1. Lovely Professional University,Punjab
Format For Instruction Plan [for Courses with Lectures and Tutorials
Course No Cours Title Course Planner Lectures Tutorial Practical Credits
MEC203 ENGINEERING THERMODYNAMICS 12977 :: Himanshu Kaushal 4 1 0 3
Text Book: 1 1. P.K Nag Engineering Thermodynamics,TMH
Other Specific Book:
2 Van Wylen, Sonntag, Thermodynamics, John Wiley Publications
3 Y.A. Cengel, M.A. Boles, Engineering Thermodynamics, TMH
Other Reading
Sr No Jouranls atricles as compulsary readings (specific articles, Complete reference)
Relevant Websites
Sr. No. (Web adress) (only if relevant to the courses) Salient Features
4 http://www.nptel.iitm.ac.in/courses/Webcourse-contents/IISc- website for lecture notes
BANG/Basic%20Thermodynamics/New_index1.html
5 http://en.wikibooks.org/wiki/Engineering_Thermodynamics basic concept of zeroth, first, second and third law and its application
6 http://en.wikipedia.org/wiki/Entropy Entropy concept
7 http://www.springer.com/engineering/mechanical journals for engineering thermodynamics
+eng/journal/10891
8 http://www.internetchemie.info/chemistry/thermodynamics.htm lecture notes
Detailed Plan For Lectures
1 Approved for Spring Session 2011-12
2. Week Number Lecture Number Lecture Topic Chapters/Sections of Pedagogical tool
Textbook/other Demonstration/case
reference study/images/anmatio
n ctc. planned
Part 1
Week 1 Lecture 1 Introduction, areas of application of ->Reference :1,1.11.11
thermodynamics,
Lecture 2 systems, surroundings, types of ->Reference
systems, :1,Ch1/sec. 1.3
Lecture 3 intensive and extensive properties, ->Reference
thermodynamic equilibrium :1,Ch1/sec. 1.4 1.5 1.6
Lecture 4 Process, work, thermodynamic definition of ->Reference
work,heat, :1,3.13.23.3.43.5
Week 2 Lecture 5 Process, work, thermodynamic definition of ->Reference
work,heat, :1,3.13.23.3.43.5
Lecture 6 Introduction to state postulate, zeroth law of ->Reference
thermodynamics, temperature scale :1,2.12.22.32.62.7
Lecture 7 First law of thermodynamics ->Reference
:1,2.12.22.32.62.7
Lecture 8 Thermodynamic properties, Heat is path function, ->Reference
Energy a property of system, corollaries of first law, :1,4.74.84.9
PMM1 kind of machine,
Week 3 Lecture 9 Numericals based on first law
Lecture 10 Thermodynamic properties, Heat is path function, ->Reference
Energy a property of system, corollaries of first law, :1,4.74.84.9
PMM1 kind of machine,
Lecture 11 Thermodynamic properties, Heat is path function, ->Reference
Energy a property of system, corollaries of first law, :1,4.74.84.9
PMM1 kind of machine,
Lecture 12 Thermodynamic properties, Heat is path function,
Energy a property of system, corollaries of first law,
PMM1 kind of machine,
Week 4 Lecture 13 First law of thermodynamics ->Reference
:1,4.14.24.34.4
Part 2
Week 4 Lecture 14 Heat as a path ->Reference
function, energy- property of system :1,4.34.44.54.6
2 Approved for Spring Session 2011-12
3. Week 4 Lecture 15 Analysis of closed system, Corollaries of first law, ->Reference
PMM1 kind of machine :1,4.84.94.10
Lecture 16 Heat, work and energy interaction ->Reference
:1,4.34.44.54.6
Week 5 Lecture 17 Constant pressure process, constant vol. process, ->Reference
enthalpy, :1,4.34.44.54.6
Lecture 18 Analysis of isothermal process, adiabatic ->Reference :1,3.13.2
process,
Lecture 19 Polytropic process, free expansion process, ->Reference
:1,Ch5/sec. 5.2 of 1
Lecture 20 Conservation of mass applied to control volume ->Reference :1,5.15.2
Week 6 Lecture 21 Flow energy, conservation of energy equation ->Reference :1,5.15.2
applied to control volume,
Lecture 22 Steady flow energy equation, Application of SFEE ->Reference :1,5.35.4
Lecture 23 Steady flow energy equation, Application of SFEE ->Reference :1,5.45.5
Lecture 24 Throttling process, Application of Throttling process ->Reference :1,5.55.6
Week 7 Lecture 25 Throttling process, Application of Throttling process ->Reference :1,5.4
Lecture 26 Inversion Curve and Joule Thomson coefficient. ->Reference
:1,11.611.7
