1. Pre-requisites:
2. Course Educational Objectives (CEOs):
CEO should be a paragraph in two or three sentences only.
3. Course Outcomes (COs): At the end of the course, the student will be
able to :
CO1 : To understand requirement of CAD in design process.
CO2 : To design different types of models by using Geometrical modelling.
CO3 : To generate codes for part profiles and can accomplish machining.
CO4 : To analyze the part families by applying GT coding system.
CO5 : To apply CAQC techniques in manufacturing.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T170
CO1 3 2 1 1 3 3 3
CO2 3 3 3 2 2 2 1 1 3 3 3
CO3 3 3 3 2 2 2 1 1 3 3 3
CO4 3 3 3 3 2 2 1 1 3 3 3
CO5 3 3 3 3 2 2 1 1 1 3 3 3
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: AEROSPACE ENGINEERING Program: B.Tech Course : CAD/CAM (S154)
SEM : VII Academic Year: 2017-18
LESSON PLAN
4. Course Delivery Plan:
S.N
O TOPIC TO BE COVERED
No.of Classes
Date DM As per the
Schedule
Taken
Unit I- Fundamentals of CAD
1 Introduction 1 28-06-17 1
2 The design process 1 29-06-17 1 3 The application of computers for design 1 01-07-17 1,2
4 Engineering data management 1 03-07-17 1
5 Benefits of CAD 1 05-07-17 1
7 Computer Graphics: Raster scan graphics 1 06-07-17 1,2
8 Coordinate systems 1 08-07-17 1
9 Database structure for graphics modelling 1 10-07-17 1
10 Transformation of geometry 1 12-07-17 1,2
11 Translation, scaling 1 13-07-17 1
12 Reflection, rotation 1 15-07-17 1,2
13 Homogeneous transformations Concatenated
transformations. 1 17-07-17 1
14 Assignments-1 1 19-07-17 1,4
15 Unit I Revision 1 19-07-17 1
Number of classes 15
UNIT II-Geometric Modeling: Representation of curves
16 Introduction 1 20-07-17 1
17 Wireframe models 1 22-07-17 1,2
18 Wireframe entities 1 24-07-17 1
19 Curve representation 1 26-07-17 1
20 Parametric representation of analytical curves 1 27-07-17 1,2,3
21 Parametric representation of Bezier 1 29-07-17 1
22 B-Spline curves 1 31-07-17 1
23 Representation of surfaces and solids
Introduction to surfaces
1 02-08-17 1,2
24 Surface models surface entities 1 03-08-17 1,2
25 Introduction to solids, solid models 1 05-08-17 1
26 Solid entities 1 07-08-17 1,2
27 Fundamentals of solid modelling 1 09-08-17 1
28 Boundary representation 1 10-08-17 1
29 CSG representation 1 12-08-17 1
30 Sweep representation 1 14-08-17 1
31 Assignments-2 1 16-09-17 1,4
32 Unit II Revision 1 16-08-17 1,3
Number of classes 17
1st Mid Exam 21-08-17
1st Mid Exam 22-08-17
1st Mid Exam 23-08-17
1st Mid Exam 24-08-17
1st Mid Exam 25-08-17
1st Mid Exam 26-08-17
UNIT III-Computer Numerical Control
33 Introduction 1 28-08-17 1
34 NC modes 1 30-08-17 1,2
35 NC elements -NC Coordinate systems 1 31-08-17 1,2
36 Structure of CNC Machine Tools 1 04-09-17 1,5
37 Spindle design 1 06-09-17 1,2
38 Spindle drives 1 07-09-17 1,2
39 Feed drives - actuation systems 1 09-09-17 1
40 Part Programming Part programming
Fundamentals
1 11-09-17 1
41 Manual part programming 1 13-09-17 1,2
42 Computer aided part programming 1 14-09-17 1
43 APT Language 1 16-09-17 1
44 Assignments-3 1 18-09-17 1,4
45 Unit III Revision 1 18-09-17 1,3
Number of classes 13
UNIT IV-Group Technology
46 Introduction and part families 1 20-09-17 1
47 Part classifications and coding 1 21-09-17 1,2
48 OPITZ system 1 23-09-17 1
49 MICLASS system 1 25-09-17 1
50 CODE system 1 27-09-17 1,2
51 GT Machine cells 1 28-09-17 1
52 Benefits of GT -CAPP 1 04-10-17 1
53 Retrieval type and generative type 1 05-10-17 1
54 Flexible Manufacturing system :Introduction 1 07-10-17 1
55 FMS components 1 09-10-17 1,2
56 Benefits of FMS 1 11-10-17 1
57 FMS planning and implementation Issues 1 12-10-17 1
