Hmt

Lovely Professional University, Punjab
Course Code Course Title Course Planner Lectures Tutorials Practicals Credits
MEC301 HEAT AND MASS TRANSFER 16116::Sachin Sharma 4.0 1.0 0.0 5.0
Course Category Courses with numerical and conceptual focus
TextBooks
Sr No Title Author Edition Year Publisher Name
T-1 Heat and Mass Transfer P. K. Nag 3rd 2011 Tata McGraw Hill
Reference Books
Sr No Title Author Edition Year Publisher Name
R-1 Heat and Mass transfer Y. A. Cengel 3rd 2011 Tata McGraw Hill
R-2 Principles of Heat Transfer . Frank Kreith 3rd 2011 Cengage Learning
Other Reading
Sr No Journals articles as Compulsary reading (specific articles, complete reference)
OR-1 L. Baranyi, â€œComputation of unsteady momentum and heat transfer from a fixed circular cylinder in laminar flow,â€ JCAM 4 (2003), No. 1, 13â€“25 ,
Week
Number
Lecture
Number
Broad Topic(Sub Topic) Chapters/Sections
of Text/reference
books
Other Readings,
Relevant
Websites, Audio
Visual Aids,
software and
Virtual Labs
Lecture Description Learning Outcomes Pedagogical Tool
Demonstration/ Case
Study / Images /
animation / ppt etc.
Planned
Week 1 Lecture 1 Introduction(Thermodynamics and
heat transfer)
T-1:chapter 1.1 differientate between
thermo and heat transfer
basic difference
between heat transfer
and thermodynamics
slide show by teacher
Lecture 2 Introduction(Heat conduction) T-1:ch 1.3 introducion of basic
concepts
concept of heat
conduction
Introduction(Convective heat
transfer)
T-1:ch 1.3 introducion of basic
concepts
concept of heat
convection
Detailed Plan For Lectures
LTP week distribution: (LTP Weeks)
Weeks before MTE 7
Weeks After MTE 6
Spill Over 2

Week 1 Lecture 3 Introduction(Combined conduction
and convection)
T-1:ch 1.4 introducion of basic
concepts
difference between
conduction and
convection
Introduction(Overall heat transfer
coefficient)
T-1:ch 1.5 understanding of heat
ransfer coefficient
how heat transfer is
affected
Lecture 4 Introduction(Radiation heat
transfer)
T-1:ch 1.6 introducion of basic another mode of heat
transfer
Week 2 Lecture 5 Introduction(Thermal insulation) T-1:ch 1.7 knowledge of insulation how heat transfer is
affected
Lecture 6 Steady Conduction(General
equation of heat conduction)
T-1:ch 2.1 equation used for HT
calculation
how heat transfer
calculated
Lecture 7 Steady Conduction(Steady heat
conduction in simple geometries)
T-1:ch 2.2 equation used for HT
calculation
how heat is transferd in
steady state
Lecture 8 Steady Conduction(Critical radius
of insulation)
T-1:ch 2.3 how insulation affect HT how addition of
insulation will affect
HT
Week 3 Lecture 10 Steady Conduction(Two-
Dimensional steady state heat
conduction)
T-1:ch 2.5 more complicated
situations for HT
calculation
now emphasis on 2D slide show by teacher
Lecture 11 Steady Conduction(Two-
Dimensional steady state heat
conduction)
situations for HT
calculation
now emphasis on 2D slide show by teacher
Steady Conduction(Conduction
heat transfer at steady state)
situations for HT
calculation
HT in steady state slide show by teacher
Lecture 12 Steady Conduction(Conduction
heat transfer at steady state)
situations for HT
calculation
HT in steady state slide show by teacher
Transient Conduction(Lumped
capacitance method for bodies of
infinite thermal conductivity)
T-1:ch 3.1 HT calculation for
LUmped system
how heat is conducted
uniformly through a
system
Lecture 9 Steady Conduction(Extended
surfaces)
T-1:ch 2.4 discrpition of various
methods to enhance HT
how HT is enhanced slide show by teacher
Week 4 Lecture 13 Transient Conduction(Lumped
capacitance method for bodies of
infinite thermal conductivity)
T-1:ch 3.1 HT calculation for
LUmped system
how heat is conducted
uniformly through a
system
Transient Conduction(Plane wall
with convection)
T-1:ch 3.2 calculation for
geometries specific
now move to unsteady
state over a plane wall
Lecture 14 Transient Conduction(Plane wall
with convection)
geometries specific
now move to unsteady
state over a plane wall
Transient Conduction(Infinite
cylinder and sphere with
convection)
geometries specific
HT through Cylinder
and sphere
Lecture 15 Transient Conduction(Infinite
cylinder and sphere with
convection)
geometries specific
HT through Cylinder
and sphere

