lesson plan course code& course name: sem: programme: m
TRANSCRIPT
Course Code& Course Name:MTME106-1,Advanced Power Plant Engineering SEM: I Programme: M.Tech Department: MECH
LESSON PLAN
S No. Tentative
Date
Topics to be covered Actual
Date
Num.
of
classes
Content Delivery
Methods
UNIT-I
1. 21/09/15 Sources of Energy, Types of power
plants
1 DM1
2. 23/09/15 Direct energy conversion system,
Recent developments
1 DM1,DM6
3. 24/09/15 Combustion of coal, liquid and
gaseous fuels
1 DM1
4. 25/09/15 problems 1 DM1
5. 28/11/15 Volumetric analysis, Gravimetric
analysis. problems
1 DM1
6. 30/11/15 Factors affecting the economics, Load
factor, Utilization factor,
1 DM1,DM6
7. 01/10/15 Performance and operating
characteristics of Power plants
1 DM1
8. 05/10/15 Economic load sharing, Depreciation 1 DM1, DM6
9. 07/10/15 Energy rates 1 DM1,DM6
10. 08/10/15 Specific economic energy problems. 1 DM1
11. 09/10/15 problems 1 DM2
12. 12/10/15 Seminar-1 1 DM6
UNIT-II
13. 14/10/15 Steam Power Plant
:Introduction-General layout of
1 DM1
14. 15/10/15 Power Plant Cycles 1 DM1
15. 16/10/15 Fuel Handling, Combustion
Equipment
1 DM1
16. 26/10/15 Ash handling, 1 DM1
17. 28/10/15 Dust Collectors- ESP, bag houses. 1 DM6
18. 29/10/15 G. T Power PlantsOperating
Principle; Classification
1 DM1
19. 30/10/15 Open Cycle, Closed Cycle, 1 DM1
20. 02/11/15 Analysis of GT plant 1 DM1
21. 04/11/15 Fuels for Gas Turbine Power Plants 1 DM1
22. 05/11/15 Advantages and Limitations. 1 DM1
23. 06/11/15 Seminar-2 1 DM6
UNIT-III
24. 09/11/15 Combined cycle: Types, Working 1 DM1
25. 11/11/15 Cogeneration 1 DM1
26. 12/11/15 Combined Cycle with Gas
production from coal (IGCC)
1 DM1
27. 13/11/15 combined cycles using PFBC-system 1 DM1
28. 16/11/15 Advantages ,Performance and
Future of Combined Cycle 1 DM1
Course Code& Course Name:MTME106-1,Advanced Power Plant Engineering SEM: I Programme: M.Tech Department: MECH
LESSON PLAN
29. 18/11/15 WASTE HEAT RECOVERY
SYSTEMS:- Introduction,
1 DM1
30. 19/11/15 Sources of Waste Heat and Their
Grading
1 DM1
31. 20/11/15 Thermodynamic Cycles for Waste
Heat Recovery,
1 DM1
32. 30/11/15 Thermodynamic Cycles for Waste
Heat Recovery,
1 DM1
33. 02/12/15 Recovery forms and Methods, Other
uses of Waste Heat
1 DM1
34. 03/12/15 Seminar-3 1 DM6
UNIT-IV
35. 04/12/15 PRINCIPLES OF NUCLEAR
ENERGY: Introduction
1 DM1
36. 07/12/15 Atomic structure – Chemical and
Nuclear equations
1 DM1
37. 09/12/15 Energy from Nuclear reactions -
Nuclear Fission and Fusion
1 DM1
38. 10/12/15 Energy from fission 1 DM1
39. 11/12/15 Fuel burn up.
1 DM1
40. 14/12/15 NUCLEAR POWER PLANTS:
Nuclear Reactors-Classification
1 DM1
41. 16/12/15 Types of Reactors 1 DM1
42. 17/12/15 Types of Reactors 1 DM1
43. 18/12/15 Site selection 1 DM1
44. 21/12/15 Methods of Enriching Uranium-
Applications of Nuclear Power Plants.
