Name of Faculty: AMOL Discipline: Aeronautical Engineering Semester:4 th Subject: AIRPLANE PERFORMANCE, STABILITY AND CONTROL Lesson Plan Duration: 15 weeks (January,2018- Apri,2018) Week Theory Lecture Day Topics (including assignment test) 1 1 Atmosphere : ISA 2 Geopotential and Geometric altitude, 3 Troposphere and Stratosphere 4 stability of atmosphere. 2 5 Aerodynamic characteristics : Drag Aerodynamics 6 Drag polar, estimation of drag 7 Forces and moments from dimensional analysis 3 8 pressure distribution over airfoils 9 variation with angle of attack 10 aerodynamic centre, centre of pressure - related problems 4 11 variation of aerodynamic coefficients with Reynolds number and Mach number 12 Effect of span, aspect ratio, planform, sweep 13 taper and twist on aerodynamic characteristics. 5 14 High lift devices 15 V/STOL configurations 16 Airplane Performance in Steady and Level Flight : Equations of motion of aircraft, 17 variation of drag with flight, power required 6 18 variation of drag with power available 19 minimum drag 20 minimum power conditions 7 21 climbing performance 22 gliding performance 23 Airplane Performance in Accelerated Flight : Take off 8 24 landing distances 25 Jet Assisted 26 Take off 27 Range
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Name of Faculty: AMOL
Discipline: Aeronautical Engineering
Semester:4th
Subject: AIRPLANE PERFORMANCE, STABILITY AND CONTROL
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory
Lecture Day Topics (including assignment test)
1
1 Atmosphere : ISA
2 Geopotential and Geometric altitude,
3 Troposphere and Stratosphere
4 stability of atmosphere.
2 5 Aerodynamic characteristics : Drag
Aerodynamics
6 Drag polar, estimation of drag
7 Forces and moments from dimensional analysis
3 8 pressure distribution over airfoils
9 variation with angle of attack
10 aerodynamic centre, centre of pressure - related
problems
4 11 variation of aerodynamic coefficients with
Reynolds number and Mach number
12 Effect of span, aspect ratio, planform, sweep
13 taper and twist on aerodynamic characteristics.
5 14 Chemical, thermal and Technological Properties,
15 Board classification of aircraft materials
16 Ferrous materials, nonferrous materials and alloys
17 ceramic materials and fibre reinforced
composite materials, polymers, metal matrix
particulate.
6 18 Furnishing Materials
19 Plastic, wood, plywood
20 glue, dopes and rubber used in aircraft manufacture
7 21 Methods of testing
22 Methods of storage,
23 Paints, surface finishes and materials
8 24 Specifications: Indian Standard
25 British, American, French,
26 German, and International specifications
27 Corrosion, its detection and prevention
9 28 Protective finishes
29 Testing
30 Destructive techniques.
31 non - destructive testing techniques.
10 32 Crack detection
33 inspection of parts by hot oil
34 inspection of parts by chalk
11 35 dye-penetrant,
36 Fluorescent particles
37 magnetic particles
12 38 X-ray
39 ultrasonic
40 eddy current.
13 41 acoustic emission methods.
42
43
14 44
45
46
15 47
48
Name of Faculty: AMOL
Discipline: Aeronautical Engineering
Semester: 4th
Subject: MAINTENANCE OF RADIO & COMMUNICATION SYSTEMS
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory
Lecture Day Topics (including assignment test)
1
1 Basics of the application and identification of electrical cables used in Aircraft radio installation
2 crimping and soldering techniques
3 bonding continuity and insulation tests.
4 Composition
2 5 performance (stability and tolerance
6 limitations of the fixed resistors
7 limitations of the varistors (carbon composition, carbon film, wire wound and metallic film).
3 8 AC and DC measuring instruments:
9 Electrical power distribution systems
10 the operation and construction of static
4 11 the operation and construction of inverters,
12 the operation and construction of static rotary inverters
13 the operation and construction of transformer rectifier units.
5 14 AC and DC measuring instruments: Electrical power distribution systems, the operation and construction of static inverters, rotary inverters and transformer rectifier units. Basics of interference caused by electrical and
ignition system to radio apparatus, methods of
minimizing or suppressing such interference,
bonding and screening
15 Basics of interference caused by electrical and
ignition system to radio apparatus
16 methods of minimizing or suppressing such
interference
17 bonding and screening
6 18 Construction and Identification of various types of antennas
19 the voltage and current distribution along antenna of various length
20 characteristics of ground planes.
7 21 Very high frequency (VHF)
22 high frequency (HF)
23 airborne communications
8 24 frequency bands allocation
25 methods of propagation
26 ranges expected both day and night
27 calculation of approximate range of communication (line of sight) with given data.
9 28 The performance levels
29 specifications of typical airborne
30 VHF communication systems
31 the principle of operation
10 32 installation practices
33 functioning of the operating controls
34 maintenance of typical HF and VHF communication transceivers.
