Department of Aeronautical and Automobile Engineering · Introduction to Thermodynamics-System,...

The department of Aeronautical and Automobile Engineering, MIT,

established in the year 2008, prepares engineers for success and

leadership in the conception, design, implementation, and operation of

aerospace, automobile and related engineering systems. We achieve

this through our commitment to the Educational excellence, creation,

development and application of technologies critical to aerospace

vehicle and automobile engineering, the architecture and engineering of

complex high-performance systems. The department has very good

industry-institute interaction and has conducted workshops for working

professionals and students from various institutes and industries.

• B. Tech - Aeronautical Engineering (since 2008)• B. Tech - Automobile Engineering (since 2008)

• World class Infrastructure.• Well equipped Aerodynamics, Propulsion and Aircraft Structures

Laboratories.• Automobile Laboratory equipped with automotive engines,

automotive transmission system, computerized vehicle testing, andautomotive machine shop.

• Fabrication lab including filament winding machine, compositematerials and other related facilities.

Dr Sathish Shenoy B.,

Academic Programmes Offered

Facilities and Resources

Head of the Department

Faculty List

Ph.D (Manipal University)

Department of Aeronautical and Automobile Engineering

Professor

Associate Professor

Assistant Professor - Senior Scale

Assistant Professor

Dr Rammohan Pai B.,

Dr Dayananda Pai K.,

Mr Laxmikant G. Keni,

Mr Padmaraj N. H.,

Mr Srinivas G.,

Mr Shiva Prasad U.,

Mr Ravishanker Baliga B.,

Mr Chethan K. N.,

Mr Kamlesh Kumar,

Mr Jayakrishnan Radhakrishnan,

Mr Umananda K. V.,

Mr Yogeesha Pai,

Mr Manikandan M.,

Mr Vishnu G. Nair,

Mr Balbir Singh.,

Ms Thara Reshma I. V.,

Mr Anand Pai,

Ms Divya D. Shetty,

Ph.D (Manipal University)

Ph.D (NITK, Suratkal)

M.Tech

M.Tech

M.Tech

M.Tech

M.Tech

M.Tech

ME

MS

M.Tech

M.Tech

M.Tech

M.Tech

M.Tech

M.Tech

BE (on contract)

BE., BE

Assistant Professor - Selection grade

Mr Mahesha G. T.,

Mr Gajula Rahul,

M.Tech

M.Tech

(on contract)

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Minor Specializations

I. Aerodynamics

II. Business Management

Other Programme Electives

Open Electives

1. AAE 4001, Aerodynamics of Rockets and Missiles

2. AAE 4002, Computational Fluid Dynamics

3. AAE 4003, Hypersonic Aerothermodynamics

4. AAE 4004, Unsteady Aerodynamics

1. HUM 4011, Financial Management

2. HUM 4012, Human Resource Management

3. HUM 4013, Marketing Management

4. HUM 4014, Operations and Systems Management

1. AAE 4005, Aeroelasticity

2. AAE 4006, Aircraft Systems and Instruments

3. AAE 4007, Composite structures

4. AAE 4008, Computer Integrated Manufacturing

5. AAE 4009, Navigation, Guidance and Control

6. AAE 4010, Optimal Control

7. AAE 4011, Optimization Techniques

8. AAE 4012, Orbital Mechanics

9. AAE 4013, Performance of Gas Turbine

10. AAE 4014, Robust Control

11. AAE 4015, Space Flight Dynamics

12. AAE 4016, Statistical Quality control

13. AAE 4017, Turbo machinery Aerodynamics

1. AAE 3281, Introduction to Aerospace Engineering

2. AAE 3282, Introduction to Avionics and Navigation systems

THIRD SEMESTER

MAT 2101 ENGINEERING MATHEMATICS - III

References:

AAE 2101: AIRCRAFT STRUCTURES [3 1 0 4]

References:

AAE 2102: AIRCRAFT PRODUCTION TECHNIQUES [3 1 0 4]

References:

: [2 1 0 3]

Gradient, divergence and curl, Line, surface and volume integrals,Green's, divergence and Stoke's theorems, Fourier series of periodicfunctions, Half range expansions, Harmonic analysis, Fourier integrals,Sine and cosine integrals, Fourier transform, Sine and cosinetransforms, Partial differential equation-Basic concepts, solutions ofequations involving derivatives with respect to one variable only,Solutions by indicated transformations and separation of variables, One-dimensional wave equation, one dimensional heat equation and theirsolutions, Numerical solutions of boundary valued problems, Laplaceand Poisson equations and heat and wave equations by explicit methods.