Week 4 Lecture 16 Transient Conduction(Semi infinite
solid)
geometries specific
partial conduction with
convection
Week 5 Lecture 17 Transient Conduction(Numerical
and graphical methods)
T-1:ch 3.6 another methods for HT
calculation
alternate and effective
method for HT
calculation
Lecture 18 Transient Conduction(Transient
heat conduction)
T-1:ch 3.6 unsteady state HT time independent HT
calculation
Lecture 19 Forced Convection(Boundary layer
theory)
T-1:ch 4.1 concept of onvection how heat is convected slide show by teacher
Lecture 20 Forced Convection(Conservation
equation of mass)
T-1:ch 4.2 differnt govering
equation
mechanism for
convection
Forced Convection(Momentum
and energy for laminar flow over a
flat plate)
equation
conection calculation
over flat plate
Week 6 Lecture 21 Forced Convection(Analytic
solution for laminar boundary layer
over a flat plate)
equation
over flat plate
Forced Convection(Approximate
integral boundary layer analysis)
T-1:4.7 differnt govering
equation
over flat plate
Lecture 22 Test 1
Lecture 23 Forced Convection(Reynolds
analogy for turbulent flow over a
flat plate)
T-1:ch 4.9 reynolds analogy for
Calculation HT
over flat plate
Forced Convection(Constant heat
flux boundary condition)
T-1:ch 4.10 reynolds analogy for
Calculation HT
over flat plate
Lecture 24 Forced Convection(Boundary layer
thickness in turbulent flow)
T-1:ch 4.11 different methods for
convection calculation
calculation for tubulant
flow which is oftenly
enconterd in problems
Week 7 Lecture 25 Forced Convection(Forced
convection inside tubes and ducts)
T-1:4.12 different methods for
calculation for ducts
and tubes
Forced Convection(Empirical
correlations)
T-1:4.17 coreelations for HT
calculation
correlation that will
help for calculation
Lecture 26 Free Convection(Dimensionless
parameters of natural convection)
T-1:ch 5.1 various parametrs like
Nusselt noetc
difference between
natural and forced
convection
Lecture 27 Free Convection(An approximate
analysis of laminar natural
convection on a vertical plate)
T-1:5.2 different methods for
calculation for vertical
plates
Free Convection(Empirical
correlations for various shapes)
plates
Lecture 28 Free Convection(Combined forced
and natural convection)
plates
MID-TERM
Week 8 Lecture 29 Condensation and boiling
(Dimensionless parameters in
boiling and condensation)
T-1:ch 6.1 discription of
condensation
how condensation
occures

