Zobrazeno 1 - 10
of 26
pro vyhledávání: '"R. G. Deissler"'
Autor:
R. G. Deissler
Publikováno v:
Reviews of Modern Physics. 56:223-254
Some turbulent solutions of the unaveraged Navier-Stokes equations (equations of fluid motion) are reviewed. Those equations are solved numerically in order to study the nonlinear physics of incompressible turbulent flow. Initial three-dimensional co
Autor:
R. G. Deissler
Publikováno v:
Journal of Fluid Mechanics. 64:763-774
The early and intermediate development of a highly accelerated (or decelerated) turbulent boundary layer is analysed. For sufficiently large accelerations (or pressure gradients) and for total normal strains which are not excessive, the equation for
Autor:
K. G. Englar, R. D. Turnacliff, H. N. McManus, R. G. Deissler, Thomas F. Irvine, Erich E. Soehngen, J. H. Robinson, D. R. Bartz, G. Morrell, R. W. Graham
Publikováno v:
Journal of Heat Transfer. 82:155-169
The survey has been divided into the following parts: Rocket-Engine Heat Sources; Rocket Cooling Techniques; Nozzle Wall Materials; Variable Fluid-Property Effects; Predictions of Thermal Properties; Flow Separation and Acoustic Effects.
Autor:
R. G. Deissler
Publikováno v:
ZAMM - Zeitschrift für Angewandte Mathematik und Mechanik. 48:87-98
Turbulence and longitudinal heat transfer for accelerating and decelerating flow using Navier- Stokes, continuity and energy equations
Autor:
R. G. Deissler, J. S. Boegli
Publikováno v:
Journal of Fluids Engineering. 80:1417-1423
An experimental study was made to determine the effective thermal conductivities of magnesium oxide, stainless steel, and uranium oxide powders in various gases. The gases included air, helium, argon, nitrogen, neon, and various mixtures of these gas
Autor:
R. G. Deissler
Publikováno v:
Journal of Mathematics and Physics. 47:310-326
Shear and normal strain effects on turbulence and turbulent heat transfer analyzed in model of turbulent boundary layer in accelerating flows
Autor:
R. G. Deissler
Publikováno v:
Journal of Fluids Engineering. 76:73-83
A previous analysis for fully developed turbulent flow and heat transfer in smooth tubes with variable fluid properties for a Prandtl number of one is generalized in order to make it applicable to air and supercritical water. Calculated velocity and
Autor:
R. G. Deissler
Publikováno v:
Journal of Fluids Engineering. 77:1221-1233
The effect of various factors on the turbulent heat transfer and friction in the entrance regions of smooth passages is investigated analytically. The influence of Reynolds number, Prandtl number, initial velocity distribution, wall-boundary conditio
Autor:
R. G. Deissler
Publikováno v:
American Journal of Physics. 44:1128-1130
The proposed approach to the derivation of the Navier-Stokes equation is thought to be more plausible and easier to understand than other derivations that can be found in works on fluid mechanics. The tensor character of the stress is central to the
Heat Transfer and Friction for Fluids Flowing Over Surfaces at High Temperatures and High Velocities
Autor:
R. G. Deissler, A. L. Loeffler
Publikováno v:
Journal of Heat Transfer. 81:89-91