1 DM2
45. 23/12/15
Nuclear Power Plant Safety: Bi-
Products of Nuclear Power
Generation-
1 DM1
46. 24/12/15 Nuclear Waste Disposal 1 DM1
47. 28/12/15 Future of Nuclear power. 1 DM1
48. 30/12/15 Seminar-4 1 DM6
UNIT-V
49. 31/12/15
POWER PLANT
NSTRUMENTATION:
Classification
1 DM1
50. 04/01/16 Pressure measuring Instruments types-
mechanical, electrical.
1 DM1
51. 06/01/16
Temperature measurement, Types-
expansion thermometers, pressure
thermometers
1 DM1
52. 07/01/16 Tthermocouple, RTD 1 DM1
53. 08/01/16 Radiation and optical pyrometers. 1 DM1
Course Code& Course Name:MTME106-1,Advanced Power Plant Engineering SEM: I Programme: M.Tech Department: MECH
LESSON PLAN
54. 18/01/16 Flue gas analysis-Orsat apparatus. 1 DM1
55. 20/01/16 POLLUTION: Air pollution, 1 DM1
56. 21/01/16 Water pollution 1 DM1
57. 22/01/16 Methods to control pollution. 1 DM1
58. 25/01/16 Acid rain & Acid fog. 1 DM1
59. 27/01/16 Beyond Syllabus 1 DM1
60. 28/01/16 Beyond Syllabus 1 DM1
61. 29/01/16 Revision 1 DM1
Total 61
Total number of classes required to complete the syllabus 58
Total number of classes available as per Schedule 61
NOTE: DELIVERY METHODS : DM1: Lecture interspersed with discussions/BB, DM2: Tutorial,
DM3: Lecture with a quiz, DM4: Assignment/Test, DM5: Demonstration ( laboratory, field visit ),
DM6: Presentations/PPT
At the End of the course, students attained the Course Outcomes:CO1,CO2,CO3,CO4,CO5 & sample proofs
are enclosed in Course file.
Signature
Name of the Faculty Course Co-ordinator HOD
A.V.KRISHNA REDDY
LESSON PLAN
Course Code & Course Name:
Mathematical Methods in Engineering. SEM: I, A.Y. 2015-16
Programme: I M. Tech Department: Mechanical
Engineering
S.
No.
Tentative Date
Topics to be covered Actual Date
Number of
Classes
Delivery Method
1 21/09/15 Course Objective, introduction, their applications
1 DM 1
2 23/09/15 Matrices and its Applications 1 DM 1
3 24/09/15 Introduction to Linear Algebraic Equations
1 DM 1
4 25/09/15 Linear Independence and Dependence
1 DM 1
5 30/09/15 Gauss Elimination Method 1 DM 1
6 01/10/15 Gauss Jordan Method 1 DM 1
7 03/10/15 LU Decomposition Method 1 DM 1
8 05/10/15 Gauss-Jacobi Iteration Method 1 DM 1
9 07/10/15 Gauss-Seidel Iteration Method 1 DM 1
10 08/10/15 Simultaneous Linear Equations 1 DM 1
11 09/10/15 Homogeneous Linear Equations 1 DM 1
12 12/10/15 Introduction to Eigen values and Eigen vectors
1 DM 1
13 14/10/15 Conversion of General Eigen value Problem to Standard Form
1 DM 1
14 15/10/15 Conversion of General Eigen value Problem to Standard Form
1 DM 1
15 16/10/15 Conversion of General Eigen value Problem to Standard Form
1 DM 1
16 26/10/15 Finding Eigen Values using Power Method
1 DM 1
17 28/10/15 Finding Eigen Values using Power Method
1 DM 1
18 29/10/15 Finding Eigen Values using Jacobi Method
1 DM 1
19 30/10/15 Finding Eigen Values using Jacobi Method
1 DM 1
20 02/11/15 Solution of Characteristic Polynomial