1. Erwin Kreyszig, , (5e), WileyEastern, 1985.

2. S, S, Sastry, ,Prentice Hall .

3. B, S, Grewal, , Khanna Publishers1989.

4. MurrayR,Spiegel, , Schaum Publishing Co 1959.

Introduction to basic elasticity, Euler buckling of columns, Bending ofBeams, Shear force and bending moment diagrams in beams, Theory ofsymmetrical and unsymmetrical bending of beams, Bending of open andclosed thin-walled beams, Stress, strain and displacement relationshipsfor open and single cell closed section thin-walled beams under shearloads, Shear of open and closed section beams, Torsion of solidsections, open and closed section beams, Analysis of Combined openand closed section beams under Bending and Torsion, Structuralidealization, Effect of idealization on the analysis of open and closedsection beams Stress analysis of aircraft components wing andfuselage, Theory of Plates and Shells.

1. Megson T.H.G., ,Elsevier/Butterworth Publication 1999.

2. Donaldson B.K.,(2e), McGraw Hill 1993.

3. Timoshenko S, , Vol. I & II, Princeton Co,1988.

4. Mott, PHI 1998.

5. Bhavikatti S.S., (2e), New AgeInternational Publishers, 2014.

Introduction to mechanical behaviour of materials, plastic deformation ofmetals and alloys, Roles of dislocation, recovery, recrystallization andgrain growth, Iron-carbon equilibrium, TTT diagram, metals and non-metals in aviation and their applications, Introduction to compositesmaterials, Forming casting and casting processes, Introduction toconventional & non-conventional machining, Plastic materials andprocess, types of plastics, types of its mouldings, Introduction to CNCmachining and basic programming Introduction to powder metallurgy,heat treatment.

1. P.N. Rao, McGraw Hill Publication,2007.

“

“”

Advanced Engineering Mathematics”

Introductory Methods of Numerical Analysis”,

“Higher Engineering Mathematics” ,

“VectorAnalysis” ,

“Aircraft Structures for Engineering students”

,

“Analysis of Aircraft Structures An Introduction”

,

“Strength of materials”

“Applied Strength of materials”

“Theory of Plates and Shells”,

“Manufacturing Technology”,

(2e), 1990

18

2. Mikell P Groover, , JohnWiley and Sons Inc., 2010.

3. Kaushish J.P., (2e), Prentice Hall India.

4. Parashar B.S., Nagendra Mittal R.K.,, Prentice Hall India.

5. R.K., (17e), Khanna Publisher, 2013.

The first Aeronautical Engineers, Have an overview of the history of flight,Fundamental Thoughts, Ballooning, Apply basic/constitutive principles ofmechanics of fluids - Bernoulli and control volume approaches, thesource of all aerodynamic forces, Equation of state for a perfect gas,specific volume, anatomy of aircraft, anatomy of space vehicle, TheStandard Atmosphere- Definition of Altitude, Hydrostatic equation,Relation between geopotential and geometric altitude, Basics ofAerodynamics, Aircraft Flight- Airfoil Nomenclature, Lift, drag andmoment coefficient, Elements of Airplane Performance, Astronautics,Propulsion, Introduction, Types of Propulsion system.

1. John D Anderson, (6e) McGraw Hill Int,2004.

2. Dava Newman, , MITPress, 2001.

3. A.C. Kermode, (5e), Pearson Education(Singapore) Pte, Ltd.

4. John D Anderson, (5e), McGraw-Hill International, 2010.

5. Howard D Curtis,(3e), Butterworth Heinemann 2010.

Introduction to Thermodynamics-System, Zeroth Law ofThermodynamics -First law of Thermodynamics, Second Law ofThermodynamics, Clausius Inequality, Entropy, Availability andIrreversibility, Gibbs and Helmholtz Functions, Maxwell Relations ThirdLaw of Thermodynamics, Pure Substances, Ideal and Real gases-Perfect Gas Laws Compressibility charts, Mixtures of perfect GasesDalton's Law of partial pressure, Amagat's Laws of additive volumes ,Theory of psychrometry, Otto, Diesel, Dual Combustion cycles, SterlingCycle, Atkinson Cycle, Ericcson Cycle, Lenoir Cycle Thermal Efficiency,Mean Effective Pressures on Air standard basis comparison of Cycles,Brayton and Rankine cycles Performance Evaluation combined cycles.

