Analysis of Spark-Ignition Engine Knock as Seen in Photographs Taken at 200,000 Frames Per Second
Abstract
A motion picture of the development of knock in a spark-ignition engine is presented, which consists of 20 photographs taken at intervals of 5 microseconds, or at a rate of 200,000 photographs per second, with an equivalent wide-open exposure time of 6.4 microseconds for each photograph. A motion picture of a complete combustion process, including the development of knock, taken at the rate of 40,000 photographs per second is also presented to assist the reader in orienting the photographs of the knock development taken at 200,000 frames per second. The photographs taken at 200,000 frames per second are analyzed and the conclusion is made that the type of knock in the spark-ignition engine involving violent gas vibration originates as a self-propagating disturbance starting at a point in the burning or autoigniting gases and spreading out from that point through the incompletely burned gases at a rate as high as 6800 feet per second, or about twice the speed of sound in the burned gases. Apparent formation of free carbon particles in both the burning and the burned gas is observed within 10 microseconds after passage of the knock disturbance through the gases.
Document Details
- Document Type
- Technical Report
- Publication Date
- Apr 10, 1946
- Accession Number
- ADA298209
Entities
People
- Cearcy D. Miller
- Gordon E. Osterstrom
- H. L. Olsen
- Walter O. Logan Jr.
Organizations
- Glenn Research Center