Fundamentals of Heat & Mass Transfer -Basic to Advance Level

In-depth Exploration of Heat and Mass Transfer-A Comprehensive 22+Hour Course Covering All Concepts and Essential Topics

5.00 (1 reviews)
Fundamentals of Heat & Mass Transfer -Basic to Advance Level
22 hours
May 2023
last update
regular price

What you will learn

Understand the basics of heat transfer through conduction, convection, and radiation.

Learn to apply the heat diffusion equation in different coordinate systems such as Cartesian surfaces, cylindrical systems, and spherical systems.

Gain knowledge about thermal resistances offered by different surfaces, including plane walls, cylindrical surfaces, and spherical surfaces.

Acquire the skills to analyze and calculate heat transfer through fins.

Understand solar radiation spectrums, the concept of a black body, and the greenhouse effect.

Understand the principles and mechanisms of heat transfer through radiation.

Explore convection as a mode of heat transfer and its various aspects.

Study heat transfer in external and internal flows and their unique characteristics.

Examine natural convection phenomena and its effects on vertical and inclined surfaces.

Learn about mass transfer and concentration boundary layers in external and internal flows.

Analyze heat exchangers and their practical applications across different industries.


Welcome to a transformative course that unlocks the captivating world of heat transfer and its practical applications. In a rapidly evolving technological landscape, understanding heat transfer principles is crucial for engineers, researchers, and professionals alike. This course offers a comprehensive exploration of heat transfer mechanisms, equipping you with essential knowledge and practical skills that can elevate your career and drive innovation in diverse industries.

Enrolling in this course opens up a world of possibilities. You will gain a deep understanding of conduction, convection, and radiation—the three fundamental modes of heat transfer—enabling you to analyze and solve complex thermal problems. By mastering the heat diffusion equation in various coordinate systems, you will develop the ability to model and predict heat distribution in real-world scenarios, from cylindrical surfaces to spherical domains.

The course places a strong emphasis on practical applications. You will delve into the design and optimization of heat transfer systems, including heat exchangers, fins, and solar energy systems. Through engaging lectures and interactive examples, you will learn how to harness the power of heat transfer to enhance energy efficiency, improve thermal management, and contribute to sustainable solutions.

Moreover, this course offers invaluable insights into the ever-growing field of renewable energy. You will explore solar radiation spectrums, the greenhouse effect, and the role of heat transfer in renewable energy systems. By understanding the principles behind these technologies, you will be at the forefront of innovation, driving the transition to a greener and more sustainable future.

Whether you are a student seeking a solid foundation in heat transfer, an engineer aiming to expand your skill set, or a researcher delving into cutting-edge advancements, this course is designed for you. The knowledge and expertise you acquire will empower you to tackle complex engineering challenges, contribute to groundbreaking research, and make a tangible impact in your field.

Enroll in this course today and embark on an enriching learning journey that will unlock a world of opportunities. Expand your horizons, advance your career, and join a community of learners passionate about the vital principles of heat transfer..


Introduction to Heat Transfer - Conduction, Convection & Radiation

Difference Between Thermodynamics & Heat Transfer
Fourier's Law of Heat Conduction
Thermal Conductivities of Materials
Variation of Thermal Conductivities with Temperature
Multidimensional Heat Transfer
Thermal Diffusivity
Numerical Problems Related to Conduction, Convection and Radiation
Numerical Problems Related to Conduction, Convection and Radiation

Heat Diffusion Equation for Different Coordinate Systems

Heat Diffusion Equation-Cartesian Surface
Heat Diffusion Equation in Cylindrical Coordinate System
Heat Diffusion Equation in Spherical Coordinate System
Numerical Problems related to Heat Diffusion Equation
Numerical Problems related to Heat Diffusion Equation
Numerical Problems related to Heat Diffusion Equation

Thermal Resistances Offered by Different Surfaces & Heat Transfer Through Fins

Thermal Resistance Offered by a Plane Wall(Conductive, Convective and Radiative)
Thermal Resistance Offered by a Cylinder
Thermal Resistance Offered by Sphere
Numerical Problem related to Thermal Resistance of Different Surfaces
Heat Transfer Through Fins- Extended Surface
Three Fin Cases - Heat Transfer through Different type of Fins
Case A - Heat Transfer through Fin has Convecting Tip
Case B - Heat Transfer through Fin has Insulated Tip
Case C - Heat Transfer through Fin has Very Long Length

Heat Transfer through Radiation & Black Body

Solar Radiation and Radiation Spectrum
Radiation Intensity and Solid Angle
Spectral Blackbody Emissive Power
Spectral Emissive Power
Find Fraction of Radiation Emitted by Sun in Visible Band
Spectral Quantities
Kirchhoff's Law
The Green House Effect
Numerical Problem related to Spectral Distribution of the Radiation

Heat Transfer through Radiation

Relation of View Factor with Radiation
Radiation Heat Transfer through Black Surfaces
Radiation Heat Transfer through Diffuse and Grey Surfaces
Net Radiation Heat Transfer to or from a Surface
Reradiating Surface
Net Radiation Heat Transfer between any Two Surfaces
Radiation Heat Transfer in Three Surface Enclosures
Radiation Shields
Numerical Problems related to Radiative Heat Transfer

Heat Transfer through Convection

Classification of Fluid Flows
Velocity and Thermal Boundary Layer of Fluid
Turbulent Flow
Laminar and Turbulent Velocity Boundary Layer
Reynolds Number
Nussselt Number
Prandtl Number
Local and Average Convection Coefficient
Differential Convection Equations
Conversion of Mass Equation
Conversation of Momentum Equations
Conservation of Energy Equation
Boundary Layer Similarity -The Normalized Boundary Layer Equations
Functional Form of the Solutions
Boundary Layer Analogies

Heat Transfer through Convections by the External Flow

Empirical Method for Finding Convection Heat Coefficient
The Flat Plate in Parallel Flow
Flat Plate Unheated Starting Length
Flat Plate with Constant Heat Flux Conditions
Methodology for Convection Calculations
The Cylinder & Sphere in Cross Flow
Convection Heat Transfer Correlations for External Flow
Numerical Problems Related to Heat Transfer in Internal Flow
Numerical Problems Related to Heat Transfer in Internal Flow

Heat Transfer through Convections by the Internal Flow

Flow Conditions for Internal Flow
Thermal Considerations for Internal Flow
Hydrodynamics and Thermal Entry Lengths for Laminar and Turbulent Flow
Newton's Law of Cooling
The Energy Balance
Laminar Flow in Circular Tubes
Turbulent Flow in Circular Tubes
Flow in Noncircular Tubes
Numerical Problems Related to Heat Transfer in Internal Flow

Free Convection & Convection Over Vertical and Inclined Surfaces

Free Convection
Buoyant Force
Coefficient of Expansion
Natural Convection Over Vertical and Inclined Surfaces & Grashof Number
Numerical Problems Related to Heat Transfer through Inclined & Vertical Surfaces

Introduction to Mass Transfer

Mass Transfer
Diffusion and Fick's Law of Diffusion
Concentration Boundary Layer for External Flow
Concentration Boundary Layer for Internal Flow
Heat and Mass Transfer Analogies
Numerical Problem related to Mass Transfer

Heat Exchangers for Heat Transfer

Heat Exchangers and its Applications
Flow Regimes and Temperature Profiles in a Double Pipe Heat Exchangers
Types of Heat Exchangers
Fouling Factor
The Overall Heat Transfer Coefficient
Heat Exchangers Analysis
Numerical Problems related to Heat Exchangers


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