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Combustion Science and Technology Volume 28, 1982 - Issue 1-2
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SHORT COMMUNICATION

The Effect of Oil Layers on the Hydrocarbon Emissions from Spark-Ignited Engines

E. W. KAISER Engineering and Research Staff, Research, Ford Motor Company, Dearborn, Michigan, 48121
,
J. A. LORUSSO Engineering and Research Staff, Research, Ford Motor Company, Dearborn, Michigan, 48121
,
G. A. LAVOIE Engineering and Research Staff, Research, Ford Motor Company, Dearborn, Michigan, 48121
&
A. A. ADAMCZYK Engineering and Research Staff, Research, Ford Motor Company, Dearborn, Michigan, 48121
Pages 69-73 | Received 28 Aug 1981, Accepted 30 Oct 1981, Published online: 10 May 2007

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P. J. BENNETT, D. GREGORY & R. A. JACKSON. (1996) Mechanistic Studies on the Combustion of Isotopically Labelled Cyclohexanes within a Single Cylinder Internal Combustion Engine. Combustion Science and Technology 115:1-3, pages 83-103.
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J. R. LINNA & S. HOCHGREB. (1995) Analytical Scaling Model for Hydrocarbon Emissions From Fuel Absorption in Oil Layers in Spark Ignition Engines. Combustion Science and Technology 109:1-6, pages 205-226.
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ANDREW A. ADAMCZYK & RAYMOND A. KACH. (1986) The Effect of Engine Deposit Layers on Hydrocarbon Emissions from Closed Vessel Combustion. Combustion Science and Technology 47:3-4, pages 193-208.
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ANDREWA. ADAMCZYK, WALTERG. ROTHSCHILD & E. W. KAISER. (1985) The Effect of Fuel and Oil Structure on Hydrocarbon Emissions from Oil Layers during Closed Vessel Combustion. Combustion Science and Technology 44:3-4, pages 113-124.
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J. A. Caton, J. B. Heywood & J. V. Mendillo. (1984) A Numerical Study of Tunnel Fires. Combustion Science and Technology 37:3-4, pages 153-169.
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A. A. ADAMCZYK & R. A. KACH. (1984) The Effect of Oil Layers on Hydrocarbon Emissions: Low Solubility Oils. Combustion Science and Technology 36:5-6, pages 227-234.
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E. W. KAISER, W. G. ROTHSCHILD & G. A. LAVOIE. (1984) Storage and Partial Oxidation of Unburned Hydrocarbons in Spark-Ignited Engines - Effect of Compression Ratio and Spark Timing. Combustion Science and Technology 36:3-4, pages 171-189.
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J. A. Lorusso, E. W. Kaiser & G. A. Lavoie. (1983) In-Cylinder Measurements of Wall Layer Hydrocarbons in a Spark Ignited Engine. Combustion Science and Technology 33:1-4, pages 75-112.
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E. W. KAISER, W. G. ROTHSCHILD & G. A. LAVOIE. (1983) The Effect of Fuel and Operating Variables on Hydrocarbon Species Distributions in the Exhaust from a Multicylinder Engine. Combustion Science and Technology 32:5-6, pages 245-265.
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M. N. A. M. Yusoff, N. W. M. Zulkifli, B. M. Masum & H. H. Masjuki. (2015) Feasibility of bioethanol and biobutanol as transportation fuel in spark-ignition engine: a review. RSC Adv. 5:121, pages 100184-100211.
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V. M. Salazar & J. B. Ghandhi. Discussion of the Role of Fuel-Oil Diffusion in the Hydrocarbon Emissions from a Small Engine. Discussion of the Role of Fuel-Oil Diffusion in the Hydrocarbon Emissions from a Small Engine.
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S. Diana, V. Giglio, B. Iorio & G. Police. A Model Based Evaluation of Emissions for Manifold Injected SI Engines. A Model Based Evaluation of Emissions for Manifold Injected SI Engines.
N.A Henein & M.K Tagomori. (1999) Cold-start hydrocarbon emissions in port-injected gasoline engines. Progress in Energy and Combustion Science 25:6, pages 563-593.
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J. A. Eng, W. R. Leppard, P. M. Najt & F. L. Dryer. Experimental Hydrocarbon Consumption Rate Correlations From a Spark Ignition Engine. Experimental Hydrocarbon Consumption Rate Correlations From a Spark Ignition Engine.
A Thomson, C. D. Radcliffe & C. M. Taylor. (2005) The influence of piston ring tribology on the diffusion of fuel through oil films. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 211:3, pages 223-233.