58 Assignments-4 1 13-10-17 1,4
59 Unit IV Revision 1 13-10-17 1,3
Number of classes 14
UNIT V-Computer Aided Quality Control
60 Introduction computers in QC 1 14-10-17 1,2
61 Contact Inspection methods 1 16-10-17 1
62 Non contact inspection methods (optical, non
optical )
1 19-10-17 1
63 Computer Aided Testing 1 21-10-17 1,2
64 Integration of CAQC with CAD/CAM 1 23-10-17 1
65 Computer Integrated Manufacturing Systems
Introduction and Integration
1 25-10-17 1
66 CIM implementation 1 26-10-17 1,2
67 Benefits of CIM 1 28-10-17 1
68 Lean manufacturing 1 30-10-17 1
69 Design classes 1 01-11-17 1
70 Assignments-5 1 02-11-17 1,4
71 Unit V Revision 1 04-11-17 1,3
Number of classes 12
Total Number of classes 71
2nd Mid Exams 06-11-17
Delivery Methods (DM):
1. Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course Instructor Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty G V SURYA NARAYANA
PRINCIPAL
1. Pre-requisites: Basics physics
2. Course Educational Objectives (CEOs):
CEO should be a paragraph in two or three sentences only.
1: To construct a free body diagram and write the differential equations of motion of
vibratory system to find its natural frequency
2: To learn the effects of damped free vibrations and damped forced vibrations of single
degree of freedom
3: To learn about the two degree of freedom systems and multi-degree systems
and their mode shape by various methods- numerical methods etc
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : To formulate mathematical models for mechanical systems using mass, spring and
dampers
CO2 : To analyze the systems with damped free vibrations single degree of freedom
CO3 : To develop a single degree of freedom forced vibrating mechanical system under various
types of excitation conditions
CO4 : To analyze and modify two degree of freedom mechanical systems
CO5 : To analyze and design mechanical systems of multi degrees of freedom
etc .,,
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T170
CO1
CO2
CO3
CO4
CO5
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: ASE Program: B.Tech Course : –THEORY OF VIBRATIONS(S-405)
SEM: VII Academic Year : 2017-18
LESSON PLAN
4. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per
the
Sched
ule
Taken
Unit-1
1 Introduction to vibration 1 28-6-17 1
2 Fundamentals of vibrations 1 28-6-17 1,2
3 Formation and solution of
differential equation 1 29-6-17 1,2,1
4 Torsional vibration
1 30-6-17 1,2,3
5 Springs in series and parallel 1 01-7-17 1,3
6 Natural frequency of a vibration
system by energy method
4 10,12July
17 1,2,3
7 Revision
1 13-7-17 2,3
8 TEST-1
1 14-7-17 4
9 Number of classes 11
10 Unit-II
Unit-II
11 Damped free Vibration
2 15-7-17 1,2,3
12 Types of damping
2 17-7-17,18-
7-17 1,2,3
13 Over damped, critically damped
2 24-7-17 1,3
14 Under damped systems
1 26-7-17 1,3
15 Logarithmic decrement
1 26-7-17 1,3
16 Viscous dampers
systems
2 28-7-17,29-
7-17
1,3
17 Revision
2 31-7-17,4-8-
17
2,3
Test -2 1 7-8-17 4
Number of classes 13
Unit-III
18 Introduction to forced vibrations 1 11-8-17 1
19 Forced vibrations with constant
harmonic excitation
2 14-8-17,18-8-17 1
20 Steady state vibrations 1 19-8-17 1
21 Forced vibration with rotating &
reciprocating masses
1
28-8-17 1,3
22 Vibration isolation and
transmissibility
1
30-8-17 1,2
23 Vibration measuring instruments 2 1-9-17,2-9-17
1,2
24 Revision
1 4-9-17 2,3
25 Test -3 1 6-9-17 4
2
Numb
er of
classe
s
Number of classes 12 8-9-17
Unit-IV
Unit-IV
26 Introduction to Two degrees of
freedom systems 2
11-9-17,15-
9-17 1
27 Principal modes of vibrations 1 16-9-17 1,2
