Fundamentals of Transport Processes by V. Kumaran (IISc Bangalore)

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source: nptelhrd     2012年6月19日
Chemical - Fundamentals of Transport Processes by Prof. V. Kumaran, Department of Chemical Engineering, IISc Bangalore. For more details on NPTELvisit http://nptel.iitm.ac.in

Lec-01 Introduction 58:04
Lec-02 Dimensional Analysis 58:33
Lec-03 Dimensional Analysis contd. 58:19
Lec-04 Physical Interpretation of Dimensional Groups 58:12
Lec-05 Continuum description 57:15
Lec-06 Mechanisms of diffusion - I 57:55
Lec-07 Mechanisms of diffusion - II 57:05
Lec-08 Unidirectional Transport Cartesian Coordinates - I 57:52
Lec-09 Unidirectional Transport Cartesian Coordinates - II Similarity Solutions 57:09
Lec-10 Unidirectional Transport Cartesian Coordinates - III Similarity Solutions 56:21
Lec-11 Unidirectional Transport Cartesian Coordinates - IV Seperation of Variables 55:36
Lec-12 Unidirectional Transport Cartesian Coordinates - V Seperation of Variables 57:13
Lec-13 Unidirectional Transport Cartesian Coordinates - VI Oscillatory Flows 56:07
Lec-14 Unidirectional Transport Cartesian Coordinates - VII Momentum Source in the Flow 57:10
Lec-15 Unidirectional Transport Cartesian Coordinates - VIII Heat & Mass Sources 56:51
Lec-16 Unidirectional Transport Cylindrical Coordinates - I Conservation Equations 57:12
Lec-17 Unidirectional Transport Cylindrical Coordinates - II Similarity Solutions 56:47
Lec-18 Unidirectional Transport Cylindrical Coordinates - III Seperation of Variables 57:15
Lec-19 Unidirectional Transport Cylindrical Coordinates - IV Steady flow in a pipe 57:04
Lec-20 Unidirectional Transport Cylindrical Coordinates - V Oscillatory flow in a pipe 53:52
Lec-21 Unidirectional Transport Cylindrical Coordinates - VI 55:01
Lec-22 Unidirectional Transport Cylindrical Coordinates - VII 56:06
Lec-23 Unidirectional Transport Spherical Coordinates - I Balance Equation 57:35
Lec-24 Unidirectional Transport Spherical Coordinates - II Seperation of Variables 57:30
Lec-25 Mass & Energy Conservation Cartesian Coordinates 57:17
Lec-26 Mass & Energy Conservation Cartesian Coordinates Heat Conduction in a Cube 56:11
Lec-27 Mass & Energy Conservation Spherical Coordinates Balance Laws 58:04
Lec-28 Mass & Energy Conservation Cylindrical Coordinates 56:25
Lec-29 Diffusion Equation Spherical Co-ordinates Seperation of Variables 56:23
Lec-30 Diffusion Equation Spherical Co-ordinates Seperation of Variables contd. 57:13
Lec-31 Diffusion Equation Spherical Co-ordinates Effective Conductivity of a Composite 57:58
Lec-32 Diffusion Equation Spherical Harmonics 58:22
Lec-33 Diffusion Equation Delta Functions 57:50
Lec-34 Diffusion Equation Multipole Expansions 58:25
Lec-35 Diffusion Equation Oreens Function Formulations 58:27
Lec-36 High Peclet Number Transport Flow Past a Flat Plate 58:37
Lec-37 High Peclet Number Transport Heat Transfer from a Spherical Particle - I 56:42
Lec-38 High Peclet Number Transport Heat Transfer from a Spherical Particle - II 58:37
Lec-39 High Peclet Number Transport Heat Transfer from a Gas Bubble 58:02
Lec-40 Summary 58:17

Fundamentals of Transport Processes - II by V. Kumaran (IISc Bangalore)

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source: nptelhrd      2014年2月20日
Chemical - Fundamentals of Transport Processes - II by Prof. V. Kumaran, Department of Chemical Engineering, IISc Bangalore. For more details on NPTEL visit http://nptel.ac.in

Lec-01 Review of Fundamentals of Transport Processors I 59:31
Lec-02 Introduction 58:48
Lec-03 Vectors and Tensors 1:00:00
Lec-04 Vector calculus 59:50
Lec-05 Vector calculus 1:00:00
Lec-06 Curvilinear co-ordinates 1:00:49
Lec-07 Kinematics 58:21
Lec-08 Rate of deformation tensor 59:49
Lec-09 Mass conservation equation 58:45
Lec-10 Momentum conservation equation 59:37
Lec-11 Angular momentum conservation equation 58:02
Lec-12 Boundary conditions 1:00:11
Lec-13 Mechanical energy conservation 58:19
Lec-14 Unidirectional flow 1:00:20
Lec-15 Viscous flows 59:11
Lec-16 Viscous flows 59:26
Lec-17 Flow around a sphere 56:19
Lec-18 Force on moving sphere 58:45
Lec-19 Torque on rotating sphere 58:59
Lec-20 Effective viscosity of a suspension 59:52
Lec-21 Flow in a corner 59:12
Lec-22 Lubrication flow 59:20
Lec-23 Lubrication flow 59:40
Lec-24 Inertia of a low Reynolds number 56:56
Lec-25 Potential flow 58:37
Lec-26 Potential flow around a sphere 55:42
Lec-27 Two-dimensional potential flow 57:58
Lec-28 Two-dimensional potential flow 58:00
Lec-29 Flow around a cylinder 56:03
Lec-30 Conformal transforms in potential flow 57:27
Lec-31 Boundary layer theory 58:33
Lec-32 Boundary layer past a flat plate 59:01
Lec-33 Stagnation point flow 56:58
Lec-34 Falkner-Skan Boundary Layer Solutions 58:13
Lec-35 Falkner-Skan Boundary Layer Solutions 59:36
Lec-36 Vorticity Dynamics 59:52
Lec-37 Vorticity Dynamics 56:22
Lec-38 Turbulence 58:15
Lec-39 Turbulence 59:24
Lec-40 Turbulent flow in a channel 59:06