11 35 Theory of operation
36 performance level
37 specifications of an Audio Integration System
12 38 Working principles and testing of Lead Acid batteries Principles,
39 Working principles and testing of Nickel Cadmium and Silver Zinc batteries Principles,
40 Principles, Characteristics and operation of the under mentioned systems:
13 41 Automatic Direction Finder (ADF) Systems, Very High Frequency (VHF) Omn
42 Directional Range System
43 Instrument Landing Systems,
14 44 Weather Radar Systems,
45 Omega Navigation System
46 Radio Altimeter Systems, ‡ Cockpit Voice Recorder, Principles of Satellite Communications and its application to aircraft.
15 47 Cockpit Voice Recorder
48 Principles of Satellite Communications and its application to aircraft.
Name of Faculty: AMOL
Discipline: Aeronautical Engineering
Semester: 4th
Subject: AIRCRAFT INSTRUMENTATION
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory
Lecture Day Topics (including assignment test)
1
1 Measurement of circuit Units and Standards,
2 theory of measurement
3 functional analysis of measurements,
4 errors and error estimation
2 5 Measurement of voltage and current in DC and
AC
6 VTVM digital voltmeter
7 measurement of power
3 8 phase angle, power factor, Extension of range
by instrument transformers,
9 fluxmeter, measurement of frequency,
10 heterodyne techniques s
4 11 digital frequency counters, signal generator
12 LCR direct and bridge methods,
13 Waveform analysis,
5 14 Cathode ray oscilloscopes
15 measurement of harmonic and Intermodulation
distortion
16 distortion analyser, spectrum
17 lanalyser, configurations and performance
characteristics of instruments,
6 18 motion requirement, relative displacement and velocity,
19 Translational and sesmic displacement,
20 velocity and acceleration measurements,
7 21 Very high frequency (VHF)
22 Torque measurement and rotating shaft, pressure and flow
23 temperature based on expansion, electric resistance and radiation methods, Problems
involved in temperature measurements, compensation technique
8 24 Electrostatic Sensitive Devices,
25 Electromagnetic Environment Requirements
for airborne equipment,
26 sensors for the measurement of altitude, air
speed
27 acceleration, temperature, fuel flow and
quantity. Instrument displays,
9 28 The performance levels
29 Moving map display
30 multifunction displays
31 head-up displays
10 32 glass cockpit
33 Cockpit lighting
34 panels: integral,
11 35 glopanels,
36 Typical Electronic/
37 Digital Aircraft Systems:
12 38 ECAM, (Electronic Centralised Aircraft
Monitoring),
39 EFIS (Electronic Flight InstrumentSystems), ,
40 EICAS (Engine Indicating & Crew Alerting
Systems
13 41 FMS (Flight Management Systems)
42 Directional Range System
43 Instrument Landing Systems,
14 44 Weather Radar Systems,
45 Omega Navigation System
46 Radio Altimeter Systems, ‡ Cockpit Voice Recorder, Principles of Satellite Communications and its application to aircraft.
15 47 Cockpit Voice Recorder
48 Principles of Satellite Communications and its application to aircraft.
Name of Faculty: AMOL
Discipline: Aeronautical Engineering
Semester: 6th
Subject: AIRCRAFT PRODUCTION
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory
Lecture Day Topics (including assignment test)
1
1 Introduction: Function of process planning
(Methods)
2 Organizing for process planning
3 production planning and control
4 Relationship with other departments
2 5 Tool engineering.