28 Simple cases of two degree of
freedom 1 18-9-17
29 Two masses attached to string 1 20-9-17 1,3
30 Double pendulum 2 22-9-17,23-
9-17
1,3
31 Vibration absorber 2 04-10-17 1
32 Revision 1 06-10-17 2,3
32 Test -4 1 07-10-17 4
Number of classes 11
Unit-V
Unit-IV
33 Introduction to Multi degree of
freedom systems
2 09-10-17,11-10-17
1
34 Undamped free vibrations of a multi
degree of freedom
system
2 11-10-17
35 Influence coefficients & Flexibility
coefficients
2 13-10-17,14-
10-17 1,3
36 Maxwell reciprocal theorem 1 16-10-17 1,3
37 Torsional vibrations of multi rotor
systems
2 16-10-17 1,3
38 Vibrations of geared systems 2 18-10-17,20-
10--17 1,3
39 Rayleigh’s method 1 21-10-17 1,3
40 Revision 1 23-10-17 2,3
41 Test -5 1 25-10-17 4
Number of classes 14
42 Content beyond the syllabus: 3 27-10-17,28-
10-17 1,2,3
Total Number of classes 64
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
1. PRE-REQUISITES:-Basic Management Principles, Engineering Mathematics
2.COURSE EDUCATIONAL OBJECTIVES (CEOs):
The objective of this course is to introduce the concepts of formulating an engineering
problem into a mathematical model to develop an optimal solution.
3.COURSE OUTCOMES (COs):
After completion of the course student will be able to:
CO 1: Apply linear programming approach for optimizing the objectives of industrial
oriented problems.
CO 2: Formulate and solve Transportation Models and assignment Models
CO 3: Implement the strategies in competitive situations and Identify the replacement
period of the equipment.
CO 4: Analyze the waiting situations in an organization.
CO 5: Determine the optimum inventory level and resolve the complex problem into
simple problems by dynamic programming approach and apply optimum strategies.
4. Course Articulation Matrix:
Course
Code COs
Programme Outcomes PSOs
a b c d e f g h i j k l 1 2 3
S329
CO1 3 3 3 2 3 3 3 3
CO2 3 3 1 2 1 3 3 3
CO3 3 3 3 2 1 3 3 3
CO4 3 2 3 2 3 1 3 3
CO5 2 3 3 2 1 1 3 3
1 = Slightly correlated (Low) 2 = Moderately correlated (Medium) 3-Substantially correlated (High)
5.Course Delivery Plan:
Name:B.UDAYA LAKSHMI, Assistant Professor Course: VII-Sem (IV yr B.Tech)
S.NO TOPIC TO BE COVERED
No. of Classes
Date DM As per the Schedule
Taken
UNIT – I : INTRODUCTION to OR, LINEAR PROGRAMMING PROBLEM
1 INTRODUCTION: Introduction to Operations Research
1 27-06-2017 DM 1
2 operations research models, applications 1 28-06-2017 DM 1
3 Linear Programming Problem (LPP): Linear Programming Problem Formulation
1 30-06-2017 DM 1
4 Numericals 1 01-07-2017 DM 1
5 Tutorial I, Quiz I 1 04-07-2017 DM2 /DM4
Department: ASE Program: B.Tech OPERATIONS RESEARCH(S329)
SEM: VII Academic Year: 2017-18
LESSON PLAN
6 LPP: Graphical Method, Numericals 1 05-07-2017 DM 1
7 Graphical solution for Special Cases of LPP 1 07-07-2017 DM 1
8 Simplex Method, Numericals 1 11-07-2017 DM 1
9 Numericals 1 12-07-2017 DM 1
10 Big M Method (Artificial Variable Technique) 1 14-07-2017 DM 1
11 Numericals 1 15-07-2017 DM 1
12 Two Phase Simplex Method (Artificial Variable Technique)
1 18-07-2017 DM 1
13 Tutorial II, Quiz II 1 19-07-2017 DM2 /DM4
14 Numericals 1 21-07-2017 DM 1
15 Duality Principle 1 22-07-2017 DM 1
16 Numericals 1 26-07-2017 DM 1
17 Tutorial III, Quiz III 1
28-07-2017 DM2 /DM4
Number of classes 17
UNIT-II
18 TRANSPORTATION PROBLEM (TP) : Introduction to TP, Terminology, Formulation
1 29-07-2017 DM 1
19 Standard form, Unbalanced T P, Numericals 1 01-08-2017 DM 1
20 Initial Basic Feasible Solution to TP: North West Corner Method, Least Cost Entry Method, Vogel’s Approximation Method (VAM)
1 02-08-2017 DM 1
21 Tutorial IV, Quiz IV 1 04-08-2017 DM2 /DM4
