Numerical Prediction of Flow, Heat Transfer, Turbulence, and Combustion: Selected Works of Professor D. Brian Spalding |
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Contents
Selected Papers | 9 |
A twoparameter model of turbulence and its application to free jets | 22 |
Concentration fluctuations in a round turbulent free | 51 |
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agreement axial velocity boundary conditions boundary layer burner calculation procedure chemical kinetics coefficient combustion comparison concentration constants continuity equation control volume convection coordinate cross-stream D. B. Spalding density dependent variables differential equations diffusion diffusion flames direction dissipation rate distribution downstream duct effects enthalpy ESCIMO experiment experimental data Figure finite-difference flame flow rate fluctuations fluid flux fuel fully developed furnace grid nodes heat transfer Heff Imperial College inlet iterative kinetic energy laminar longitudinal mass flow rate Mass Transfer measurements Mech Mechanical Engineering method model of turbulence momentum equations Nusselt paper partially-parabolic Patankar pipe plane Prandtl number pressure field problem quantities radial reactor recirculation region Reynolds number shear stress solution procedure solved stream temperature profiles three-dimensional time-mean tion tubes turbulence model turbulent flow turbulent kinetic energy two-dimensional upstream values variation velocity components velocity profiles vertical viscosity wall Δημ ди др дх