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Created by:
Last updated:
September 23, 2023
Duration:
Unlimited Duration
FREE
This course includes:
Unlimited Duration
Badge on Completion
Certificate of completion
Unlimited Duration
Description
Introduction to Boundary Layers. Instructor: Dr. Rinku Mukherjee, Department of Applied Mechanics, IIT Madras.
This course introduces the concept of a boundary layer and the physical concepts of boundary layer thickness, displacement thickness, momentum thickness and friction drag. It derives Prandtl's Boundary Layer Equations for laminar boundary layers from the basic Navier-Stokes equations and discusses their exact solutions. It discusses how a laminar boundary layer transitions to turbulence and separates. It also discusses thermal boundary layers. (from nptel.ac.in)
Course Curriculum
- Lecture 01 – Review of Fundamentals of Fluid Mechanics Unlimited
- Lecture 02 – Review of Fundamentals of Fluid Mechanics (cont.) Unlimited
- Lecture 03 – Concept of a Boundary Layer (BL) Unlimited
- Lecture 04 – Concept of a Boundary Layer (cont.) Unlimited
- Lecture 05 – Concept of Boundary Layer Thickness Unlimited
- Lecture 06 – Concepts of BL Displacement Thickness and BL Momentum Thickness Unlimited
- Lecture 07 – Control Volume Approach to Derive Expressions for Displacement Thickness … Unlimited
- Lecture 08 – Control Volume Approach to Derive Expressions for Momentum Thickness over … Unlimited
- Lecture 09 – Concept of Wall Friction Unlimited
- Lecture 10 – Concept of Friction Drag Unlimited
- Lecture 11 – Skin Friction Coefficient Unlimited
- Lecture 12 – Skin Friction Coefficient (cont.) Unlimited
- Lecture 13 – Derivation of Prandtl’s Laminar BL Equations I Unlimited
- Lecture 14 – Derivation of Prandtl’s Laminar BL Equations II Unlimited
- Lecture 15 – Derivation of Prandtl’s Laminar BL Equations III Unlimited
- Lecture 16 – Derivation of Prandtl’s Laminar BL Equations IV Unlimited
- Lecture 17 – Similarity Solutions to the BL Equations Applied to a Flat Plate I Unlimited
- Lecture 18 – Similarity Solutions to the BL Equations Applied to a Flat Plate II Unlimited
- Lecture 19 – Similarity Solutions to the BL Equations Applied to a Flat Plate III Unlimited
- Lecture 20 – Runge-Kutta Method to Numerically Solve the BL Equations Applied to a Flat Plate Unlimited
- Lecture 21 – Description of the Numerical Code to Solve the BL Equations Applied to a Flat Plate Unlimited
- Lecture 22 – Similarity Solutions to the BL Equations (Other than Flat Plate) I Unlimited
- Lecture 23 – Similarity Solutions to the BL Equations (Other than Flat Plate) II Unlimited
- Lecture 24 – Similarity Solutions to the BL Equations (Other than Flat Plate) III Unlimited
- Lecture 25 – Similarity Solutions to the BL Equations (Other than Flat Plate) IV Unlimited
- Lecture 26 – Description of the Numerical Code to Solve the BL Equations (Other than Flat Plate) Unlimited
- Lecture 27 – The Energy Equation I Unlimited
- Lecture 28 – The Energy Equation II Unlimited
- Lecture 29 – Similarity Solutions to Thermal BL I Unlimited
- Lecture 30 – Similarity Solutions to Thermal BL II Unlimited
- Lecture 31 – Similarity Solutions to Thermal BL III Unlimited
- Lecture 32 – BL Separation with Pressure Gradient I Unlimited
- Lecture 33 – BL Separation with Pressure Gradient II Unlimited
- Lecture 34 – Effect of Prandtl Number in Thermal BL I Unlimited
- Lecture 35 – Effect of Prandtl Number in Thermal BL II Unlimited
- Lecture 36 – Effect of Prandtl Number in Thermal BL III Unlimited
- Lecture 37 – Effect of Dissipation in Thermal BL I Unlimited
- Lecture 38 – Effect of Dissipation in Thermal BL II Unlimited
- Lecture 39 – Effect of Dissipation in Thermal BL III Unlimited
- Lecture 40 – Similarity Solutions to Thermal BL: Overview Unlimited
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