22 Test for Optimality: Stepping Stone Method, Modified Distribution Method (MODI Method)
1 05-08-2017 DM 1
23 Numericals 1 08-08-2017 DM 1
24 Degeneracy in TP, Numericals 1 09-08-2017 DM 1
25 ASSIGNMENT PROBLEM (AP):Introduction to AP, Terminology; Tutorial V, Quiz V
1 11-08-2017 DM1, DM2 /DM4
26 Variants of Assignment Problem 1 16-08-2017 DM 1
27 Optimal Solution, Numericals 1 18-08-2017 DM 1
28 Travelling Salesmen Problem, Numericals 1
29-08-2017 DM 1
Number of classes 11
UNIT-III
29 GAMES THEORY: Introduction to Games Theory, Terminology
1 30-08-2017 DM 1
30 Minimax or Maxmini Criterion, Optimal Strategy 1 01-09-2017 DM 1
31 Solution of games with saddle point 1 05-09-2017 DM 1
32 Tutorial VI, Quiz VI 1 06-09-2017 DM2 /DM4
33 Rectangular games without saddle point, Numericals
1 08-09-2017 DM 1
34 mx2, 2xn, mxn games, Dominance Principle, Numericals
1 12-09-2017 DM 1
35 Graphical approach, Numericals 1 13-09-2017 DM 1
36 Tutorial VII, Quiz VII 1 15-09-2017 DM2 /DM4
37
THEORY OF REPLACEMENT: Introduction, Replacement of Equipment that Deteriorates Gradually, Numericals
1 16-09-2017 DM 1
38 Replacement of Equipment that fails suddenly, Numericals
1 19-09-2017 DM 1
39 Group Replacement Policy, Numericals 1 20-09-2017 1
40 Tutorial VIII, Quiz VIII 1 22-09-2017 DM2 /DM4
Number of classes 12
UNIT-IV
41 WAITING LINES: Introduction to Queuing Theory
1 23-09-2017 DM 1
42
Single Channel – Poisson arrivals – exponential service times – with infinite population, Derivation, Numericals
1 26-09-2017 DM 1
43
Single Channel – Poisson arrivals – exponential service times – with finite population, Numericals
1 27-09-2017 DM 1
44 Tutorial IX, Quiz IX 1 29-09-2017 DM2 /DM4
45
INVENTORY MODELS: Introduction to Inventory, Inventory control, Terminology, Economic Order Quantity (EOQ), Numericals
1 03-10-2017 DM 1
46
Deterministic models –– Instantaneous production, finite production, continuous demand, no set up cost, shortages are not allowed, Derivation, Numericals
1 04-10-2017 DM 1
47 Purchase inventory models with one price break and multiple price breaks, Numericals
1 06-10-2017 DM 1
48 Tutorial X, Quiz X 1 07-10-2017 DM2 /DM4
49 Numericals 1 10-10-2017 DM 1
Number of classes 09
UNIT-V
50 DYNAMIC PROGRAMMING (DP): Introduction to DP
1 11-10-2017 DM 1
51 Bellman’s Principle of Optimality, Applications of Dynamic Programming
1 13-10-2017 DM 1
52 Tutorial XI, Quiz XI 1 17-10-2017 DM2 /DM4
53 Capital Budgeting Problem, Numericals 1 18-10-2017 DM 1
54 Shortest Path Problem, Numericals 1 20-10-2017 DM 1
55 Linear Programming Problem, Numericals 1 21-10-2017 DM 1
56 Tutorial XII, Quiz XII 1 24-10-2017 DM2 /DM4
57 INTRODUCTION TO OPTIMIZATION: Introduction 1 25-10-2017 DM 1
58 Engineering Applications of Optimization 1 27-10-2017 DM 1
59
Problem Statement, Design Vector, Design Constraints, Constraints Surface, Objective Function, Objective Function Surfaces, Numericals
1 28-10-2017
DM 1
60 Tutorial XIII, Quiz XIII 1 31-10-2017 DM2 /DM4
61 Classification of Optimization Problems 1
01-11-2017 DM 1
62 Optimization Techniques: Introduction, Single Variable Optimization
1
03-11-2017 DM 1
Number of classes 13
Total number of classes 71
Delivery Methods (DM): DM1: Lecture interspersed with discussions/BB
DM4: Assignment/Test
DM2: Tutorial
DM5: Demonstration (laboratory, field visit)
DM3: Lecture with a Quiz
DM6: Presentations/PPT
Course
Coordinator
Module
Coordinator
Programme
Coordinator HOD
Signature
Name of the
Faculty
B.UDAYA
LAKSHMI J.SUBBA REDDY S.PICHI REDDY P.LOVA RAJU
1. Pre-requisites: Engineering Physics, Fluid Mechanics, Thermodynamics, Heat
Transfer.