Week 8 Lecture 29 Condensation and boiling
(Condensation heat transfer)
condensation
how condensation
occures
Lecture 30 Condensation and boiling(Drop
wise condensation)
condensation
how condensation
occures
Condensation and boiling(Laminar
film condensation on a vertical
plate)
condensation
how condensation
occures
Lecture 31 Condensation and boiling
(Condensation number)
condensation
how condensation
occures
Condensation and boiling(Boiling
heat transfer)
T-1:6.12 description of boiling
mechanismnsm
how boiling occures slide show by teacher
Condensation and boiling(Regimes
of boiling)
T-1:ch 6.13 description of boiling
mechanism
Condensation and boiling(Nucleate
boiling)
mechanism
Lecture 32 Condensation and boiling
(Correlations of boiling heat
transfer data)
mechanism
various metods for
bolinig heat transfer
calculations
Condensation and boiling(Forced
convection boiling)
mechanism
Week 9 Lecture 33 Radiation(Thermal radiation) T-1:ch 7.1 detail description of
radiation
how heat is transferred
from long distance and
witout any medium
Radiation(Absorptivity) T-1:ch 7.3 detail description of
radiation
mechanism foe
radiative heat transfer
Radiation(Reflectivity and
transmissivity)
T-1: ch 7.3 detail description of
radiation
mechanism foe
Lecture 34 Radiation(Black body) T-1:ch 7.4 explain with various
examples what exactly a
black body is
mechanism foe
Radiation(Emissive power) T-1:ch 7.5 emissive power of
different bodies
mechanism foe
Radiation(Emissivity) T-1:ch 7.6 detail description of
radiation
mechanism foe
Lecture 35 Radiation(Kirchoff law) T-1: ch 7.7 law which describe the
radiation power
various laws foe
radiative heat trasfer
calculation
Radiation(Laboratory black body) T-1:ch 7.8 about black bodies various laws foe
calculation
Radiation(Spectral energy
distribution of a black body)
T-1:ch 7.9 about emmisibve power
of lack bodies
various laws foe
calculation
Lecture 36 Radiation(Radiation from real
surfaces)
T-1:ch 7.10 radiation heat transfer
from other surfaces
heat radiated from
surfaces

Week 9 Lecture 36 Radiation(Intensity of radiation) T-1:ch 7.11 radiation heat transfer
from other surfaces
heat radiated from
surfaces
Radiation(Radiant heat exchange
between two black bodies
separated by a non absorbing
medium)
T-1:ch 7.12 radiation heat transfer
from other surfaces
heat radiated from
surfaces
Week 10 Lecture 37 Radiation Shape Factor(Shape
factor)
T-1:ch 7.13 about shpaes affect the
radiati9ve heat transfer
how heat is radiated
from surfaces
Radiation Shape Factor(Electrical
analogy)
from surfaces
Lecture 38 Radiation Shape Factor(Radiant
heat transfer between two black
surfaces connected by
nonconducting and Reradiating
walls)
from surfaces
Radiation Shape Factor(Evaluation
of shape factor)
efficient method for
heat transfer
calculations
Lecture 39 Radiation Shape Factor(Radiation
heat transfer between gray bodies)
heat transfer
calculations
Radiation Shape Factor(Radiosity
and irradiation)
T-1:ch 7.18 radiosity and irridation
of surfaces
heat transfer
calculations
Lecture 40 Radiation Shape Factor(Radiation
network for gray surfaces
exchanging energy)
of surfaces
heat transfer
calculations
Week 11 Lecture 41 Radiation Shape Factor(Radiation
shield)
of surfaces
heat transfer
calculations
Radiation Shape Factor(Radiation
from cavities)
of surfaces
heat transfer
calculations
Lecture 42 Test 2
Lecture 43 Heat Exchanger(Types of heat
exchangers)
T-1:ch 8.1 classification of heat
exchanger
types of heat exchanger slide show by teacher
Lecture 44 Heat Exchanger(Compact) T-1:ch 8.2 classification of heat
exchanger
Heat Exchanger(Shell and tube and
plate heat exchangers)
exchanger
Heat Exchanger(Overall heat
transfer coefficient and fouling
factor)
exchanger
Week 12 Lecture 45 Heat Exchanger(Parallel flow heat
exchanger)
exchanger
Heat Exchanger(Counter flow heat
exchanger)
exchanger