Equations
1 DM 1
21 04/11/15 Cayley Hamilton Theorem 1 DM 1
22 05/11/15 Cayley Hamilton Theorem 1 DM 1
23 06/11/15 Seminar on Engineering
Applications
1 DM 4
24 09/11/15 Introduction to Numerical Methods 1 DM 1
25 12/11/15 Definition of Derivative 1 DM 1
26 13/11/15 Finite Difference Approximations 1 DM 1
27 16/11/15 Finite Difference Approximations 1 DM 1
28 18/11/15 Finite Difference Approximations 1 DM 1
29 19/11/15 Difference Operators 1 DM 1
30 20/11/15 Difference Operators 1 DM 1
31 30/11/15 Approximation of Derivatives using
Difference Operators
1 DM 1
32 02/12/15 Approximation of Derivatives using
Difference Operators
1 DM 1
33 03/12/15 Numerical Integration Introduction 1 DM 1
34 04/12/15 Trapezoidal Rule 1 DM 1
35 07/12/15 Simpson’s 1/3 and 3/8 rule 1 DM 1
36 09/12/15 Weddle’s Rule 1 DM 1
37 10/12/15 Romberg Integration 1 DM 1
38 11/12/15 Romberg Integration 1 DM 1
39 14/12/15 Seminar on Engineering
Applications
1 DM 4
40 16/12/15 Finite Difference Method
Introduction
1 DM 1
41 17/12/15 Boundary Value Problems 1 DM 1
42 18/12/15 Boundary Value Problems 1 DM 1
43 21/12/15 Solving Partial Differential Equations 1 DM 1
44 23/12/15 Method of Separation of Variables 1 DM 1
45 28/12/15 Method of Separation of Variables 1 DM 1
46 30/12/15 Introduction to solving Partial
Differential equations by Numerical Methods
1 DM 1
47 31/12/15 Classification of PDE 1 DM 1
48 04/01/16 Solving of Elliptic Equations by using 5 point formula
1 DM 1
49 06/01/16 Solving of Elliptic Equations by using 5 point formula
1 DM 1
50 07/01/16 Solving of Elliptic Equations by using 5 point formula
1 DM 1
51 08/01/16 Solving of Parabolic equation by Bender Schmidt method
1 DM 1
52 18/01/16 Solving of Parabolic equation by Bender Schmidt method
1 DM 1
53 20/01/16 Solving of Parabolic equation by Crank Nicolson method
1 DM 1
54 21/01/16 Solving of Parabolic equation by Crank Nicolson method
1 DM 1
55 22/01/16 Solving Hyperbolic equations using 1 DM 1
finite difference method
56 25/01/16 Solving Hyperbolic equations using finite difference method
1 DM 1
57 27/01/16 Seminar on Engineering Applications
1 DM 4
58 28/01/16 Advanced Topics 1
59 29/01/16 Advanced Topics 1
Total Number of classes available as per academic calendar
59
Total Number of classes required to complete the syllabus
56
NOTE: DELIVERY METHODS (DM) DM 1 : Lecture interspersed with discussions / BB DM2:
Tutorial DM3: Lecture with a quiz DM4: Assignment / quiz / Seminar DM5: Demonstration
(Laboratory, Field visit) DM6: Group Discussion DM7: Group assignment / Project DM8:
Presentation / PPT DM9: Asynchronous Discussion.
At the end of course, students attained the CO1, CO2, CO3, etc……..sample proofs are enclosed in
course file.
Signature
Name of the Faculty Name of the Course Co-ordinator HOD
Dr. K.R. KAVITHA Dr. A. RAMIREDDY
S No. Tentative
Date
Topics to be covered Actual
Date
Num.
