Effects of Port Angle on Scavenging of an Opposed Piston Two-Stroke Engine 2022-01-0590
Opposed-piston 2-stroke (OP-2S) engines have the potential to achieve higher thermal efficiency than a typical diesel engine. However, the uniflow scavenging process is difficult to control over a wide range of speeds and loads. Scavenging performance is highly sensitive to pressure dynamics, port timings, and port design. This study proposes an analysis of the effects of port vane angle on the scavenging performance of an opposed-piston 2-stroke engine via simulation. A CFD model of a three-cylinder opposed-piston 2-stroke was developed and validated against experimental data collected by Achates Power Inc. One of the three cylinders was then isolated in a new model and simulated using cycle-averaged and cylinder-averaged initial/boundary conditions. This isolated cylinder model was used to efficiently sweep port angles from 12 degrees to 29 degrees at different pressure ratios. Results indicate that scavenging performance is correlated with the bulk swirl ratio generated by these port angles. Scavenging performance is also sensitive to the pressure ratio across the engine. It was concluded that, for a given pressure ratio, the smallest port angle produces the best scavenging; however, previous work indicates lower bulk swirl ratio during combustion can have an impact on emissions formation.
Citation: O'Donnell, P., Gandolfo, J., Gainey, B., Vorwerk, E. et al., "Effects of Port Angle on Scavenging of an Opposed Piston Two-Stroke Engine," SAE Technical Paper 2022-01-0590, 2022, https://doi.org/10.4271/2022-01-0590. Download Citation
Author(s):
Patrick Christopher O'Donnell, John Gandolfo, Brian Gainey, Erik Vorwerk, Robert Prucka, Zoran Filipi, Benjamin Lawler, Randy Hessel, Sage Kokjohn, Ming Huo, Ashwin Salvi
Affiliated:
Clemson University, University of Wisconsin-Madison, Achates Power Inc.
Pages: 18
Event:
WCX SAE World Congress Experience
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Two stroke engines
Diesel / compression ignition engines
Scavenging
Pistons
Combustion and combustion processes
Engine cylinders
Engines
Computational fluid dynamics
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