Thermodynamics

Lesson Plan
Name of Faculty : Will Be Assigned
Discipline : B.TECH (ME)
Semester : 3RD
Subject  & Subject Code : THERMODYNAMICS & PCC-ME 201
Lesson Plan Duration : 15 Weeks (from July, 2018 to November, 2018)
Work Load (Lecture/ Tutorial ) per week (in hours) : Lecure-03, Tutorial-1
Week Theory
Lecture day Topic ( including assignment/test)
1st 1 Fundamentals - System & Control volume;
2 Property, State & Process;
3 Exact & Inexact
differentials
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
2nd 1 Work - Thermodynamic definition of work; examples
2 Displacement work; Path
dependence of displacement work and illustrations for simple processes
3 electrical, magnetic,
gravitational, spring and shaft work
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
3rd 1 Temperature, Definition of thermal equilibrium and Zeroth law; Temperature scales
2 Various
Thermometers- Definition of heat
3 Various
Thermometers- Definition of heat
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
4th 1 Concept of total energy E ; Demonstration that E is a
property
2 Various modes of energy, Internal energy and Enthalpy
3 Definition of Pure substance, Ideal Gases and ideal gas mixtures
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
5th 1 Real gases and real gas
mixtures, Compressibility charts
2 Properties of two phase systems - Const. temperature and
Const. pressure heating of water
3 Definitions of saturated states; P-v-T surface; Use of steam
tables and R134a tables
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
6th 1 Saturation tables; Superheated tables
2 Identification of states &
determination of properties
3 Mollier’s chart
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
7th 1 First Law for Flow Processes - Derivation of general energy equation for a control volume
2 Steady state steady flow processes including throttling
3 Examples of steady flow devices
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
8th 1 Unsteady processes; examples of steady and unsteady I law applications for system and
control volume
2 Second law - Definitions of direct and reverse heat engines
3 Definitions of thermal efficiency
and COP
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
9th 1 Kelvin-Planck and Clausius statements
2 Definition of reversible process; Internal
and external irreversibility;
3 Carnot cycle; Absolute temperature scale
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
10th 1 Clausius inequality; Definition of entropy S
2 Demonstration that entropy S is a property
3 Evaluation of S for solids
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
11th 1 Evaluation of S for solids, liquids, ideal gases and ideal gas mixtures undergoing various
processes
2 Determination of s from steam tables- Principle of increase of entropy
3 Illustration
of processes in T-s coordinates
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
12th 1 Definition of Isentropic efficiency for compressors,
2 turbines
and nozzles
3 Irreversibility and Availability
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
13th 1 Availability function for systems and Control
volumes undergoing different processes
2 Lost work
3 Second law analysis for a control
volume
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
14th 1 Exergy balance equation and Exergy analysis
2 Thermodynamic cycles - Basic Rankine cycle
3 Basic Brayton cycle
Tutorial(G1) Tutorial Class Work based on Lecture/Numericals
15th 1 Basic vapor compression
cycle and comparison with Carnot cycle
2 PROBLEMS
3 TEST
Tutorial(G1) TEST