of
classes
Content Delivery
Methods
UNIT-I
1. 22/09/2015 Introduction 1 DM1
2. 23/09/2015 Continuum, hypothesis
3. 24/09/2015 Eulerain and Lagrangian description 1 DM1,DM6
4. 25/09/2015 Derivation of general differential
equations 1 DM1
5. 26/09/2015 Continuity-momentum and energy
equation 1 DM1
6. 29/09/2015 Incompressible flows
7. 30/09/2015 Navier strokes equation for viscous fluids 1 DM1,DM6
8. 01/10/2015 Eulers equation for ideal flows 1 DM1
9. 02/10/2015 Bernoulli’s equation & application 1 DM1, DM6
10. 03/10/2015 Flow similarity-Reynolds number
11. 06/10/2015 Flow between parallel plates 1 DM1,DM6
12. 07/10/2015 Coutte flow 1 DM1
13. 08/10/2015 Plane Poiseuille flow 1 DM2
14. 9/10/2015 Hagen Poiseuille flow 1 DM6
UNIT-II
15. 10/10/2015 Boundary layer concept 1 DM1
16. 13/10/2015 Prandtl approximations 1 DM1
17. 14/10/2015 Blasius solution for a flat plate with out
pressure gradient 1 DM1
18. 15/10/2015 Momentum integral equation 1 DM1
17. 16/10/2015 Von Karman integral relation 1 DM6
18. 17/10/2015 Pohlhausen method for obtaining
approximate solutions 1 DM1
19. 20/10/2015 problems 1 DM1
20. 21/10/2015 problems 1 DM1
21. 22/10/2015 Energy thickness 1 DM1
22. 24/10/2015 Displacement thickness 1 DM1
23. 27/10/2015 Momentum thickness 1 DM6
24. 28/10/2015 Problems 1 DM1
25. 29/10/2015 Problems 1 DM1
26. 30/10/2015 Problems 1 DM1
27. 31/10/2015 Boundary layer separation 1 DM1
28. 3/11/2015 Separation control 1 DM1
29. 04/11/2015 Kerman integral equation 1 DM1
30. 10/10/2015 problems 1 DM1
UNIT-III
31. 05/11/2015 Origin of turbulence 1 DM1
32. 05/11/2015 Nature of turbulent flow 1 DM1
33. 06/11/2015 Reynolds equations 1 DM1
34. 07/11/2015 Reynolds stress 1 DM6
35. 18/11/2015 Velocity profile 1 DM1
36. 19/11/2015 Mach number 1 DM1
37. 20/11/2015 Flow pattern in compressible flow 1 DM1
38. 21/11/2015 Classification of compressible flow 1 DM1
39. 24/11/2015 Isentropic flow 1 DM1
40. 25/11/2015 Stagnation properties 1 DM1
41. 26/11/2015 Problems 1 DM1
42. 27/11/2015 Problems 1 DM1
43. 28/11/2015 Problems 1 DM1
Unit-IV
44. 31/11/2015 Compressible flow through duct 1 DM2
45. 01/12/2015 Nozzles 1 DM1
46. 02/12/2015 Area velocity relations 1 DM1
47. 03/12/2015 Flow through convergent 1 DM1
48. 04/12/2015 Flow through convergent divergent
nozzles
1 DM6
49. 07/12/2015 Real nozzles flow at design conditions 1 DM1
50. 08/12/2015 Introduction to normal compression shock
51. 09/12/2015 Normal shock relations 1 DM1
52. 10/12/2015 Fanno and Raleigh equations 1 DM1 Unit-V
53. 11/12/2015 Fanno line 1 DM1
54. 14/12/2015 Adiabatic constant area 1 DM1
55. 15/12/2015 Flow of perfect gas 1 DM1
56. 16/12/2015 Chocking due to friction in constant
area flow
1 DM1
57. 18/12/2015 Introduction to constant area flow 1 DM1
58. 21/12/2015 Problems 1 DM1
59. 22/12/2015 Problems 1 DM1
60. 23/12/2015 Introduction to constant area flow with
heat transfer(Raleigh Line) 1 DM1
61. 24/12/2015 Beyond syllabus 1 DM1
62. 28/12/2015 Beyond syllabus 1 DM1
Total 62
Total number of classes required to complete the syllabus 60 Total number of classes available as per Schedule 62
NOTE: DELIVERY METHODS : DM1: Lecture interspersed with discussions/BB, DM2: Tutorial,
DM3: Lecture with a quiz, DM4: Assignment/Test, DM5: Demonstration ( laboratory, field visit ),
DM6: Presentations/PPT
At the End of the course, students attained the Course Outcomes:CO1,CO2,CO3,CO4,CO5 & sample proofs
are enclosed in Course file.