1. G VanWylan& R.E. Sonntag, “(2e) John Wiley Pub, 1997.

2. Jones & Dugan, (1e), Prentice Hall,1996.

3. Yunus Cengel & Boles,(7e), Tata McGraw Hill, 2000.

4. J.P. Holman, (3e), McGrawHill, 1985.

5. R.K. Rajput, (9e),Laxmi Publications, 2013.

Fluid Properties and Fluid Statics, Hydro static law, Piezometer, Simpleand differential manometers, pressure gauges, Fluid Kinematics,Continuity equation in 3D flow, stream function, velocity potentialfunction, Fluid Dynamics, Continuity equation in 3D flow, streamfunction, velocity potential function, Similitude and Flow Measurement,Flow through Venturimeter and Orifice meter, flow through notches and

“Fundamentals of modern manufacturing”

“Manufacturing Processes”,

“Elements of manufacturing

processes”

Production Technology”,

“Introduction to Flight”, ,

“Interactive Aerospace Engineering and Design”

“Flight without Formulae”,

“Fundamental of Aerodynamics”,

“Orbital Mechanics for Engineering Students”,

Fundamentals of Classical

Thermodynamics”, ,

“Engineering Thermodynamics”,

“Thermodynamics An Engineering Approach”

“Thermodynamics” ,

“Thermal Engineering”,

Jain “

AAE 2103: INTRODUCTION TO AEROSPACE ENGINEERING [2 1 0 3]

References:

AAE 2104: THERMODYNAMICS [3 1 0 4]

References:

AAE 2105: FLUID MECHANICS [2 1 0 3]

weirs, Approximate solutions of Navier Stoke Equations, Prandtlcontribution, Characteristics of boundary layer along a thin flat plateExact Solutions of Navier Stokes Equations, Flow of CompressibleFluid,Thermodynamic relations, basic equations of compressible flow,velocity of sound.

1. Ethirajan Rathakrishnan, PHIpublisher, 2013.

2. K.L. Kumar, , S, Chand & Co, 2005.

3. John F Dauglas, (5e) Pearson Educationspublishers, 2005.

4. Modi & Seth,, Standard publications, New Delhi, 2002.

5. Frank N white, , McGraw Hill, 2011.

Experiments based on Fluid Properties, Calculating the viscosity usingdifferent, calorific value of fuel using gas calorimeter, Measurement ofemissivity, Heat Transfer from pin fin forced convection and freeconvection, Thermal conductivity of metal bar, Flow through orifice, Flowthrough venture meter, Flow through V-notch,Flow through pipe to findthe friction factor.

1. Ethirajan Rathakrishnan, , PHIpublisher, 2013.

2. K.L.Kumar, , S,Chand & Co, 2005.

3. John F Dauglas, (5e), Pearson Educationspublishers, 2005.



Experiments based on Tensile, Torsion, Bending, Compression, Fatigue,Impact and hardness properties of different structural materials, Non-destructive testing, Young's Modulus and Poisson ratio calculation,Superposition Principle, Maxwell's Reciprocal Theorem, Buckling ofEccentric Column and South-well plot, Wagner beam, Vibration analysisof cantilever beam.

1. Megson T.H.G.,Elsevier/Butterworth Publication 1999.

2. Donaldson B.K.,(2e), McGraw Hill 1993.

3. Timoshenko S, , Vol. I & II, Princeton Co.,1988.

4. Mott, PHI 1998.

5. Egor P Popov, , PHI 2004.

Series solutions of ordinary differential equations, Series solutions ofBessel and Legendre differential equations, Statistics, Measures ofcentral tendency mean, median, mode, measures of dispersionCorrelation coefficient, regression, curve fitting, ProbabilityIntroduction, finite sample spaces, conditional probability and

References:

AAE 2111: FLUID MECHANICS LAB [0 0 3 1]

References:

AAE 2112: STRUCTURES LAB [0 0 3 1]

References:

MAT 2201 ENGINEERING MATHEMATICS - IV

,

“Fluid Mechanics an Introduction”,

” Engineering Fluid Mechanics”

“Fluid Mechanics”,

“Fluid Mechanics Hydraulics and Hydraulics

Machines”

“Fluid Mechanics”

“Fluid Mechanics an Introduction”

“Engineering Fluid Mechanics”

“Fluid Mechanics”,


Machines”


“Aircraft Structures for Engineering students”,

,

“Analysis of Aircraft Structures An Introduction”,

,

“Strength of materials”

“Applied Strength of materials”, ,

“Engineering Mechanics of Solids” ,

: [2 1 0 3]

FOURTH SEMESTER

19

independence, Baye's theorem, one dimensional random variable, mean,variance, Two and higher dimensional random variables, mean, variance,correlation coefficient, Distributions, Binomial, Poisson, uniform,normal, gamma, Chi-square and exponential distributions, simpleproblems, Moment generating function, Functions of one dimensionaland two dimensional random variables, Sampling theory, Central limittheorem and applications.

