Newman Lectures on Transport Phenomena
portes grátis
Newman Lectures on Transport Phenomena
Battaglia, Vincent; Newman, John
Pan Stanford Publishing Pte Ltd
11/2020
314
Dura
Inglês
9789814774277
15 a 20 dias
760
Descrição não disponível.
1. Conservation Laws and Transport Laws. 2. Fluid Mechanics. 3. Microscopic Interpretation of the Momentum Flux. 4. Heat Transfer in a Pure Fluid. 5. Concentrations and Velocities in Mixtures. 6. Material Balances and Diffusion. 7. Relaxation Time for Diffusion. 8. Multicomponent Diffusion. 9. Heat Transfer in Mixtures. 10. Transport Properties. 11. Entropy Production. 12. Coupled Transport Processes. 13. Introduction. 14. Simple Flow Solutions. 15. Stokes Flow Past a Sphere. 16. Flow to a Rotating Disk. 17. Singular-Perturbation Expansions. 18. Creeping Flow Past a Sphere. 19. Mass Transfer to a Sphere in Stokes Flow. 20. Mass Transfer to a Rotating Disk. 21. Boundary-Layer Treatment of a Flat Plate. 22. Boundary-Layer Equations of Fluid Mechanics. 23. Curved Surfaces and Blasius Series. 24. The Diffusion Boundary Layer. 25. Blasius Series for Mass Transfer. 26. Graetz-Nusselt-Leveque Problem. 27. Natural Convection. 28. High Rates of Mass Transfer. 29. Heterogeneous Reaction at a Flat Plate. 30. Mass Transfer to the Rear of a Sphere in Stokes Flow. 31. Spin Coating. 32. Stefan-Maxwell Mass Transport. 33. Turbulent Flow and Hydrodynamic Stability. 34. Time Averages and Turbulent Transport. 35. Universal Velocity Profile and Eddy Viscosity. 36. Turbulent Flow in a Pipe. 37. Integral Momentum Method for Boundary Layers. 38. Use of Universal Eddy Viscosity for Turbulent Boundary Layers. 39. Mass Transfer in Turbulent Flow. 40. Mass Transfer in Turbulent Pipe Flow. 41. Mass Transfer in Turbulent Boundary Layers. 42. New Perspective in Turbulence.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Ordinary Differential Equations;Electrochemical society;Molar Average Velocity;Multicomponent diffusion;Average Nusselt Number;Entropy production;Newman Lectures;Navier-Stokes equation;Boundary Layer;Hydrodynamic Boundary Layer;Universal Velocity Profile;Convective Diffusion;Eddy Viscosity;Boundary Layer Equation;Turbulent Boundary Layer;Schmidt Number;Stokes Flow;Diffusion Layer;Continuity Equation;Velocity Derivative;Mass Transfer Rate;Nusselt Number;Boundary Layer Problem;Eddy Diffusivity;Turbulent Flow;Reynolds Number;Velocity Profile;Mass Transfer;Flat Plate
1. Conservation Laws and Transport Laws. 2. Fluid Mechanics. 3. Microscopic Interpretation of the Momentum Flux. 4. Heat Transfer in a Pure Fluid. 5. Concentrations and Velocities in Mixtures. 6. Material Balances and Diffusion. 7. Relaxation Time for Diffusion. 8. Multicomponent Diffusion. 9. Heat Transfer in Mixtures. 10. Transport Properties. 11. Entropy Production. 12. Coupled Transport Processes. 13. Introduction. 14. Simple Flow Solutions. 15. Stokes Flow Past a Sphere. 16. Flow to a Rotating Disk. 17. Singular-Perturbation Expansions. 18. Creeping Flow Past a Sphere. 19. Mass Transfer to a Sphere in Stokes Flow. 20. Mass Transfer to a Rotating Disk. 21. Boundary-Layer Treatment of a Flat Plate. 22. Boundary-Layer Equations of Fluid Mechanics. 23. Curved Surfaces and Blasius Series. 24. The Diffusion Boundary Layer. 25. Blasius Series for Mass Transfer. 26. Graetz-Nusselt-Leveque Problem. 27. Natural Convection. 28. High Rates of Mass Transfer. 29. Heterogeneous Reaction at a Flat Plate. 30. Mass Transfer to the Rear of a Sphere in Stokes Flow. 31. Spin Coating. 32. Stefan-Maxwell Mass Transport. 33. Turbulent Flow and Hydrodynamic Stability. 34. Time Averages and Turbulent Transport. 35. Universal Velocity Profile and Eddy Viscosity. 36. Turbulent Flow in a Pipe. 37. Integral Momentum Method for Boundary Layers. 38. Use of Universal Eddy Viscosity for Turbulent Boundary Layers. 39. Mass Transfer in Turbulent Flow. 40. Mass Transfer in Turbulent Pipe Flow. 41. Mass Transfer in Turbulent Boundary Layers. 42. New Perspective in Turbulence.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Ordinary Differential Equations;Electrochemical society;Molar Average Velocity;Multicomponent diffusion;Average Nusselt Number;Entropy production;Newman Lectures;Navier-Stokes equation;Boundary Layer;Hydrodynamic Boundary Layer;Universal Velocity Profile;Convective Diffusion;Eddy Viscosity;Boundary Layer Equation;Turbulent Boundary Layer;Schmidt Number;Stokes Flow;Diffusion Layer;Continuity Equation;Velocity Derivative;Mass Transfer Rate;Nusselt Number;Boundary Layer Problem;Eddy Diffusivity;Turbulent Flow;Reynolds Number;Velocity Profile;Mass Transfer;Flat Plate