Signature
Name of the Faculty Course Co-ordinator HOD
Dr.P.Vijaya Kumar Dr.P.Vijaya Kumar
Course Code& Course Name: Advanced Heat and Mass Transfer SEM: I Programme: M.Tech Department: MECH A.Y.2015-16
LESSON PLAN
S No. Tentative
Date
Topics to be covered Actual
Date
Num.
of
classes
Content Delivery
Methods
UNIT-I
1. 21/09/15 Introduction to the subject 1 DM1
2. 22/09/15 Basic modes of heat transfer 1 DM1,DM6
3. 23/09/15 Simple numerical problems
4. 25/09/15 General heat conduction equation in
Cartesian coordinates 1 DM1
5. 28/09/15 General heat conduction equation in
Cylindrical coordinates 1 DM1
6. 29/09/15 General heat conduction equation in
Spherical coordinates 1 DM1
7. 30/09/15 Boundary conditions 1 DM1,DM6
8. 02/10/15 Steady state simplified equations for
plane wall, cylinder and sphere 1 DM1
9. 05/10/15 1-D Heat transfer with internal heat
generation for a plane wall 1 DM1, DM6
10. 06/10/15 1-D Heat transfer with internal heat
generation for a cylinder 1 DM1,DM6
11. 07/10/15 1-D Heat transfer with internal heat
generation for a sphere 1 DM1
12. 09/10/15 Numerical problems 1 DM2
13. 12/10/15 Heat transfer through finned surfaces 1 DM6
14. 13/10/15 Fin with insulated tip
15. 14/10/15 Fin with convection off the end
16. 16/10/15 Numerical problems
UNIT-II
17. 26/10/15 Transient heat conduction: Introduction
1 DM1
18. 27/10/15 Lumped system analysis 1 DM1
19. 28/10/15 Heisler charts 1 DM1
20. 30/10/15 Semi infinite solid – Product solution 1 DM1
21. 02/11/15 2D steady state heat conduction 1 DM6
22. 03/11/15 Use of conduction shape factors 1 DM1
23. 04/11/15 Transient heat conduction – Analytical
solution
1 DM1
24. 06/11/15 Numerical problems
25. 09/11/15 Numerical problems
26. 10/11/15 Finite Difference methods for Heat
Conduction Problems 1 DM1
27 13/11/15 1 D & 2 D steady state and heat
conduction Problems 1 DM1
28 16/11/15 1 D & 2 D unsteady state and heat
conduction Problems
29 17/11/15 Implicit and Explicit methods 1 DM1
UNIT-III
30 18/11/15 Forced Convection-Concept of 1 DM1
Course Code& Course Name: Advanced Heat and Mass Transfer SEM: I Programme: M.Tech Department: MECH A.Y.2015-16
LESSON PLAN
boundary layer
31 20/11/15 Hydrodynamic and Thermal boundary
layer concepts 1 DM1
32 30/11/15 Equations of Motion and Energy
33 01/12/15 Methods to determine heat transfer
coefficient
34 02/12/15 Dimensional Analysis- Analogies
between Heat and Momentum Transfer
35 04/12/15 External flows and empirical relations to
various geometrics 1 DM1
36 07/12/15 Dimensional Analysis to free convection 1 DM1
37 08/12/15 Approximate analysis of 1 DM1
38 09/12/15 Seminar-4 1 DM1
39 11/12/15 Free convection- Dimensionless
parameters of Free convection
1 DM1
40 14/12/15 An Approximate Analysis of Laminar
Free Convection on a Vertical Plate- - 1 DM1
41 16/12/15 Free convection on a Horizontal Plate,
Cylinder and Sphere 1 DM1
UNIT-IV 15/12/15
Boiling and condensation 1 DM1
42 18/12/15 Boiling curve –– Correlations
43 21/12/15 Nusselt’s theory of film condensation on
a vertical plate
44 22/12/15 Assumptions & correlations of film
condensation for different geometrics
45 23/12/15 Radiation – Concept of View factor- 1 DM1
46 28/12/15 Methods of Determining View factors 1 DM1
47 29/12/15 Seminar-6 1 DM1
