Mec203

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

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 12 Thermodynamic properties, Heat is path function,
Energy a property of system, corollaries of first law,
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


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


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


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


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


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