2. Course Educational Objectives (CEOs): To learn about Wind tunnels, different
Flow Visualization methods, Instrumentation for measuring fluid velocity,
temperature and pressure. Also to learn about data acquisition and
uncertainty analysis.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : Employ the wind tunnels for aerodynamic testing of bodies.
CO2 : Adopt and use a visualization techniques to understand the flow field.
CO3 : Employ the suitable instrument to measure the velocity, temperature and
pressure of fluid flow.
CO4 : Acquire experimental data and to estimate the uncertainty in measured values
during experimentation.
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S408
CO1 3 3 1 2 3 3 3 3
CO2 3 3 2 3 3 3 1 2 2 3 3 3 3
CO3 3 3 3 3 3 3 2 2 3 3 3 3
CO4 3 3 3 3 3 3 1 2 2 3 3 3 3
CO5 3 3 3 3 3 1 3 1 2 2 3 3 3 3
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: ASE Program: B.Tech Course: IMEF (S275)
SEM: VII Academic Year: 2017-18
LESSON PLAN
4. Course Delivery Plan:
S.No Topic to be Covered No.of Classes
Date DM Schedule Taken
UNIT I
1 Introduction to fluid measurements 1 27-06-2017 1
2 Need of experimental study and objectives, Components of Measurement systems.
1 28-06-2017 1
3 Performance Terms 1 30-06-2017 1
03-07-2017 to 08-07-2017 CRT Classes
4 Tutorial I 1 10-07-2017 3
5 Introduction to wind tunnels, Classification 1 11-07-2017 1
6 Low speed wind tunnels 1 12-07-2017 1
7 Power losses in the wind tunnels 2 14-07-2017
17-07-2017 1
8 Energy ratio, High speed tunnels 2 18-07-2017
19-07-2017 1
9 Instrumentation to the low speed tunnels 2 21-07-2017
24-07-2017 2
10 Wind tunnel balance, Balance Calibration 3 25-07-2017
26-07-2017
28-07-2017 2
Number of Classes 15
UNIT II
11 Introduction to the visualization techniques,
Classification. 1 31-07-2017 1
12 Smoke tunnel principle and operation 1 01-08-2017 1
13 Smoke generators, Interferometer
2 02-08-2017
04-08-2017 1
14 Schlieren technique 1 07-08-2017 1
15 Tutorial II 1 08-08-2017 3
16 Shadowgraph 1 09-08-2017 1
17 Hele-Shaw apparatus principle and physics 2 11-08-2017
14-08-2017 1
18 Hydraulic analogy 1 16-08-2017 1
19 Electrolyte tank, Hydraulic jumps 1 18-08-2017 1
Number of Classes 11
First Mid Examinations 21-08-2017 to 26-08-2017
UNIT III
20 Introduction 1 28-08-2017 1
21 Velocity and Mach number from pressure
measurements 1 29-08-2017 1
22 Laser droplet anemometer (LDA) principle,
Doppler shift equation 1 30-08-2017 2
23 Reference beam system, Fringe system 1 01-09-2017 2
24 Tutorial III 1 04-09-2017 3
25 Hot wire anemometer introduction and
principle 1 05-09-2017 1
26 Constant current Hot-wire anemometer (CCA) 1 06-09-2017 1
27 constant temperature anemometer (CTA) 1 08-09-2017 1
28 Hot wire probes 1 11-09-2017 2
29 Limitations of Hot-wire anemometer, Vortex
shedding 1 12-09-2017 3
30 Measurement of velocity by vortex shedding 1 13-09-2017 1
31 Fluid jet anemometer 1 15-09-2017 1
Number of Classes 12
UNIT IV
36 Pressure measurement techniques-
Introduction 1 18-09-2017 2
37 Barometers, Manometers 1 19-09-2017 2
38 Dial type pressure gauge, pressure transducers 1 20-09-2017 2
39 Pitot, static and pitot-static probe 1 22-09-2017 2
40 Characteristics of probes 1 25-09-2017 1
41 Tutorial-IV 1 26-09-2017 3
42 Flow direction measurement probes ,Low
pressure measurement gauges 1 27-09-2017 1
43 Temperature Measurement- Introduction 1 03-10-2017 1
44 Thermometers and Thermocouples - Principle
and operation 1 04-10-2017 5
45 RTD and Thermisters , Pyrometers 1 06-10-2017 1
46 Temperature measurements in fluid flows 1 09-10-2017 1
Number of Classes 11
UNIT V
47 Introduction to Data Acquisition 1 11-10-2017 1