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J. R. Sodré & D. A. Yates. An Improved Model for Spark Ignition Engine Exhaust Hydrocarbons. An Improved Model for Spark Ignition Engine Exhaust Hydrocarbons.
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Charles F. Windisch,, Gregory J. Exarhos, Ralph E. Williford & Shiv K. Sharma. (1996) Time-Resolved Raman Measurements of Hydrocarbon Interactions with Poly-α-olefin Films. The Journal of Physical Chemistry 100:51, pages 19986-19993.
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N.A. Henein, M.K. Tagomori, M.K. Yassine, T.W. Asmus, C.P. Thomas & P.G. Hartman. Cycle-by-Cycle Analysis of HC Emissions During Cold Start of Gasoline Engines. Cycle-by-Cycle Analysis of HC Emissions During Cold Start of Gasoline Engines.
Stephen G. Russ, Edward W. Kaiser, Walter O. Siegl, Diane H. Podsiadlik & Kathy M. Barrett. Compression Ratio and Coolant Temperature Effects on HC Emissions from a Spark- Ignition Engine. Compression Ratio and Coolant Temperature Effects on HC Emissions from a Spark- Ignition Engine.
A. C. Alkidas. The Effects of Fuel Preparation on Hydrocarbon Emissions of a S.I. Engine Operating Under Steady-State Conditions. The Effects of Fuel Preparation on Hydrocarbon Emissions of a S.I. Engine Operating Under Steady-State Conditions.
F. H. Trinker, J. Cheng & G. C. Davis. A Feedgas HC Emission Model for SI Engines Including Partial Burn Effects. A Feedgas HC Emission Model for SI Engines Including Partial Burn Effects.
Eric W. Schneider, Daniel H. Blossfeld, Donald C. Lechman, Robert F. Hill, Richard F. Reising & John E. Brevick. Effect of Cylinder Bore Out-of-Roundness on Piston Ring Rotation and Engine Oil Consumption. Effect of Cylinder Bore Out-of-Roundness on Piston Ring Rotation and Engine Oil Consumption.
J. W. Fox, K. D. Min, W. K. Cheng & John B. Heywood. Mixture Preparation in a SI Engine with Port Fuel Injection During Starting and Warm-Up. Mixture Preparation in a SI Engine with Port Fuel Injection During Starting and Warm-Up.
M.S. Nagesh, K.R. Govinda Mallan & K.V. Gopalakrishnan. Experimental Investigation on Extended Expansion Engine (EEE). Experimental Investigation on Extended Expansion Engine (EEE).
B. Gatellier, J. Trapy, D. Herrier, J.M. Quelin & F. Galliot. Hydrocarbon Emissions of SI Engines as Influenced by Fuel Absorption-Desorption in Oil Films. Hydrocarbon Emissions of SI Engines as Influenced by Fuel Absorption-Desorption in Oil Films.
F.H. Trinker, R.W. Anderson, Y.I Henig, W.O. Siegl & E.W. Kaiser. The Effect of Fuel-Oil Solubility on Exhaust HC Emissions. The Effect of Fuel-Oil Solubility on Exhaust HC Emissions.
Andrew A. Adamczyk & Raymond A. Kach. (1985) A combustion bomb study of fuel-oil solubility and HC emissions from oil layers. Symposium (International) on Combustion 20:1, pages 37-43.
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William G. Agnew. (1985) Room at the piston top contributions of combustion science to engine design. Symposium (International) on Combustion 20:1, pages 1-17.
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A. C. Alkidas. Hydrocarbon Emissions from a Single-Cylinder, Divided-Chamber Diesel Engine. Hydrocarbon Emissions from a Single-Cylinder, Divided-Chamber Diesel Engine.
J. A. LoRusso, G. A. Lavoie, R. L. Forgacs, R. A. Jeryan & J. Errante. (1984) Electrohydraulic gas sampling valve. Review of Scientific Instruments 55:5, pages 786-792.
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S.C. Medina, R.M. Green & J.R. Smith. Optical Measurements of Hydrocarbons Emitted from a Simulated Crevice Volume in an Engine. Optical Measurements of Hydrocarbons Emitted from a Simulated Crevice Volume in an Engine.
Mark Saffman. (1984) Parametric studies of a side wall quench layer. Combustion and Flame 55:2, pages 141-159.
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P.F. Nelson & S.M. Quigley. (1984) The hydrocarbon composition of exhaust emitted from gasoline fuelled vehicles. Atmospheric Environment (1967) 18:1, pages 79-87.
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J. C. Dent & P. A. Lakshminarayanan. A Model for Absorption and Desorption of Fuel Vapour by Cylinder Lubricating Oil Films and Its Contribution to Hydrocarbon Emissions. A Model for Absorption and Desorption of Fuel Vapour by Cylinder Lubricating Oil Films and Its Contribution to Hydrocarbon Emissions.

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