rapid compression machine. Three different single orifice nozzles with orifice diameters of 1.5 mm, 2 mm, and 3 mm were tested for the turbulent jet igniter pre-chamber over a range of air to fuel ratios. The performance of the turbulent jet ignition system based on nozzle orifice diameter was characterized by considering both the 0-10 % and the 10-90 % burn durations of the pressure rise due to combustion. It was found that the 1.5 mm orifice exhibited the shortest 0-10 % burn duration, which corresponded to the fastest flame initiation. The orifice diameter did not significantly affect the 10-90 % burn duration near stoichiometric air to fuel ratios. In addition to the experimental results, further insight into the combustion process was obtained by performing computational fluid dynamic modeling, which showed similar flame propagation and jet structure.

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Combustion Visualization, Performance, and CFD Modeling of a Pre-Chamber Turbulent Jet Ignition System in a Rapid Compression Machine - 2015-01-0779 - SAE International
Warrendale, PA, United States
Combustion Visualization, Performance, and CFD Modeling of a Pre-Chamber Turbulent Jet Ignition System in a Rapid Compression Machine
2015-01-0779
Combustion Visualization, Performance, and CFD Modeling of a Pre-Chamber Turbulent Jet Ignition System in a Rapid Compression Machine 2015-01-0779
Turbulent jet ignition is a pre-chamber ignition enhancement method that produces a distributed ignition source through the use of a chemically active turbulent jet which can replace the spark plug in a conventional spark ignition engine. In this paper combustion visualization and characterization was performed for the combustion of a premixed propane/air mixture initiated by a pre-chamber turbulent jet ignition system with no auxiliary fuel injection, in a rapid compression machine. Three different single orifice nozzles with orifice diameters of 1.5 mm, 2 mm, and 3 mm were tested for the turbulent jet igniter pre-chamber over a range of air to fuel ratios. The performance of the turbulent jet ignition system based on nozzle orifice diameter was characterized by considering both the 0-10 % and the 10-90 % burn durations of the pressure rise due to combustion. It was found that the 1.5 mm orifice exhibited the shortest 0-10 % burn duration, which corresponded to the fastest flame initiation. The orifice diameter did not significantly affect the 10-90 % burn duration near stoichiometric air to fuel ratios. In addition to the experimental results, further insight into the combustion process was obtained by performing computational fluid dynamic modeling, which showed similar flame propagation and jet structure.

Turbulent jet ignition is a pre-chamber ignition enhancement method that produces a distributed ignition source through the use of a chemically active turbulent jet which can replace the spark plug in a conventional spark ignition engine. In this paper combustion visualization and characterization was performed for the combustion of a premixed propane/air mixture initiated by a pre-chamber turbulent jet ignition system with no auxiliary fuel injection, in a rapid compression machine. Three different single orifice nozzles with orifice diameters of 1.5 mm, 2 mm, and 3 mm were tested for the turbulent jet igniter pre-chamber over a range of air to fuel ratios. The performance of the turbulent jet ignition system based on nozzle orifice diameter was characterized by considering both the 0-10 % and the 10-90 % burn durations of the pressure rise due to combustion. It was found that the 1.5 mm orifice exhibited the shortest 0-10 % burn duration, which corresponded to the fastest flame initiation. The orifice diameter did not significantly affect the 10-90 % burn duration near stoichiometric air to fuel ratios. In addition to the experimental results, further insight into the combustion process was obtained by performing computational fluid dynamic modeling, which showed similar flame propagation and jet structure.

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  SAE International
Product Category Standards and Technical Documents
Product Number 2015-01-0779
Product Name Combustion Visualization, Performance, and CFD Modeling of a Pre-Chamber Turbulent Jet Ignition System in a Rapid Compression Machine
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