Lecture 27 Transient flow processes,Charging and discharging ->Reference :1,5.8
of a cylinder
Lecture 28 Transient flow processes,Charging and discharging ->Reference :1,5.8
of a cylinder
MID-TERM
Part 3
Week 8 Lecture 29 Second law of thermodynamics, limitations of first ->Reference
law :1,1Ch6/sec. 6.1 of 1
Lecture 30 Heat engine , Kelvin plank statement ->Reference
:1,Ch6/sec. 6.2 6.3 of 1
Lecture 31 Heat pump, refrigerator ->Reference :1,6.6
Lecture 32 Clausius statement of second law of ->Reference :1,6.5
thermodynamics
Week 9 Lecture 33 Reversible and irreversible processes ->Reference :1,6.8
Lecture 34 Carnot cycle, Carnot engine ->Reference
:1,6.116.126.13
Lecture 35 Carnot theorem ->Reference
:1,Ch6/sec. 6.8 of 1
3 Approved for Spring Session 2011-12
4. Week 9 Lecture 36 Clausius inequality ->Reference :1,7-6
Week 10 Lecture 37 Thermodynamic temp scale ->Reference
:1,6.146.15
Lecture 38 Introduction to Entropy ->Reference :1,7.1
Lecture 39 entropy applied to a closed system, representation ->Reference
on p-v and T-S diagram :1,7.27.37.47.57.7
Part 4
Week 10 Lecture 40 Second law analysis of closed volume, Tds relation ->Reference Some demo with the
:1,7.27.37.47.57.77.87. tools available in the
97.107.11 class like duster, chalk
etc
Week 11 Lecture 41 Exergy Analysis: An introduction, Work potential of ->Reference
energy, :1,Ch8/sec. 8.1 of 1
Lecture 42 Reversible work and Irreversibility, ->Reference
:1,8.28.38.4
Lecture 43 Second Law efficiency, Exergy transfer by heat, ->Reference
work and mass , The decrease of exergy principle :1,Ch8/sec. 8.4-8.5 of 1
and exergy destruction,
Lecture 44 Exergy Balance: Closed systems, Exergy balance: ->Reference
closed volumes :1,Ch8/sec. 8.4-8.5 of 1
Week 12 Lecture 45 Vapour Power Cycle:- Vapour Power Cycle, ->Reference Animation on Rankine
Introduction Carnot cycle, :1,12.112.212.3 cycle
Lecture 46 Practical Rankine cycle ->Reference
:1,12.112.212.3
Lecture 47 Reheat cycle (continuation of Rankine cycle), ->Reference
:1,Ch10/sec. 10.5 10.6
Of 1
Lecture 48 Regenerative cycle, Binary Cycle ->Reference
:1,Ch10/sec. 10.9 of 1
Week 13 Lecture 49 Numericals based on rankine cycle ->Reference
:1,12.412.512.612.7
Lecture 50 Numericals on regenerative cycle
Lecture 51 Revision
Lecture 52 Revision
4 Approved for Spring Session 2011-12
5. Spill Over
Week 14 Lecture 53
Lecture 54
Details of homework and case studies
Homework No. Objective Topic of the Homework Nature of homework Evaluation Mode Allottment /
(group/individuals/field submission
work Week
Homework 1 To Check the Syllabus covered till 5 th week Individual Subjective Test 6/6
Understanding Total =20 marks comprising 4
level of students of questions of 5
the subject marks each
Homework 2 To chech the test of 20 marks Individual Subjective test-20 10 / 10
Understanding marks
level of subject
Homework 3 Conceptual and Test of 20 marks Individual Subjective test of 13 / 13
analysis All the syllabus covered after MTE 20 marks
Scheme for CA:out of 100*
Component Frequency Out Of Each Marks Total Marks
Homework,Test 2 3 10 20
Total :- 10 20
* In ENG courses wherever the total exceeds 100, consider x best out of y components of CA, as explained in teacher's guide available on the
UMS
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 first law of thermodynamics Problem solving
Tutorial 2 first law of thermodynamics Problem solving
5 Approved for Spring Session 2011-12
6. Tutorial 3 heat and work for different process Problem solving
Tutorial 4 steady flow energy equation Problem solving
Tutorial 5 steady flow energy equation Problem solving
Tutorial 6 Test Test
Tutorial 7 variable flow processes Problem solving
After Mid-Term
Tutorial 8 second law of thermodynamics heat engine, heat pump Problem solving
and refrigerator
Tutorial 9 problem on carnot cycle Problem solving
Tutorial 10 Entropy, Exergy and availability Problem solving
Tutorial 11 Test Test
Tutorial 12 Rankine cycle,Rankine cycle (vapour power cycle) Problem solving
Tutorial 13
6 Approved for Spring Session 2011-12