1. Ervin Kreyzig, , McGraw Hill.

2. B, S, Grewal, , S Chand & Co,.

3. Meyer P,L, ,, American Publishing Co,.

Types of Aerodynamics flows, Aerodynamic forces and moments, Forceand moment components and coefficients, Flow over the body, Pressuredistribution on an airfoil, Types of drag, Estimation of lift, Drag andpitching moment coefficient from the pressure distribution, Experimentalmethods, wake survey, Continuity, momentum and energy equations,Elementary Flows, Introduction to Wind Tunnel Techniques, Thin airfoiltheory, Incompressible flow over finite wings, Vortex filament, Biot-Savart law and Helmholtz's theorems, Prandtl's classical lifting linetheory, Downwash and induced drag, Elliptical and modified elliptical liftdistribution, Incompressible flow over airfoil, The complex potentialfunction and conformal transformation.

1. John D Anderson, (5e), McGraw-Hill International, 2010.

2. Houghton E.L.,and Carruthers N.B.,, Edward Arnold Publishers Ltd, London, 1989.

3. Clancy L.J., , John Wiley & Sons, 1986.

4. Pitman, Milne Thomson, , Macmillan1985.

5. Jan Roskam, , DARCorporation, 2000.

Definition of thrust, Jet engine performance parameters, Simple Turbojetand Reheat engines, Single and Multi-spool Gas Turbine basedpropulsive devices, The Otto cycles; Supercharging and Performanceenhancement; Propeller fundamentals & Theories, Introduction to RealCycles, Ideal and Real Brayton cycles, Cycle components andcomponent performance, Combustion chamber, Afterburner, Nozzle,Analysis of engine real cycles, Turbojet cycle, Reheat engine cycle,Turbofan engine cycle, Turboprop Engines, Advanced jet engine cycles,Thermodynamics of Compressors and Turbines, Single and Multi-stageAxial compressor characteristics, Elements of centrifugal compressor,Centrifugal Compressor Characteristics, Surging and Choking, Varioustypes of combustion chambers in aircraft engines and performance.

1. Hill Philip, Peterson Carl,Addison Wesly, 1992.

2. Roy Bhaskar, , Elsevier Publications, 2008.

3. Mattingly J. D.,AIAA Education series, 2006.

4. El-Sayed Ahmed, ,Taylor and Francis 2008.

5. Saravanamuttoo H.I.H., Rogers G.F.C., Cohen H,Pearson, 2001.

References:

AAE 2201: AERODYNAMICS [2 1 0 3]

References:

AAE 2202: AIRCRAFT PROPULSION [2 10 3]

References:

“Advanced Engineering Mathematics”

“Higher Engineeing Mathematics” .

“Introduction to probability and statistical applications”


“Aerodynamics for Engineering

Students”

“Aerodynamics”

“Theoretical Aerodynamics”

“Airplane Aerodynamics and Performance”

“Mechanics and Thermodynamics ofPropulsion”,

“Aircraft Propulsion”

“Elements of Propulsion - Gas Turbines and Rockets”,

“Aircraft Propulsion and gas Turbine Engines”

“Gas Turbine Theory,

(2e)

AAE 2203: FLIGHT MECHANICS [2 1 0 3]

References:

AAE 2204: LINEAR CONTROL THEORY [2 1 0 3]

References:

AAE 2211: PRODUCTION LAB [0 0 3 1]

Introduction, Definition and subdivisions of flight dynamics, Forces andmoments acting on vehicles in flight, Review of Aerodynamics andPropulsion, Equations of motion and simplification for performanceanalysis, Earth's atmosphere and International Standard AtmosphereHydrostatic equation, Density, Pressure and Temperature altitude, DragPolar Low subsonic drag polar, High subsonic drag polar, Methods ofEstimating Drag Polar, Performance Analysis of Unaccelerated aircraftTake-off and landing, Climb, Descent, Cruise, Range and Endurance,Glide, Performance Analysis of Accelerated aircraft, V-n diagram, FlightManoeuvres.

1. Anderson Jr J.D., McGraw HillInternational edition, 1999.

2. G.J.J. Ruijgrok, , VSSD, 2009.

3. Pamadi B,AIAA, 2004.

4. Phillips W.F., (2e), John Wiley, 2010.

5. Anderson Jr J.D., , (5e), McGraw Hill, 2005.

Introduction to control problem, Transfer function models, System

response, Closed-loop systems, Basic characteristics of feedback

control systems,-Steady-state accuracy, disturbance rejection,

proportional, integral and derivative, Routh stability criterion, Time

response of second-order systems, Root locus method of design, Lead

and lag compensation, Frequency-response analysis, Relationship

between time & frequency response, Bode plot, Nyquist stability

criterion, Lead and Lag compensation, State variable analysis, Concepts

of state, state variable, state model, state models for linear continuous

time functions, solution of state equations, concept of controllability &

Observability.

