X
X
X

X
Courses » Heat Transfer

Heat Transfer

ABOUT THE COURSE:

This is a fundamental subject for Chemical Engineering students and is also important in disciplines as diverse as Mechanical Engineering, Biotechnology and Nanotechnology. This course deals with both the fundamental and applied aspects, starting with the basic concepts and governing equations and evolving into the design of relevant industrial units. The students will be made aware of the core scientific issues and will be encouraged to solve problems on their own.

Important For Certification/Credit Transfer:

Weekly Assignments and Discussion Forum can be accessed ONLY by enrolling here

Scroll down to Enroll


Note: Content is Free!

All content including discussion forum and assignments, is free


Final Exam (in-person, invigilated, currently conducted in India) is mandatory for Certification and has INR Rs. 1100 as exam fee



INTENDED AUDIENCE:
Chemical/Mechanical/Biotechnology/Nanotechnology

CORE/ELECTIVE: Core

UG/PG: UG

PREREQUISITES: Undergraduate level courses in Fluid Mechanicsl

INDUSTRY SUPPORT: Most of the process industries recognize this as a fundamental course dealing with the design of the heat transfer equipment. The fundamental concepts will enhance the lateral thinking capabilities of the students and seamlessly integrate the concepts for their use in a multitude of processes and problems. The relevant industries include all chemical process industries, thermal, solar and nuclear power as well as those involved in the design of such plants.

3141 students have enrolled already!!

ABOUT THE INSTRUCTOR:



Professor Sunando DasGupta is a professor of Chemical Engineering and was the Dean of Sponsored Research at the Indian Institute of Technology Kharagpur. He obtained his Bachelor’s degree from the Jadavpur university, Masters from IIT Kanpur and PhD from the Rensselaer Polytechnic Institute, USA in 1992. His research interests are in the fields of microscale transport processes and microfluidics and he has over 140 publications in peer reviewed journals. Prof. DasGupta is a Fellow of the National Academy of Engineering, has received the Herdillia Award by the Indian Institute of Chemical Engineers for excellence in Basic Research in Chemical Engineering and is a Senior Associate of the Abdus Salam International Centre for Theoretical Physics, Trieste, Italy. .

COURSE LAYOUT:

Week 1  :   Physical Origins and Rate Equations, Units and Dimensions, Relevance, Analysis of Heat Transfer Problems: Methodology, Introduction to Conduction, The Conduction Rate Equation, The Thermal Properties of Matter,   
Week 2  :  The Heat Diffusion Equation, Boundary and Initial Conditions, One-Dimensional, Steady-State Conduction, The Plane Wall, Radial Systems,   
Week 3  :  Conduction with Thermal Energy Generation, Heat Transfer from Extended Surfaces, Introduction to Two-Dimensional, Steady-State Conduction  
Week 4  :  Transient Conduction, The Lumped Capacitance Method, The Plane Wall with Convection, Radial Systems with Convection, The Semi-Infinite Solid
Week 5  :  The Convection Boundary Layers, Local and Average Convection Coefficients, Laminar and Turbulent Flow, Thermal Boundary Layer Equations and Similarity, The Normalized Boundary Layer Equations, Boundary Layer Analogies
Week 6  :  External Flow, Convection Calculations, The Flat Plate in Parallel Flow, The Cylinder in Cross Flow, Flow Across Banks of Tubes
Week 7  :  Internal Flow, Laminar Flow in Circular Tubes: Thermal Analysis and Convection Correlations for Turbulent Flow in Circular, Non-Circular and Concentric Tube Annulus
Week 8  :   Free Convection, The Governing Equations for Laminar Boundary Layers, Laminar Free Convection on a Vertical Surface, The Effects of Turbulence, Empirical Correlations for  External Free Convection Flows and Within Parallel Plate Channels,  Combined Free and Forced Convection 
Week 9  :  Boiling and Condensation, Boiling Modes, Forced Convection Boiling, Condensation - laminar and Turbulent Film in Different Geometries, Dropwise Condensation
Week 10  :   Heat Exchangers, The Overall Heat Transfer Coefficient, Heat Exchanger Analysis: Use of the Log Mean Temperature Difference,  Heat Exchanger Analysis: The Effectiveness–NTU Method,  Heat Exchanger Design and Performance Calculations 
Week 11  :   Radiation, Fundamental Concepts, Blackbody Radiation, Absorption, Reflection, and Transmission by Real Surfaces, Kirchhoff’s Law, The Gray Surface  
Week 12  :   Radiation Exchange Between Surfaces - The View Factor,  Blackbody Radiation Exchange, Radiation Exchange Between Opaque, Diffuse, Gray Surfaces in an Enclosure, Radiation Exchange with Participating Media 

SUGGESTED READING MATERIALS:

1.Introduction to Heat and Mass Transfer by F. P. Incropera and D. P. DeWitt (Wiley)
2.Heat Transfer by J. P. Holman, McGraw-Hill,
3.Transport Phenomena by Bird, Stewart and Lightfoot (Wiley)
4.Transport Phenomena Fundamentals by J. L. Plawsky (CRC Press) 
CERTIFiCATION EXAM :
  • The exam is optional for a fee.
  • Date and Time of Exam: October 28, 2018 (Sunday)
  • Time of Exams: Morning session 9am to 12 noon; Afternoon session: 2pm to 5pm.
  • Exam for this Course will be available in both morning & afternoon sessions.
  • Registration url: Announcements will be made when the registration form is open for registrations.
  • The online registration form has to be filled and the certification exam fee needs to be paid. More details will be made available when the exam registration form is published.

CERTIFICATE:

  • Final score will be calculated as : 25% assignment score + 75% final exam score
  • 25% assignment score is calculated as 25% of average of  Best 8 out of 12 assignments
  • E-Certificate will be given to those who register and write the exam and score greater than or equal to 40% final score. Certificate will have your name, photograph and the score in the final exam with the breakup.It will have the logos of NPTEL and IIT Kharagpur.It will be e-verifiable at http://nptel.ac.in/noc/