SAE Technical Paper Series 1980
DOI: 10.4271/800133
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The Nature of Turbulent Flame Propagation in a Homogeneous Spark-Ignited Engine

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Cited by 59 publications
(17 citation statements)
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“…Similar results were reported by Liou et al [89] and Groff et al [85]. Another important finding from these studies was that the turbulence intensity in an engine was seen to be proportional to mean piston speed, [85,89,87], with a maximum turbulence intensity equal to approximately ½ [2,89,87].…”
Section: Effect Of Structured Flowssupporting
confidence: 76%
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“…Similar results were reported by Liou et al [89] and Groff et al [85]. Another important finding from these studies was that the turbulence intensity in an engine was seen to be proportional to mean piston speed, [85,89,87], with a maximum turbulence intensity equal to approximately ½ [2,89,87].…”
Section: Effect Of Structured Flowssupporting
confidence: 76%
“…Boggs and Borman [90] demonstrated that increasing in-cylinder turbulence by introducing tumble or swirl resulted in increases in peak heat flux in a motoring engine by 70%, with Overbye et al [11] showing a similar relationship between turbulence and heat transfer in a motored CFR engine. Mean gas velocities within the cylinder have also been seen to double as a result of using a shrouded intake valve versus an unshrouded valve [85]. This can be seen clearly in Figure 2.3 and Figure 2.4 above which show the effects increasing swirl in a CFR engine has on in-cylinder velocity, as well as the correlation between piston speed and flow velocity.…”
Section: Effect Of Structured Flowsmentioning
confidence: 55%
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“…This speed is called the turbulent flame speed. Groff and Matekunas (1980) indicates that the turbulent flame speed is proportional to the laminar flame speed, and a factor which increases monotonically with the turbulence intensity.…”
Section: Laminar and Turbulent Flame Speedmentioning
confidence: 99%