1. Ogata K, (2e), Prentice Hall, 1991.

2. A.E. Bryson and Y-C Ho, , Taylor andFrancis, 1975.

3. Gopal M, Tata McGraw-Hill, 1997.

4. Kuo B.C., , (6e), 1993.

5. Norman Nise, (6e), John Wiley &Sons, Inc., 2010.

“Aircraft performance and design”,

“Elements of Airplane Performance”

“Performance, stability, dynamics and control of an

airplane”,

“Mechanics of flight”,

“Introduction to flight”

“Modern Control Engineering”,

“Applied Optimal Control”

“Control Systems - Principles and Design”,

“Automatic Control System”

“Control system engineering”,

Prentice Hall,

Preparation of models using welding techniques. Exercises on turning,gear cutting, shaping and grinding operations. Machining using CNCTurning Center and Vertical Machining Center.

References:

1. Hajra Chaudhury S.K., Hajra Choudhury A. K. and Nirjhar Roy,

Vol. I, Media Promoters and

Publishers Pvt. Ltd., 2003.


Vol. II, Media Promoters and


3. Peter Smid, Industrial Press, New

York, 2000.

Elements of Workshop Technology,


CNC Programming Hand book,

20

AAE2212: AERODYNAMICS AND PROPULSION LAB [0 0 6 2]

References:

AAE 2213: NUMERICAL COMPUTATIONAL LAB [0 0 6 2]

References:

AAE 3101: FLIGHT DYNAMICS [3 1 0 4]

Aerodynamic Lab Experiments, Wind tunnel calibration, Smoke flowvisualization, Surface pressure distribution over cylinder, symmetricairfoil, cambered airfoil, combined airfoil, Measurement of typicalboundary layer velocity profile on tunnel wall, Calculation of Lift, Dragand moment using six component balance, Propulsion Lab experiments,Measurement of Nozzle flow by varying the motor speeds, Free Jet andWall Jet measurements by varying speeds and position of jet, Efficiencyof Axial flow fan By variable Guide vane Position,Forced and naturalconvection over a flat plate, Calculation of calorific value of fuel,Measurement of Burning velocity in a premixed flame, performanceanalysis of Mini Gas turbine.

1. Anderson J .D., (5e) McGraw-HillInternational, 2010.

2. Houghton E.L., and Carruthers, Edward Arnold Publishers Ltd, London,

1989.

3. Jewel B Barlow, William H Rae Jr, Alan Pope,(3e), Wiley Publication, 1999.

4. Hill Philip, Peterson Carl,, Addison Wesly, 1992.

5. Roy Bhaskar, , Elsevier Publications 2008.

Numerical computation, Design of Non-linear Models, UAV dynamics,Aircraft Simulation &Systems Identification, LabVIEW- Mini Project-Aircraft Design & Simulation, aerospace, automobile and roboticsprocess simulation, circuit design.

1. Robert J Schilling and Sandra L Harries,Thomson Learning Inc., 2000.

2. Brian R Hunt, Ronald L Lipsman, Jonathan M Rosenberg, Kevin RCoombes, John E Osborn, Garrett, J Stuck,

2e (New Edn), CambridgeUniversity Press, 2011.

3. Rudra Pratap, ,Oxford University, 2010.

4. Rogelio Lozano,John Wiley & Sons Inc,, 2010.

5. Gary W Johnson and Richard Jenning,(4e), McGraw-Hill Professional, 2006.

Aircraft Equations of Motion, Basic Concepts of Aerodynamic Modeling,

Review of the Downwash Effect, Modeling of Longitudinal Aerodynamic

Forces and Moments Basic Aircraft Performance and Modeling of Thrust

Forces and Moments, Review of Different Aircraft Propulsion Systems

Determination of Power Available, Modeling of the Thrust Forces and

Moments, Modeling of the Steady-State Thrust Forces and Moments,

Modeling of the Small Perturbation Thrust Forces and Moments, Aircraft

Stability and Design for Trim Conditions, Longitudinal Dynamic Modes,

Short Period and Phugoid, Solution to Longitude Equations, Short Period

and Phugoid Mode Approximations, Sensitivity Analysis, Lateral

Directional Dynamic Modes, Rolling, Spiral, and Dutch Roll.

“Fundamental of Aerodynamics”, ,

Aerodynamics for

Engineering Students”

“Low-Speed Wind

Tunnel Testing”,

“Mechanics and Thermodynamics of

Propulsion”

“Aircraft Propulsion”

“Applied Numerical Methods

for Engineers using MATLAB and C”,

“Guide To Matlab, For

Beginners And Experienced Users”, ( )

“Getting started with MATLAB A Quick Introduction for

Scientists & Engineers”,

“Unmanned Aerial Vehicles, Embedded Control”,

“LABVIEW Graphical

Programming”,

N.B., “

FIFTH SEMESTER

References:

AAE 3102: GAS DYNAMICS [2 1 0 3]

,

References:

AAE 3103: ROCKET PROPULSION [3 1 0 4]

References:

1. M.R. NapolitanoWILEY Publications, 2012.

Schmidt L.V., “ ” AIAAEducation Series, 2001.