48 Data Acquisition Principle, Generation of
Signal 1 13-10-2017 1
49 Signal Conditioning, Multiplexing, Data
Conversion 1 16-10-2017 5
50 Data Storage and Display, Data Processing, 1 17-10-2017 1
51 Tutorial-V 1 20-10-2017 3
52 Digital Interfacing, Data Acquisition using
Personal Computers 1 23-10-2017 1
53 Introduction to Uncertainty 1 24-10-2017 1
54
Estimation of measurement errors, External
estimation of errors, Internal estimate of the
error
1 25-10-2017 1
55 Uses of uncertainty analysis, Uncertainty
estimation 1 27-10-2017 1
56 Uncertainty in flow Mach number, 1 30-10-2017 1
57 Uncertainty calculation 1 31-10-2017 1
58 Advanced Topics 1 01-11-2017 5
59 Advanced Topics 1 03-11-2017 5
Number of Classes 13
Total Number Classes 62
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
1. Pre-requisites: Propulsion-I, Propulsion -II
2. Course Educational Objectives (CEOs):
• To know the properties of liquid fuels
• To know the properties of various solid propellants
• To learn the properties of liquid propellants
• To learn the properties of cryogenic propellants
• To know the testing procedures and facilities of propellants
3. Course Outcomes (COs): At the end of the course, the student will be able :
CO1: Analyse the characteristics of aviation fuels used in aircrafts
CO2: Analyse the characteristics of solid propellant composites used in rocket
propulsion
CO3: Analyse the characteristics of liquid propellants used in rocket propulsion
CO4: Analyse the properties of cryogenic propellants
CO5: Test the propellants to estimates their characteristics
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
S123
CO1 3 3 2 3 2 2 3 3 3 3
CO2 2 1 1 2 1 1 2 1 2 1
CO3 3 3 2 3 2 2 3 3 3 3
CO4 2 1 1 1 1 1 2 1 2 1
CO5 3 2 2 2 2 2 3 2 3 2
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
Department: AEROSPACE Program: B.Tech Course: PROPELLANT TECHNOGY (S 359)
SEM: VII Academic Year: 2017-18
CEOs and COs
5. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule
Taken
UNIT-1 LIQUID FUELS
1 Introduction to Propellant
Technology
1
28-06-17 2
2 Introduction to Liquid fuels 1 30-06-17 1,2
3 Motor gasoline
1 01-06-17 2
4 Aviation gasoline 1 03-07-17 1,2
5 Aviation turbine fuels
1 05-07-17 2
6 Properties for petroleum
products
1
07-07-17 2
7 Tutorial -I 1 08-07-17 2
8 Tests for petroleum products
1 10-07-17 2
9 Requirements for fuel oils
1 12-07-17 2
10 Requirements Of aviation fuels
of kerosene
1
14-07-17 2
11 Requirements Of aviation fuels
of high flash point type
1
15-07-17 2
12 Tutorial-II 1 17-07-17 2
13 Assignment -I 1 19-07-17 1
14 Revision Of UNIT-1 1 21-07-17 4
Number of classes 14
15
UNIT-II SOLID PROPELLANTS
15 Introduction to solid
propellants
1 22-07-17
2
16 Single base propellants
1 24-07-17 2
17 Double base propellants
1 26-07-17 1,2
18 Composite propellants
1 28-07-17 2
19 CMBD propellants
1 29-07-17 2
20 Tutorial-III 1 31-07-17 2
21 Metalized composite propellants
1 02-08-17 2
22 different fuels and oxidizers of
composite propellants
1 04-08-17
2
23 Combustion Instabilities and their
classification
1 05-08-17
2
24 Classification of Solid Propellant
Grains Shapes
1 07-08-17
2
25 Tutorial -IV 1 08-08-17 1
26 Assignment -II 1 09-08-17 4
27 Revision Of UNIT-II 1 10-08-17
28 Mid Exam 1 11-08-17
29 Mid Exam 1 12-08-17
30 Mid Exam 1
Department: AEROSPACE Program: B.Tech Course: PROPELLANT TECHNOLOGY (S 359)
SEM: VII Academic Year: 2017-18
LESSON PLAN
31 Mid Exam 1
32 Mid Exam 1
33 Mid Exam 1
Number of classes
UNIT-III LIQUID PROPELLANTS
34 Introduction to liquid
propellants
1 16-08-17
2
35 Classification of Liquid
propellants
1 18-08-17
2
36 Mono Propellants ,Bi-
Propellants
1.