Week 12 Lecture 45 Heat Exchanger(Use of LMTD) T-1:ch 8.6 classification of heat
exchanger
designing and rating of
heat exchanger
Lecture 46 Heat Exchanger(Cross flow heat
exchanger)
T-1:ch 8.7 methods for desiging nad
rating heat exchanfger
heat exchanger
Heat Exchanger(Comparison of
parallel flow and counter flow heat
exchangers)
heat exchanger
Heat Exchanger(Heat transfer with
phase change)
heat exchanger
Heat Exchanger(Multipass heat
exchangers)
heat exchanger
Heat Exchanger(Variation of Uo
along the heating surface)
heat exchanger
Lecture 47 Heat Exchanger(Effectiveness
NTU method)
T-1:ch 8.12 another method methods
for desiging nad rating
heat exchanfger
another method for
heat exchanger
Heat Exchanger(Heat exchanger
design considerations)
another method for
heat exchanger
Heat Exchanger(Selection of heat
exchangers)
T-1:ch 8.18 desiging of heat
exchanger
another method for
heat exchanger
Lecture 48 Homework 1
Week 13 Lecture 49 Mass Transfer(Mass transfer by
molecular diffusion)
T-1:ch 10.1 mass transfer explained how mass is transferred slide show by teacher
Mass Transfer(Ficks law of
diffusion)
Mass Transfer(Equimolar counter
diffusion)
Lecture 50 Mass Transfer(Molecular diffusion
through a stationary gas)
Mass Transfer(Diffusivity for
gases and vapors)
Mass Transfer(Concentration
boundary layer and Mass transfer
coefficient)
Lecture 51 Mass Transfer(Analogy between
Momentum)
T-1:ch 10.6 mass transfer explained analogy with electrical
systems
Mass Transfer(Heat and Mass
transfer)
T-1:ch 10.6 realtion between these
two
how mass is transferred slide show by teacher
Mass Transfer(Forced convection
mass transfer in laminar flow in a
tube)
Lecture 52 Mass Transfer(Mass transfer by
convection in turbulent flow)
T-1:ch 10.8 mass transfer explained how mass is
transferredhow mass is
transferred

Week 13 Lecture 52 Mass Transfer(Analogy of heat
and mass transfer)
Mass Transfer(Mass transfer in
boundary layer flow over a flat
plate)
SPILL OVER
Week 14 Lecture 53 revision of syllabus slide show by teacher
Lecture 54 revision of syllabus slide show by teacher
Scheme for CA:
Component Frequency Out Of Each Marks Total Marks
Homework,Test 2 3 10 20
Total :- 10 20
Details of Academic Task(s)
AT No. Objective Topic of the Academic Task Nature of Academic Task
(group/individuals/field
work
Evaluation Mode Allottment /
submission Week
Test 1 To develop
analytical abilities in
students to solve
problems related to
heat transfer by
conduction and
radiation mode
Problems on conduction and convection mode of heat transfer Individual step wise evaluation
of each question
5 / 6
Test 2 To develop
students to solve
problems related to
radiation.
Problems related to radiation. Individual step wise evaluation
of each question
10 / 11
Homework 1 To develop
students to solve
problems related to
heat exchanger and
mass transfer
Problems related to heat exchanger and mass transfer. Individual step wise evaluation
of each question
11 / 12
Plan for Tutorial: (Please do not use these time slots for syllabus coverage)
Tutorial No. Lecture Topic Type of pedagogical tool(s) planned
(case analysis,problem solving test,role play,business game etc)

Tutorial 1 Fourier law and steady state heat transfer in slab
without heat generation.
Problem solving
Tutorial 2 Heat conduction in cylinder, sphere, fins without heat
generation
Problem solving
Tutorial 3 Heat conduction in cylinder, sphere, slab with internal
heat generation
Problem solving
Tutorial 4 Transient conduction in two and multi dimension Problem solving
Tutorial 5 Transient conduction in two and multi dimension
Tutorial 6 problems on natural convection Problem solving
Tutorial 7 problems on forced convection Problem solving
After Mid-Term
Tutorial 8 Boiling and condensation Problem solving
Tutorial 9 Problems based on radiation mode of heat transfer Problem solving
Tutorial 10 Heat exchanger LMTD method
Tutorial 11 Effectiveness- NTU method for heat exchanger Problem solving
Tutorial 12 Effectiveness- NTU method for heat exchanger Problem solving
Tutorial 13 Problems based on mass transfer Problem solving

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