McRuer Det. Al. “ ”Princeton University Press, 2010.

4. Stengel R.F., Princeton University Press,Princeton, NJ, 2004.

5. Jan Roskam,DAR Corporation, 2001.

One dimensional flows Governing equations of inviscid compressibleflow, Continuity, Momentum and Energy equations in Integral andDifferential form, One dimensional flow with heat addition and friction,Normal shock conditions, Stagnation conditions, Flow through nozzleand diffusers, Subsonic and supersonic compressible flows,ObliqueShocks and Expansion Waves, Linearized Perturbation Theories,Linearized subsonic and supersonic cases, Blasius Solution, Elementsof hypersonic flows, hypersonic Shock-wave relations, InviscidApproximate Methods, Exact Numerical Methods, Method ofCharacteristics, Mach number Independence.

1. Anderson J.D., “ McGraw-HillInternational third edition Singapore, 2001.

2. Anderson J.D., McGraw-HillInternational third edition Singapore, 2003.

3. Anderson J.D., ,McGraw-Hill International second edition Singapore, 2006.

4. Houghton E.L., and Caruther N.B.,Edward Arnold Publishers Ltd., London, 1989.

5. Milne Thomson, , Macmillan, 1985.

Definitions of Thrust, Exhaust Velocity, Energy Efficiency- Nozzle Theoryand Thermodynamic Relations- Flight Performance & Effect ofPropulsion system on vehicle Performance, Liquid propellants,Propellant feed systems- Liquid propellant properties- Propellant tanks-Tank pressurization & Performance- Feed system& Support structure,Fundamentals Burning rate and Performance relations- Propellant grain,calculations- Hazards and performance, Applications and Propellants-Performance- Performance Analysis- Combustion Instability- Causes ofInstability- Combustion Analysis, Ion propulsion- Ion propulsionPerformance- Plasma Propulsion System- Performance of Plasmasystem- Nuclear propulsion System- Applications of advancedpropulsion systems, TVC (Thrust Vector Control).

1. Hill P.G. and Peterson C.R.,(2e), Reading, Massachusetts, Addison Wesley

Publishing Company, 1992.

2. Sutton G.P. and Biblarj O, (7e), NewYork, Wiley Inter science Publications, 2001.

3. Mukunda H.S., Bangalore,Interline Publishing, 2004.

4. Ramamurthi K, , Macmillan, 2009.

5. M.J.L. Turner, , Springer PraxisPublishing, 2008.

, “Aircraft Dynamics from Modeling to simulation”,

2. Introduction to Aircraft Flight Dynamics ,

3. , Aircraft Dynamics and Automatic control ,

“Flight Dynamics”,

“Airplane Flight Dynamics and Automatic Flight

Controls”,

Fundamental of Aerodynamics”,

“Modern Compressible flow”,

“Hypersonic and High Temperature Gas Dynamics”

“Aerodynamics for Engineering

Students”,

“Theoretical Aerodynamics”

“Mechanics and thermodynamics of

propulsion”,

“Rocket propulsion elements”,

“Understanding aerospace propulsion”,

“Rocket Propulsion”

“Rocket and Spacecraft Propulsion”

21

AAE 3104: AIRCRAFT DESIGN - I [2 1 0 3]

References:

AAE 3111: GEOMETRIC MODELLING LAB [0 0 3 1]

References:

AAE 3112: AIRCRAFT DESIGN LAB [0 0 6 2]

References:

Purpose and scope of airplane design; stages in airplane design;Classification of airplanes based on purpose, Design requirements andconfiguration; factors affecting airplane configuration; historicalbackground, Data collection and Preliminary three-view drawing, Weightestimation, Estimation of Wing loading and Thrust loading,Considerations for choice of Wing Parameters Airfoil section, Aspectratio, Sweep, Taper ratio, Twist, Incidence, Dihedral and Vertical location,Wing Design and Selection of wing parameters, Fuselage and Tail Sizing,Weights and Center of Gravity, Design of control Surfaces.

1. Nicolai L.M. and Carichner G.E.,AIAA Educational series, 2010.

2. Raymer D.P., (4e), AIAAeducational Series 2006.

3. Sadraey M.H., ,John Wiley and Sons, 2013.

4. Jenkinson L.R., Simpkin P, and Rhodes D, ,Arnold, 1999.

5. Howe D, , Professionalengineering publishing limited, London, 2000.

Practice on 2-D part, Command Entities, Modelling of 2-D parts andAircraft Components IC Engine connecting rod, Engine cross head,Aircraft Nose, Wing, Aileron, Assembly, 3-D modelling of AircraftComponents and Assembly.

1. Michael Michaud,McGraw Hill Professional

Publication, 2012.

