A review of high-speed, convective, heat-transfer computation methods
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A review of high-speed, convective, heat-transfer computation methods

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Published by National Aeronautics and Space Administration, Office of Management, Scientific and Technical Information Division in [Washington, D.C.] .
Written in English

Subjects:

  • Aerodynamic heating.,
  • Heat -- Transmission.,
  • Aerodynamic heating.,
  • Computation.,
  • Convective heat transfer.,
  • Laminar boundary layer.,
  • Separated flow.,
  • Shock heating.,
  • Turbulent boundary layer.

Book details:

Edition Notes

StatementMichael E. Tauber.
SeriesNASA technical paper -- 2914.
ContributionsUnited States. National Aeronautics and Space Administration. Scientific and Technical Information Division.
The Physical Object
FormatMicroform
Paginationiv, 33 p.
Number of Pages33
ID Numbers
Open LibraryOL18225830M

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  An illustration of an open book. Books. An illustration of two cells of a film strip. Video An illustration of an audio speaker. convective, heat-transfer computation methods Item Preview remove-circle A review of high-speed, convective, heat-transfer computation methods by Tauber, Michael E. Publication date {{Citation | title=A review of high-speed, convective, heat-transfer computation methods [microform] / Michael E. Tauber | author1=Tauber, Michael E | author2=United States. National Aeronautics and Space Administration. @inproceedings{TauberARO, title={A review of high-speed, convective, heat-transfer computation methods}, author={Michael E. Tauber}, year={} } Michael E. Tauber The objective of this report is to provide useful engineering formulations and to instill a modest degree of physical understanding of the phenomena governing convective. A Review of High-Speed, Convective, Heat-Transfer Computation Methods Michael E. Tauber Ames Research Center Moffett Field, California. NOMENCLATURE B C C1 cf Cp D F f g H H h h' J k k L Le M fil m Nu Pr P pp Ps _kv r rn mass-addition parameter (Eq. The objective of this review is to provide useful greatly simplified the computation and.

The objective of this report is to provide useful engineering formulations and to instill a modest degree of physical understanding of the phenomena governing convective aerodynamic heating at high flight speeds. Some physical insight is not only essential to the application of the information presented here, but also to the effective use of computer codes which may be . Formulations useful for engineering formulations are sought, with a view to a clearer physical understanding, of the phenomena that govern convective aerodynamic heating at the elevated speeds encountered in atmospheric missile trajectories. After discussing cold-wall laminar boundary layer heating, the complex boundary layer transition phenomenon and cold-wall .   Michael E. Tauber, A Review of High-Speed, Convective, Heat Transfer Computation Methods, NASA Technical Paper, , e degrees of freedom are restricted in all the three directions to hold the panel optimally in position. M. E. Tauber, A review of high speed convective, heat transfer computation methods, NASA Technical Paper , J. R. Nowak, Gasjet and tangent slot cooling film tests of a ° Cone at Mach Number of , NASA Technical Paper ,

A review of high-speed, convective, heat-transfer computation methods. By Michael E. Tauber. Finite-difference method-based CFD code results are evaluated Topics: FLUID MECHANICS AND HEAT TRANSFER. Year: OAI identifier: oai: Provided.   2. Michael E T. A Review of High-Speed Convective, Heat-Transfer Computation Methods, TP Moffett Field: NASA, Google Scholar. Convection heat transfer calculation is typically based on the expansion of single tube row heat transfer to multiple rows. Single tube row heat transfer is often approximated by various heat transfer equations (Brandt, ).Note that, for wider applicability, the laminar flow region equation and the turbulent flow region equation are bound together in a single equation.   Thus the book is highly recommended reading for those wishing to be familiar with practical numerical modelling in fluid mechanics." (Zentralblatt Math , , page 87) "This monograph describes physical and computational aspects of convective heat transfer, together with recent advances in numerical methods and turbulence modelling. .