48 30/12/15 Radiant heat exchange in Grey, Non- 1 DM1
49 03/01/16 Grey bodies with Transmitting 1 DM1
50 04/01/16 Reflecting and Absorbing media-
Specular
1 DM1
51 05/01/16 Surface, gas radiation Radiation from
flames
1 DM1
UNIT-V
52 07/01/16 Mass Transfer- Introduction- 1 DM1
53 10/01/16 Analogy between heat and mass transfer- 1 DM2
54 17/01/16 Mass diffusion 1 DM1
55 18/01/16 Fick’s law of diffusion-Boundary
conditions-
1 DM1
56 19/01/16 Steady mass diffusion through a wall- 1 DM1
57
21/01/16 Convenction Mass Transfer –
Concentration bounder layer thickness,
Mass transfer coefficient
1 DM6
58
24/01/16 Analogy between friction,heat transfer
and mass transfer coefficients- 1 DM1
59 25/01/16 Significance of Non. – Dimensional 1 DM1
Course Code& Course Name: Advanced Heat and Mass Transfer SEM: I Programme: M.Tech Department: MECH A.Y.2015-16
LESSON PLAN
numbers
60 26/01/16 Problems 1 DM1
61 28/01/16 Revision 1 DM1
Total 61
Total number of classes required to complete the syllabus 60
Total number of classes available as per Schedule 61
NOTE: DELIVERY METHODS : DM1: Lecture interspersed with discussions/BB, DM2: Tutorial,
DM3: Lecture with a quiz, DM4: Assignment/Test, DM5: Demonstration ( laboratory, field visit ),
DM6: Presentations/PPT
At the End of the course, students attained the Course Outcomes:CO1,CO2,CO3,CO4,CO5 & sample proofs
are enclosed in Course file.
Signature of
the
concerned
Name of the Faculty Course Co-ordinator HOD
A.V.KRISHNA REDDY Dr.P.VIJAYA KUMAR Dr.K.Apparao
LAKIREDDY BALI REDDY COLLEGE OF ENGINEERING,(AUTONOMOUS) Department of Mechanical Engineering
Faculty Name : Mr. V.DHANARAJU Date:21-09-2015 Sem : M.Tech ( I Sem) Subject : ADVANCED IC ENGINES
S.No.
Date Planned Topic Topics
Covered
Remarks
Engine Types and Their Operation:
Unit: I
1 22/09/2015 Introduction and Historical perspective
2 23/09/2015 – Engine classifications-
3 24/09/2015 Engine operating cycles–
4 25/09/2015 – Engine components
5 26/09/2015 S.I. Engine operation
6 29/09/2015 C.I. Engine operation –
7 30/09/2015 Seminar-1
8 01/10/2015 4-Stroke Engine
9 02/10/2015 2-Stroke Engine
10 03/10/2015 Stratified charge engines-–
11 06/10/2015 Types of Stratified
12 07/10/2015 Rotary Engine
13 08/10/2015 Engine Design and operating parameters
14 9/10/2015 Engine Design and operating parameters
10/10/2015 Modern developments in I.C. Engines
Unit: II
15 13/10/2015 Lean burn engines, Ceramic and adiabatic engines
16 14/10/2015 Working principle of dual fuel engines
17 15/10/2015 Factors affecting the combustion in dual fuel engines
18 16/10/2015 MPFI engines, operation and its characteristics
19 17/10/2015 Stratified charge engines, wankel engine
20 20/10/2015 wankel engine operation, features of rotary engines
21 21/10/2015 Variable compression ratio engines and its analysis
22 22/10/2015 methods of variable compression ratio
23 24/10/2015 Surface ignition engines
24 27/10/2015 Free piston engines
25 28/10/2015 Seminar-2
26 29/10/2015 EGR
27 30/10/2015 Homogeneous charge engines
31/10/2015 Combustion in Spark Ignition Engines
Unit: III
28 3/11/2015 Thermodynamic analysis of SI Engine combustion
29 04/11/2015 Flame structure and speed and its factors
30 05/11/2015 cyclic variations in combustion
