Lecture 1 - Modes of Heat Transfer
Lecture 2 - Introduction to Conduction Heat Transfer
Lecture 3 - Fourier’s Law and Thermal Conductivity
Lecture 4 - Heat Conduction Equation
Lecture 5 - Solution of One-dimensional Steady Conduction Equation
Lecture 6 - Thermal Resistance
Lecture 7 - Contact Resistance and Internal Thermal Energy Generation
Lecture 8 - Extended Surface Heat Transfer-Fins
Lecture 9 - Heat Transfer in Fins, Effectiveness and Efficiency - 1
Lecture 10 - Heat Transfer in Fins, Effectiveness and Efficiency - 2
Lecture 11 - Two-dimensional Steady Conduction - Solution by Separation of Varaibles - 1
Lecture 12 - Two-dimensional Steady Conduction - Solution by Separation of Varaibles - 2
Lecture 13 - Two-dimensional Steady Conduction - Separation of Variables and Graphical Method
Lecture 14 - Numerical Solutions of Conduction Equation - 1
Lecture 15 - Numerical Solutions of Conduction Equation - 2
Lecture 16 - Unsteady Heat Conduction - Introduction
Lecture 17 - Lumped Capacitance Model for Transient Conduction
Lecture 18 - Transient Conduction for High or Moderate Biot Number Cases
Lecture 19 - Heisler Chart for Transient Conduction Problems
Lecture 20 - Transient Conduction in Semi-infinite Bodies
Lecture 21 - Introduction to Convection Heat Transfer
Lecture 22 - Mass and Momentum Conservation Equation for a Fluid Flow
Lecture 23 - Energy Conservation Equation for a Fluid Flow
Lecture 24 - Boundary Layer Theory and Equations
Lecture 25 - Thermal Boundary Layer and Estimation of Convective Heat Transfer Coefficient
Lecture 26 - Estimation of Convective Heat Transfer Coefficient by Solving Boundary Layer Equation
Lecture 27 - Average Nuselt Number, Introduction to Turbulence
Lecture 28 - Turbulant Boundary Layer Heat Transfer Coefficient Reynolds Analogy
Lecture 29 - Convective Flow over Wedges and Curved Surfaces - Boundary Layer Separation
Lecture 30 - Convective Heat Transfer Due to External Flow over Bluff Bodies, Heat Tarnsfer Correlations
Lecture 31 - Internal Flow through Pipes and Ducts - Heat Transfer Consideration
Lecture 32 - Variation of Mean Temperature in Internal Flows with Different Boundary Conditions
Lecture 33 - Mean Temperature and Convective Heat Transfer Coefficient Variation in Thermally Fully Developed Flow
Lecture 34 - Determination of Convective Heat Transfer Coefficient for Fully Developed Flow
Lecture 35 - Measuring Pressure and Temperature in Convective Heat Transfer
Lecture 36 - Introduction to Natural Convection
Lecture 37 - Governing Equation for Natural Convection over Vertical Flat Plate
Lecture 38 - Mixed Convection and Nusselt Number Correlations in Natural Convection
Lecture 39 - Phase Change Heat Transfer - Pool Boling
Lecture 40 - Phase Change Heat Transfer - Flow Boiling and Condensation
Lecture 41 - Heat Exchangers and their Classifications
Lecture 42 - Direct Transfer Heat Exchangers
Lecture 43 - Parallel and Counterflow Heat Exchangers, Overall Heat Transfer Coefficient
Lecture 44 - Heat Exchanger Analysis using Log Mean Temperature Difference - 1
Lecture 45 - Heat Exchanger Analysis using Log Mean Temperature Difference - 2
Lecture 46 - Heat Exchanger Analysis - LMTD Example and Effectiveness (ε) and NTU
Lecture 47 - Effectiveness (ε) and NTU Relation for Heat Exchangers (Continued...)
Lecture 48 - Introduction to Radiation Heat Transfer
Lecture 49 - Directional and Spectral Nature of Radiation
Lecture 50 - Laws of Thermal Radiation
Lecture 51 - Black, Grey and Real Surfaces- Surface Properties for Radiation
Lecture 52 - Problems involving Emission from Small Surfaces
Lecture 53 - Introduction to View Factor
Lecture 54 - Calculation of View Factor (Continued...)
Lecture 55 - Radiation Exchange between Surfaces - Black and Gray Bodies
Lecture 56 - Radiation Exchange between Gray Surfaces
Lecture 57 - Radiation Exchange in Two Surface Enclosures
Lecture 58 - Radiation Exchange in Enclosure Networks
Lecture 59 - Introduction to Mass Transfer
Lecture 60 - Governing equations in mass transfer and heat transfer analogy
