Air Motion in a Two Stroke Engine Cylinder — The Effects of Exhaust Geometry

Air Motion in a Two Stroke Engine Cylinder — The Effects of Exhaust Geometry

Air motion in one cylinder of a Detroit Diesel 6V-92 two stroke diesel engine was studied under steady flow bench test conditions by a laser Doppler anemometer and an axisymmetric finite difference fluid dynamic model. The effects of four different exhaust opening geometries were explored. Measureme...

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Veröffentlicht in:SAE transactions 1982-01, Vol.91 (3), p.2534-2544
Hauptverfasser: Sung, Nak Won, Patterson, Donald J.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Axial flow
Cylinders
Engines
Engines and turbines
Exact sciences and technology
Flow velocity
Geometric planes
Geometry
Inlets
Internal combustion engines: gazoline engine, diesel engines, etc
Lasers
Mechanical engineering. Machine design
Scavenging
Velocity distribution
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Zusammenfassung:Air motion in one cylinder of a Detroit Diesel 6V-92 two stroke diesel engine was studied under steady flow bench test conditions by a laser Doppler anemometer and an axisymmetric finite difference fluid dynamic model. The effects of four different exhaust opening geometries were explored. Measurements and calculations showed that the swirl induced by the 18 angled inlet ports produced non-uniform axial velocity profiles and large peaks in the mid-radius region (between cylinder center and wall). The exhaust opening geometry in the head of the cylinder influenced these axial velocity fields especially in the upper region of the cylinder. The study concluded that more uniform flow, which is favorable to the scavenging process, can be achieved by an exhaust opening located close to the cylinder periphery.
ISSN:0096-736X
2577-1531