6 Heat Treatment
7 Final and intermediary heat treatment operations
carried out on aircraft materials (both ferrous and
non-ferrous
3 8 the equipment used,
9 the importance of test pieces
10 Finishing by anodizing
4 11 General activities
12 carried out in manufacturing
13 assembly shops
5 14 machine shop
15 sheet metal shop
16 welding shop
17 plastic shop
6 18 assembly shop
19 Jigs and Fixtures: Importance of special
production tools used in manufacturing activity of
various types of jigs and fixtures used in aircraft
industry
20 Difference between jigs and fixtures.
7 21 Design consideration
22 Choice of materials
23 Types of assembly fixtures such as table box
8 24 picture-frame, next and so on
25 Typical jigs for wings,
26 fuselage and control surfaces
27 jigs and fixtures for turning, milling and drilling
9 28 Universal tooling
29 Cutting Tools: Theory of metal cutting
30 typical types of cutting tools used in the
manufacturing shops
31 the advantages of tipped tools. Ceramic tools, tool
life, optimum cutting speeds and feeds
10 32 factors limiting speeds, feeds and cuts
33 New development in cutting tools, use of DBN
Diamond
34 ceramics and coating on cutting tools
11 35 Inspection Gauges and Equipment
36 Various inspection gauges in the manufacturing
shops and their application
37 Fits, limits and tolerances, engineering reference
systems,
12 38 station and datum lines, chord and fuselage
reference lines
39 lofting aerofoil, use of templates, test equipment
used in aircraft production, necessity for and
importance of interchangeability media
40 application of inter -change-ability media viz.,
acceptance gauge
13 41 reference gauges, aperture gauges. Use of digital
read out on measuring tools
42 Process Planning : Definition of mass and batch production
43 various types of charting techniques viz., operation
process chart,
14 44 flow process chart etc., definition of planning
breakdown and its importance
45 factors to be considered for process planning,
comparison of methods, simple exercise on process
planning
46 simple machine shop and sheet metal components
15 47 Different approaches in process planning during pre-production and production phases.
48 Process Shop: Theory of planting, finishing processes carried on aircraft materials - planting and finishing equipment
Name of Faculty: AMOL
Discipline: Aeronautical Engineering
Semester: 6th
Subject: wind tunnel technique
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory
Lecture Day Topics (including assignment test)
1
1 Wind Tunnel as a Tool: Types of wind tunnels,
2 special purpose wind tunnels
3 Wind Tunnel Design: Test section
4 diffuser
2 5 fan section
6 fan design
7 , return passage
3 8 cooling,
9 the breather- vibration
10 test section flow quality
4 11 , diffuser design,
12 wind tunnel construction
13 , energy rat
5 14 , final form
15 Instrumentation and Calibration of Test Section:
Measurement of pressure
16 velocity, turbulence
17 , flow angularity
6 18 , hot wire anemometry,
19 laser velocimeter
20 , data acquisition
7 21 flow visualizatio
22 , wind tunnel calibration
23 Model Forces, Moment and Pressure
Measurement
8 24 Wind tunnel balances
25 - Internal & External balances design of wind
tunnel balances
26 , Wake survey method
27 Wind Tunnel Correction: Method of Images
9 28 , boundary corrections
29 , buoyancy corrections
30 wake blockage
31 solid blockage- (2D & 3D corrections
10 32 Non Aeronautical Uses of the Wind Tunnel
33 Applications in wind engineering
34 Surface vehicle testing
11 35 testing of buildings for wind force
36 , pollution,
37 other application
12 38 , other applications at low Reynolds numbers
39
40
13 41
42
43
14 44
45
46
15 47
48
Name of Faculty: AMOL
Discipline: Aeronautical Engineering
Semester: 6th
Subject: NON DESTRUCTIVE EVALUATION
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory
Lecture Day Topics (including assignment test)
1
1 Importance of NDT in quality assurance
2 Different types of non destructive techniques to
obtain information regarding siz
3 location of damage or cracks
4 orientation of damage or cracks
2 5 Visual inspection techniques
6 coin tapping technique for composite structures
7 adhesive bonds.
3 8 Ultrasonic testing
9 Pulse echo technique
10 pitch-catch technique
4 11 through transmission technique
12 A-scan
13 B-Scan
5 14 C-scan
15 Acoustic emission
16 Sources of acoustic emission in composites
17 peak amplitude
6 18 rise time during event
19 ring-down counts duration of events
20 X-ray radiography
7 21 Absorption spectra
22 short wave length,
23 X-ray for detection of voids
8 24 Die penetration technique
25 Magnetic particle testing
26 In each of the above techniques, (i) theory
27 In each of the above techniques, (i) theory basic
principles,
9 28 advantages
29 disadvantages,
30 (ii) material of parts that can be inspected
31 (iv) physical size
10 32 shape limitation
33 economics of process
34 types of defects that can be detected
11 35 environment limitation are to be discussed alongwith equipment used for each of the techniques.
36
37
12 38
39
40
13 41
42
43
14 44
45
46
15 47
48
Name of Faculty: AMOL
Discipline: Aeronautical Engineering
Semester: 6th
Subject: Aircraft propulsion-II
Lesson Plan Duration: 15 weeks (January,2018- Apri,2018)
Week Theory
Lecture Day Topics (including assignment test)
1
1 Steady 1-D Gas Dynamics: Basics
2 Simple flows; Nozzle flow
3 nozzle design, nozzle operating
4 nozzle flow and shock waves
2 5 Nozzle characteristics of some operational Engines
6 Rayleigh flow and Fanno flow
7 Inlet: design, sizing
3 8 performance for various flow regimes
9 Nozzle: C-D Nozzle performance
10 Effects of back pressure
4 11 exit area ratio and mass flow Combustion Systems
12 Basics of combustion chamber
13 Ignition system
5 14 Flame stability and after burners.
15 basic assumptions
16 Applications to (i) Ramjet
17 (ii) Turbojet with and without after burner
6 18 (iii) Turbo fan Engine, optimum by pass ratio
19 (iv) Turbo-Prop Engine Cycle analysis of real engines