31 05/11/2015 Heat release analysis
32 06/11/2015 partial burning and misfire
33 07/11/2015 Conventional Ignition systems
34 18/11/2015 Alternative Ignition approaches
35 19/11/2015 Abnormal combustion and knocking
20/11/2015 Combustion in Compression Ignition Engines:
Unit:III
36 21/11/2015 Stages of Combustion systems in diesel engines
37 24/11/2015 Seminar-3
38 25/11/2015 Types of Diesel Combustion systems
39 26/11/2015 Knocking, Fuel injection systems
40 27/11/2015 Analysis of cylinder– pressure data
41 28/11/2015 Fuel spray behavior
42 31/11/2015 Ignition delay
43 01/12/2015 Mixing controlled combustion
02/12/2015 Engine Performance and Testing
Unit:IV
44 03/12/2015 Parameters of performance
45 04/12/2015 Pressure-Volume measurement and
46 07/12/2015 combustion Analysis
47 08/12/2015 Performance test – heat balance test
48 09/12/2015 Seminar-4
49 10/12/2015 Alternate Fuels - Introduction
50 11/12/2015 Necessity of Alternative fuels
51 14/12/2015 Biodiesels – Transesterification process
52 15/12/2015 Biodiesels – Transesterification process
53 16/12/2015 – Use of Alcohols, Gaseous fuels - CNG – LPG
54 18/12/2015 Hydrogen and Biogas. Dual fuel operation
55 21/12/2015 Seminar-5
22/12/2015 Pollutant Formation and Control:
Unit:V
56 23/12/2015 Nature and extent of problem-
57 24/12/2015 Pollution Norms-
58 28/12/2015 Types of pollutants, Nitrogen Oxides
59 29/12/2015 Carbon Monoxide
60 30/12/2016 Unburned Hydrocarbons
61 01/01/2016 Particulate Emissions Pollutants measurement–
62 05/01/2016 Emission Control Methods
63 06/01/2016 Thermal reactors, Particulate traps
64 07/01/2016 Beyond syllabus
Teacher’s Name: V.DHANARAJU Signature: Signature of HoD:
MTME-102-ADVANCED THERMODYNAMICS
I-SEM A.Y.2015-16 Programme: M .Tech Department: ME
LESSON PLAN
Staff Name: P.Ravindra Kumar
S.N
o
Tentative
Date
Topics to be covered Actua
l Date
Requi
red
classe
s
Content
Delivery
Methods
UNIT-I:
Basic Concepts
1 21/9/15 Systems classification, properties of TD 1 DM1
2 22/9/15 Zeroth law of TD 1 DM1,DM6
3 23/9/15 problems on Zeroth law of TD 1 DM1, DM2
4
24/9/15 First law of TD, Steady flow energy
systems
1 DM1
5 28/9/15 problems on I law of TD 1 DM1
6 29/9/15 problems on I law of TD 1 DM1, DM2
7 30/9/15 Limitations of first law 1 DM1
8 1/10/15 second law of TD 1 DM1
9 5/10/15 problems on Heat engine and Heat pump 1 DM1, DM2
10 6/10/15 problems on II law of TD 1 DM1, DM2
11 7/10/15 Concept of Entropy 1 DM1,DM6
12 8/10/15 Problems of Entropy 1 DM1,DM2
13 12/10/15 Problems of Entropy 1 DM1,DM2
14 13/10/15 Third law of TD 1 DM1
15 14/10/15 Seminars 1 DM6
UNIT-II
Thermodynamic Relations
16 26/10/15
Helmhotz Function , Gibbs Free
Energy Function
1 DM1
17 27/10/15 Maxwell’s Relations 1 DM1
18 28/10/15 Clausius Clapeyron Equations 1 DM1
19
29/10/15 problems on Clausius Clapeyron
Equations
1 DM1, DM2
20
30/10/15 Coeff.of Volumetric Expansion,
Isothermal Compressibility
1 DM1
21 2/11/15 problems on Thermodynamic Relations 1 DM1, DM2
22 3/11/15 Mayers relation 1 DM1
23 4/11/15 Seminars 1 DM6
Exergy
24
5/11/15 Available energy( Exergy) , availability
function of closed system
1 DM1,DM6
25
6/11/15 Exergy of closed systems and open
systems
1 DM1,DM6
26
9/11/15 availability function of open system,
availability of steady flow system
