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Design Data for “Cocktail Shaker” Cooled Pistons and Valves
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English
Abstract
Cocktail shaker cooling is the commonly used term to describe heat transfer in a reciprocating hollow cylinder partially filled with a liquid. The sodium filled valve is a widely used application of this heat transfer concept.
This paper presents information that may be useful in the design of cocktail shaker cooled pistons and valves. The design data are presented in nondimensional form using parameters typical of conventional convective heat transfer correlations. An illustrative problem for a piston is presented to show the application of the design data.
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Citation
Bush, J. and London, A., "Design Data for “Cocktail Shaker” Cooled Pistons and Valves," SAE Technical Paper 650727, 1965, https://doi.org/10.4271/650727.Also In
References
- Heron S. D. “History of Sodium-Cooled Piston Development.” 1958
- Colwell A. “Corrosion-Resistant Metals for Valves and Seats in Heavy-Duty Engines,” SAE Quarterly Transactions 2 1948 94
- Flynn G. Underwood A. “Adequate Piston Cooling,” SAE Transactions 53 1949 120
- Pefley R. K. “Design Analysis of a Cocktail Shaker Type Oil Cooler.” 1955
- Alcock J. F. “Heat Transfer in Internal Combustion Engines.” ASME General Discussion on Heat Transfer Sept. 1951 438
- Alcock J. “Heat Transfer in Diesel Engines.” Paper presented at Heat Transfer Conference August 1961
- London A. L. Bush J. E. Discussion of Paper No. 20, International Heat Transfer Conference August 1961
- Bush J. E. “Heat Transfer in a Reciprocating Hollow Piston Partially Filled with a Liquid.” 1961
- Bush J. E. “Heat Transfer in a Reciprocating Hollow Piston Partially Filled with a Liquid.” 1963
- Reynolds W. C. “Hydrodynamic Considerations for the Design of Systems for Very Low Gravity Environments.” 1961