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Fundamentals of Transport Processes II

Fundamentals of Transport Processes II. Instructor: Prof. V. Kumaran, Department of Chemical Engineering, IISc Bangalore. The objective of this course is to provide a fundamental understanding of momentum transport and fluid mechanics. Topics covered in this course include vectors and tensors, vector calculus, curvilinear coordinates, kinematics, rate of deformation tensor, mass and momentum conservation equations, boundary conditions, mechanical flow equation, unidirectional flow, viscous flows, torque on rotating sphere, effective viscosity of a suspension, lubrication flow, inertia of low Reynolds number, potential flow, boundary layer theory, Falkner-Boundary layer solutions, and vorticity dynamics. (from nptel.ac.in)

Lecture 06 - Curvilinear Coordinates


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Lecture 01 - Review of Fundamentals of Transport Processors
Lecture 02 - Introduction
Lecture 03 - Vectors and Tensors
Lecture 04 - Vector Calculus
Lecture 05 - Vector Calculus (cont.)
Lecture 06 - Curvilinear Coordinates
Lecture 07 - Kinematics
Lecture 08 - Rate of Deformation Tensor
Lecture 09 - Mass Conservation Equation
Lecture 10 - Momentum Conservation Equation
Lecture 11 - Angular Momentum Conservation Equation
Lecture 12 - Boundary Conditions
Lecture 13 - Mechanical Energy Conservation
Lecture 14 - Unidirectional Flow
Lecture 15 - Viscous Flows
Lecture 16 - Viscous Flows (cont.)
Lecture 17 - Flow around a Sphere
Lecture 18 - Force on Moving Sphere
Lecture 19 - Torque on Rotating Sphere
Lecture 20 - Effective Viscosity of a Suspension
Lecture 21 - Flow in a Corner
Lecture 22 - Lubrication Flow
Lecture 23 - Lubrication Flow (cont.)
Lecture 24 - Inertia of Low Reynolds Number
Lecture 25 - Potential Flow
Lecture 26 - Potential Flow around a Sphere
Lecture 27 - Two-dimensional Potential Flow
Lecture 28 - Two-dimensional Potential Flow (cont.)
Lecture 29 - Flow around a Cylinder
Lecture 30 - Conformal Transforms in Potential Flow
Lecture 31 - Boundary Layer Theory
Lecture 32 - Boundary Layer past a Flat Plate
Lecture 33 - Stagnation Point Flow
Lecture 34 - Falkner-Boundary Layer Solutions
Lecture 35 - Falkner-Boundary Layer Solutions (cont.)
Lecture 36 - Vorticity Dynamics
Lecture 37 - Vorticity Dynamics (cont.)
Lecture 38 - Turbulence
Lecture 39 - Turbulence (cont.)
Lecture 40 - Turbulence Flow in a Channel