1 DM1,DM6
27 10/11/15 problems on Exergy 1 DM1, DM2
28 12/11/15 problems on Exergy 1 DM1, DM2
MTME-102-ADVANCED THERMODYNAMICS
I-SEM A.Y.2015-16 Programme: M .Tech Department: ME
LESSON PLAN
29 12/11/15 problems on Exergy 1 DM1, DM2
30 13/11/15 Seminars 1 DM6
UNIT-III
Irreversibility
31
16/11/15 Irreversibility for closed system and
open system
1 DM1
32
17/11/15 Irreversibility for steady flow system
and Effectiveness
1 DM1, DM6
33
18/11/15 Problems on Irreversibility- closed
systems
1 DM1, DM2
34
19/11/15 Problems on Irreversibility- closed
systems
1 DM1, DM2
35 20/11/15 problems on Thermodynamic Relations 1 DM1, DM2
36 23/11/15 Seminars 1 DM6
Compressible Flows
37 24/11/15 stagnation properties , speed of sound 1 DM1
38 25/11/15 1D isentropic flow and property
relations
1 DM1,DM6
39 26/11/15 Flow regimes in compressible flows 1 DM1,DM6
40 30/11/15 Mach relations 1 DM1,DM6
41 1/12/15 Effect of back pressure on convergent
nozzle
1 DM1,DM6
42 2/12/15 Effect of back pressure on convergent –
divergent nozzle
1 DM1,DM6
43 3/12/15 Problems on Thermodynamics of
Compressible flows
1 DM1, DM2
44 7/12/15 Problems on Thermodynamics of
Compressible flows
1 DM1, DM2
45 8/12/15 Seminars 1 DM6
UNIT-IV
NON REACTIVE GAS MIXTURES
46 9/12/15 Properties of Mixtures of ideal gases 1 DM1
47 10/12/15 Daltons law of mixtures, Amagats law
of additive mixtures
1 DM1
48 14/12/15 Problems on Mixtures of ideal gases 1 DM1, DM2
49 15/12/15 Entropy change of mixture of non
reactive gases
1 DM1
50 16/12/15 Problems 1 DM1, DM2
51 17/12/15 Problems on Entropy change of
mixture of non reactive gases
1 DM1, DM2
52 21/12/15 Seminars 1 DM6
REACTIVE GAS MIXTURES 1 DM1
53 22/12/15 Fuels and combustion 1 DM1
54 23/12/15 Theoretical and actual combustion
process
1 DM1
55 26/12/15 Enthalpy of formation and Enthalpy of
reaction
1 DM1,DM6
MTME-102-ADVANCED THERMODYNAMICS
I-SEM A.Y.2015-16 Programme: M .Tech Department: ME
LESSON PLAN
56 28/12/15 first and second law analysis of
reacting systems
1 DM1,DM6
57 29/12/15 problems on reactive systems 1 DM1,DM2
58 30/12/15 Seminars 1 DM6
UNIT-V
Thermodynamic cycles
59 31/12/15 II law analysis of vapour power cycles 1 DM1,DM6
60 4/1/16 Cogeneration 1 DM1,DM6
61 5/1/16 combined gas power cycles 1 DM1,DM6
62 6/1/16 binary vapour power cycles 1 DM1,DM6
63 7/1/16 Problems on cycles 1 DM1,DM2
64 18/1/16 Problems on cycles 1 DM1,DM2
65 19/1/16 Seminars 1 DM6
Gas Power Cycles
65 20/1/16 Ideal jet Propulsion cycles 1 DM1,DM6
66 21/1/16 II law analysis of Gas power cycles 1 DM1,DM6
67 22/1/16 Problems 1 DM1,DM2
68 27/1/16 Seminars 1 DM6
Contents beyond the syllabus
68 28/1/16 Rayleigh flows and Fannoline flows 1 DM6
69 29/1/16 Entropy generation and Production 1 DM6
70 30/1/16 New concepts in Propulsion cycles 1 DM6
Total 70
Total number of classes required to complete the syllabus 68
Total number of classes available as per Schedule 75
NOTE: DELIVERY METHODS: DM1: Lecture interspersed with discussions/BB, DM2: Tutorial,
DM3: Lecture with a quiz, DM4: Assignment/Test, DM5: Demonstration (laboratory, field visit),
DM6: Presentations/PPT
Signature
Name of the
Faculty
Course
Co-ordinator
Programme
Co-ordinator
HOD
P.Ravindra Kumar P.Ravindra Kumar Dr.S.Pichi
Reddy
Dr.K.Apparao