2. Kirstlie Plantenberg, ,Schroff Development Publication, 2011.

3. Prof Sham Tickoo, ,Dreamtech Press Publication, 2008.

4. Richard Cozzens, Release V5, 2013.

5. Jonathan M Weaver, Nader G Zamani,Release 21.

Comparative studies of different types of airplanes and theirspecifications and performance details, Preliminary weight estimations,Selection of main parameters, Performance Calculations and stabilityestimates, Design of an aircraft wing, Design of an aircraft fuselage.

1. Nicolai L. M. and Carichner G. E.,Vol. I - Aircraft design, AIAA Educational series,

2010.

2. Raymer D.P., , AIAAeducational Series, 2006.

3. Sadraey M.H., ,John Wiley and Sons, 2013.

4. Jenkinson L.R., Simpkin P, and Rhodes D, ,Arnold, 1999.

5. Howe D, , Professionalengineering publishing limited, London, 2000.

“Fundamentals of aircraft and airship

design Vol. I - Aircraft design”,

“Aircraft design, a conceptual approach”,

,

“Aircraft design A system engineering approach”

“Civil jet aircraft design”

“Aircraft conceptual design synthesis”

“CATIA Core Tools, Computer Aided Three

Dimensional Interactive Applications”,

“An Introduction to CATIA V6 Release 2012”

“CATIA V5R17 for engineers & designers”

“CATIA V5 Workbook”,

“CATIA V5 Tutorials Mechanism

Design and Animation”,

“Fundamentals of aircraft and

airship design”,

“Aircraft design, a conceptual approach”

“Aircraft design A system engineering approach”

“Civil jet aircraft design”

“Aircraft conceptual design synthesis”

-I

(4e),

SIXTH SEMESTER

HUM 4001, ESSENTIALS OF MANAGEMENT [2 1 0 3]

References:

AAE3201: AIRCRAFT DESIGN - II [2 1 0 3]

References:

AAE 3202: FINITE ELEMENT METHOD [2 1 0 3]

Definition of management and systems approach, Nature & scope, Thefunctions of managers, Corporate social responsibility, Planning, Typesof plans, Steps in planning, Process of MBO, How to set objectives,Strategies, Policies & planning premises, Strategic planning process andtools, Nature & purpose of organising, Span of management, factorsdetermining the span, Basic departmentalization, Line & staff concepts,Functional authority, Art of delegation, Decentralisation of authority, HRplanning, Recruitment, Development and training, Theories ofmotivation, Special motivational techniques, Leadership - leadershipbehaviour & styles, Managerial grid, Basic Control Process, CriticalControl Points & Standards, Budgets, Non-budgetary control devices,Profit & loss control, Control through ROI, Direct, Preventive control,Managerial practices in Japan & USA & application of Theory Z, Thenature & purpose of international business & multinational corporations,unified global theory of management, Entrepreneurial traits, Creativity,Innovation management, Market analysis, Business plan concepts,Development of financial projections.

1. Koontz D, McGraw Hill, New York,2004.

2. Peter Drucker, AlliedPublishers, 2006.

3. Peter Drucker, , Butterworth HeinMann, 2003.

Introduction to aircraft structures,- Introduction to aircraft structures,Planning and Structural weights, Design for manufacturability, produciblity,maintainability, tooling and other considerations, Aircraft loads and aircraftmaterials,- Introduction to loads, aero elasticity, flight maneuvers, wingdesign loads, empennage loads, Buckling & Stability, Cutouts, Fastenersand structural joints, Wing box Structure and wing leading & Trailing Edges,Empennage structure & Fuselage opening, Landing Gears & EngineMounts, Fatigue, Damage tolerance, fail safe design and advancedcomposite structures,- Performance and function, design criteria andground rules, structural life estimation, fail safedesign.

1. Niu M, Conmilit Press Ltd, 1993.

2. Niu M, , Conmilit Press Ltd,1997.

3. MegsonT.H., JohnWiley & Sons, 1999.

4. E.F. Bruhn,Cincinnati, Reproduced and distributed by Tri-State Offset Co., 1958.

5. Sechler, Ernest Edwin,Dover Publications, 1963.

Introduction to matrix notations, role of computer, General steps in Finiteelement methods, Application of Finite element method, Advantages ofFinite element methods, Definition of stiffness matrix, Derivation ofstiffness matrix for spring elements, Transformation of vectors in 2D,Global stiffness matrix, computation of stresses in bar in x-y plane, Useof symmetric structure, beam stiffness, assemblage of beam stiffnessmatrices, distributed loading, beam element with nodal hinge, potential

“Essentials of Management”,

“Management, Task and Responsibility”,

“The practice of management”

“Airframe structural design”,

“Airframe stress analysis and sizing”

“Aircraft structures for engineering students”,

“Analysis and Design of Flight Vehicle Structures”,

“Airplane Structural Analysis and Design”,

22

energy method, Galerkin method for deriving he beam element equation,Basic concept of plane stress and plane strain, derivation of the constantStrain triangle element stiffness matrix and equations, Derivation of theLiner Strain triangular element stiffness matrix and examples.