1 19-08-17
1,2
37 Non Hypergolic and Hypergolic
Systems
1 21-08-17
1,2
38 Gel Propellants systems
1 23-08-17 2
39 Tutorial -V 1 25-08-17 2
40 Various Tank Configurations
1 26-08-17 2
41 Tank Ullage
1 28-08-17 2
42 Propellant Slosh
1 30-08-17 2
43 Ignition Delay
1 01-09-17 2
44 Performance of selected
Bipropellant systems
1 02-09-17
2
45 Tutorial -VI 1 04-09-17 1
46 Assignment -III 1 06-09-17 4
47 Revision Of UNIT-III 1 08-09-17 2
Number of classes 13
UNIT-IV CRYOGENIC PROPELLANTS
48 Introduction to Cryogenic
Propellants
1 08-09-17
2
49 Storage
1 09-09-17 2
50 Handling 1 11-09-17 2
51 Limitations 1 13-09-17 2
52 Tutorial -VII 1 15-09-17 2
53 Geysering Phenomenon
1 16-09-17 1,2
54 Elimination of Geysering Effect
in Missiles
1 18-09-17
1,2
55 Assignment -IV 1 20-09-17 2
2 56 Revision Of UNIT-IV 1 22-09-17 2
Number of classes 13
Unit-V PROPELLANT TESTING
57 Introduction 1 23-09-17
58 Laboratory testing
1 25-09-17
59 Arc Image Furnace
1 26-09-17
60 Differential Thermal Analysis
1 27-09-17 2
61 Thermo-gravimetric Analysis
1 29-09-17 2
62 Particle size measurement Micro-
merograph
1 30-09-17
2
63 Tutorial -VIII 1 02-10-17 2
64 Strand burner tests impulse bomb
1 04-10-17 2
65 Ignitability studies
1 06-10-17 1,2
66 Performance estimation 1 07-10-17 1,2
67 Tutorial -IX 1 09-10-17 2
68 Assignment -V 1 11-10-17 2
69 Revision Of UNIT-V 1 13-10-17 2
70 Mid Exam 1 14-10-17 4
71 Mid Exam 16-10-17
72 Mid Exam 17-10-17
73 Mid Exam 18-10-17
74 Mid Exam 19-10-17
75 Mid Exam 20-10-17
Number of classes 11
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature
Name of the Faculty
PRINCIPAL
1. Pre-requisites:
2. Course Educational Objectives (CEOs):
CEO should be a paragraph in two or three sentences only.
3. Course Outcomes (COs): At the end of the course, the student will be able to :
CO1 : To formulate the basic fluid dynamics problem mathematically
CO2 : To analyze the mathematical behaviour of partial differential equations
CO3 : To apply the grid generation principles for different problems.
