Modeling aerosols formed in the ring pack of a reciprocating piston
Abstract
The hydrocarbon emissions of an internal combustion engine are directly correlated with the engine's oil consumption. This oil consumption is associated with reverse blow-by, a condition in which gases flow past the ring-pack from the crankcase to the combustion chamber. This reverse blow-by breaks down the oil film on the cylinder walls and entrains oil particles in the gas flow during the downstroke of the piston. In this project a numerical model was developed that accurately describes the formation of aerosols in the ring pack by simulating the mechanisms by which oil globules are broken up, atomized, and entrained in a gas flowing through an orifice. The results of this numerical model are in good agreement with experimental values. Thus, this numerical model gives insight into the parameters that govern oil consumption. A discussion is also presented regarding the general applications of atomization and how past researchers have developed and advanced the theories of atomization. Included in this discussion is an introduction to past models of oil consumption and the conditions needed for aerosols to form within the ring-pack of a piston.
Table of Contents
Introduction -- Literature review -- CK Engineering -- Theoretical model for the test fixture -- Program structure -- Results -- Conclusion -- Future and extended research -- Appendix A. Correspondence from ATS Rheosystems to CK Engineering -- Appendix B. Results
Degree
Ph.D.