This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
A METHOD FOR PREDICTING PRESSURE DROPS IN PNEUMATIC COMPONENTS AND SYSTEMS
Annotation ability available
Sector:
Language:
English
Abstract
Recommended Content
Topic
Citation
SLAWSKY, M., SCHMIDLIN, A., and LUTZKY, M., "A METHOD FOR PREDICTING PRESSURE DROPS IN PNEUMATIC COMPONENTS AND SYSTEMS," SAE Technical Paper 530082, 1953, https://doi.org/10.4271/530082.Also In
References
- Cunningham R. C. “Super-critical compressible flow through a square-edged orifice”. Proceedings of the Midwestern Conference on Fluid Dynamics University of Illinois 1 May 1950 Edward Bros., Inc. Ann Arbor, Mich. 1951
- Kestin J. Oppenheim A. K. “The calculation of compressible fluid flow by the use of a generalized entropy chart” Proc. Inst. Mech. Engrs. 159 313 34 1948
- Shapiro A. H. Hawthorne W. R. “The mechanics and thermodynamics of steady one-dimensional gas flow” Journal of Applied Mechanics 14 A-317 Dec. 1947
- Bailey N. P. “The thermodynamics of air at high velocities” Journal of the Aeronautical Sciences 11 227 July 1944
- Stanton T. “The flow of gases at high speeds” Proceedings of the Royal Society, Series A 111 306 1926
- Rockwell R. A. “Valve sizing accuracy”. Instrumentation 6 1952
- Iberall A. S. “Pressure drops in oxygen equipment” National Bureau of Standards Report No. 1115 1951
- Wildhack W. A. “A versatile pneumatic instrument based on critical flow” Rev. of Scientific Instr. 1 21 25 January 1950
- Robinson C. S. L. “Flow of a compressible fluid through a series of identical orifices” Journal of Applied Mechanics 15 308 10 December 1948
- Wells W. H. “Theory of pneumatics”. Westinghouse Air Brake Company 1945
- Buckingham E. “Note on contraction coefficients for jets of gas” J. Research, National Bureau of Standards 6 765 1931
- Hall N. A. Thermodynamics of Fluid Flow. Prentice-Hall, Inc. New York 1951