CO4 : To solve elementary incompressible fluid problems using the CFD techniques
CO5 : To solve the elementary heat transfer problems using the CFD techniques
4. Course Articulation Matrix:
Course
Code
COs Programme Outcomes PSOs
1 2 3 4 5 6 7 8 9 10 11 12 1 2 3
T170
CO1
CO2
CO3
CO4
CO5
1 = Slight (Low) 2 = Moderate (Medium) 3-Substantial(High)
4. Course Delivery Plan:
S.NO TOPIC TO BE COVERED No.of Classes
Date DM As per the
Schedule Taken
Unit-1
1 UNIT1- Introduction and Applications 2 4/7
5/7
27-06-2017
28-06-2017 2
2 Introduction to Control Volume and
Substantial Derivative 2
6/7
7/7
29-06-2017
30-06-2017 1
3 Divergence of Velocity 1 11/7 04-07-2017 1
4 Derivation of Continuity Equation (for
four physical models) 2
12/7
13/7
05-07-2017
06-07-2017 1
Department: ASE Program: B.Tech Course : – CFD
SEM: VII Academic Year : 2017-18
LESSON PLAN
5 Tutorial - 1 1 14/7 07-07-2017
5 Various forms of Continuity Equation
and their significance
1 18/7
19/7 11-07-2017 1
6 Momentum Equation (for one
Physical model)
2 20/7 12-07-2017
13-07-2017 1
7 Energy Equation (for one Physical
model)
1 26/7 14-07-2017 1
Tutorial - 2 1 27/7 18-07-2017
8 Conservation and Non-Conservative
forms of Equations
1 28/7 19-07-2017 1
9 UNIT2 - Introduction to PDEs 2 31/7 20-07-2017
21-07-2017 1
10 Classifications of Quasi-Linear PDEs 2 1/8
2/8
25-07-2017
26-07-2017 1
Tutorial - 3 1 2/8 27-07-2017
11 Eigen Value method 1 4/8 28-07-2017 1
12 Hyperbolic Equations, Parabolic
Equations, Elliptic Equations 4
4/8
16/8
17/8
01-08-2017
02-08-2017
09-08-2017
10-08-2017
1
Tutorial - 4 1 18/8 11-08-2017
13 Identifying the type of Equation 2 18/8 16-08-2017
18-08-2017 3
14
I MID
EXAMINATIONS
21-08-2017 TO
28-08-2017
15 Unit – 3- Introduction to
Discretization
2 30/8
31/8
29-08-2017
30-08-2017 1
16 Introduction to Finite Differences 1 01/9 31-08-2017 1
Tutorial - 5 1 5/9 01-09-2017
17 Difference Equations 1 6/9 05-09-2017 1
18 Explicit and Implicit Approaches 3 6/9
7/9
06-09-2017
07-09-2017
08-09-2017
1
Tutorial - 6 1 12/9 12-09-2017
19 Types of errors 1 12/9 13-09-2017 1
20 Stability analysis 1 12/9 14-09-2017 1
21 Grid Generation 2
13/9 15-09-2017
19-09-2017 1
22 Unit – 4- Introduction to
Incompressible flows 1 20-09-2017 1
23 Implicit Crank-Nicolson Technique 2 21-09-2017
22-09-2017
1
24 Introduction to Pressure Correction
method 2
26-09-2017
27-09-2017 1
Tutorial - 7 1 28-09-2017
25 Demonstration - Writing code for
Pressure correction method
2 29-09-2017
03-10-2017 2
26 Computation of Boundary layer flows 3 04-10-2017
05-10-2017
06-10-2017
1
27 Tutorial - 8 1 10-10-2017 1
Revision 1 11-10-2017
28 Unit – 5 – CFD application in the field
of Heat Transfer
2 12-10-2017
13-10-2017 1
29 Finite Difference Applications in Heat
conduction and Convention
2 17-10-2017
19-10-2017 1
30 Heat conduction, in a rectangular
geometry
2 20-10-2017
24-10-2017 1
31 Transient heat conduction 2 25-10-2017
26-10-2017
1
32 Finite difference application in
convective heat transfer 2
27-10-2017
31-10-2017 1
33 Demonstration - Writing code for heat
transfer problems 1 01-11-2017 2
34 Revision 02-11-2017
03-11-2017 1
35 II MID
EXAMINATIONS
06-11-2017 TO
11-11-2017
Content beyond the syllabus:
Total Number of classes
Delivery Methods (DM):
1.Chalk & Talk 2. ICT Tools 3. Tutorial 4. Assignment/Test/Quiz
5. Laboratory/Field Visit 6. Web based learning.
Course
Instructor
Course
Coordinator
Module
Coordinator HOD
Signature