1. Zienkiewicz O.C. and Taylor R.L.,, Elsevier, 2013.

2. Logan D. L., Thomson,2011.

3. RaoSingiresu S, ,Butterworth and Heinmann,, 2011.

4. Huebner Kenneth H, , John Wiley & Sons,2008.

5. Reddy J.N., , Thomson,2011.

Surface Modeling and Command Entities, Different curve generationtechniques, 3-D curve generation using different views, Sheet MetalComponent and Modeling Aircraft Nose, Fuselage, Wing and Internalcomponents.

1. Michael Michaud, “, McGraw Hill Professional

Publication, 2012.

2. Kirstlie Plantenberg, ”,Schroff Development Publication, 2011.

3. Prof. Sham Tickoo, ,Dreamtech Press Publication, 2008.

4. Paul Carman, Paul Tigwell, , (2e), OnwardPress, US, 1988.

5. Dieter R Ziethen,CATIA V5, “, McGraw-Hill Education Publisher, 2013.

Introduction to Ansys, 2D and 3D analysis of truss, beam, shell, plane,brick elements, 2D and 3D Thermal analysis, Modal Analysis of turbineblade, aircraft wing, nose and aileron Aerodynamics analysis of 2D and3D Models, Crash analysis.

1. Paleti Srinivas, Krishna Chaitanya Sambana, Rajesh Kumar Datti,PHI Publications, 2010.

2. Michael R Hatch, CRCPress Publication , 2001.

3. R.B. Choudary, , IK International , 2009.

4. Esam M.A., aylor & FrancisPublication, 2010.

5. Tadeusz Stolarski Y, Nakasone S Yoshimoto,Butterworth-Heinemann Publication, 2011.

Nature and significance, Micro & macro differences, Law of demand and

supply, Elasticity & equilibrium of demand & supply, Time value of

money, Interest factors for discrete compounding, Nominal & effective

References:

AAE3211: GEOMETRIC MODELING LAB - [0 0 6 2]

References:

AAE 3212: STRUCTURAL ANALYSIS LAB [0 0 6 2]

References:

HUM 4002: ENGINEERING ECONOMICS & FINANCIALMANAGEMENT[2 1 0 3]

“Finite element method for solid and

structural mechanics”

“First course in the finite element method”,

“Finite Element Method in engineering”

“Finite Element Method”

“Introduction to Finite Element Method”

CATIA Core Tools, computer aided three

dimensional interactive applications”

”An Introduction to CATIA V6 Release 2012

“CATIA V5R17 for engineers & Designers”

“CATIA Reference Guide”

Macro Programming with Visual Basic

Script”

“Finite element using Ansys 11.0”,

“Vibration Simulation using Matlab & Ansys”,

” Introduction to Ansys 10.0”

”Finite element simulation using Ansys”, T

“Engineering Analysis

with Ansys Software”,

II

SEVENTH SEMESTER

interest rates, Present and future worth of single, Uniform gradient cash

flow, Bases for comparison of alternatives, Present worth amount,

Capitalized equivalent amount, Annual equivalent amount, Future worth

amount, Capital recovery with return, Rate of return method, Incremental

approach for economic analysis of alternatives, Replacement analysis,

Break even analysis for single product and multi product firms, Break

even analysis for evaluation of investment alternatives, Physical &

functional depreciation, Straight line depreciation, Declining balance

method of depreciation, Sum-of-the-years digits method of depreciation,

Sinking fund and service output methods, Costing and its types Job

costing and Process costing, Introduction to balance sheet and profit &

loss statement, Ratio analysis - Financial ratios such as liquidity ratios,

Leverage ratios, Turn over ratios, and profitability ratios.

1. Blank Leland T, Tarquin Anthony J, McGraw

Hill, New Delhi,

2. Chan S, Park, , Pearson

Education, Inc

3. Raman B,S, United publications,

Bangalor 1993.

4. T, Ramachandran, , Scitech

Publications Pvt, Ltd, India, 2001.

5. Thuesen G, J & Thuesen H, G , Prentice

Hall of India, New Delhi

Dynamics of particles and rigid bodies, energy of vibration,

fundamentals of vibrations, energy equations for single degree of

freedom motion by newton method, energy method and Rayleigh's

method, free undammed vibrations, free damped vibrations; under

damped, critically damped and over damped systems, forced damped

vibrations; machine unbalance due to rotating and reciprocating masses,

support excitation and transmissibility of single degree of freedom

systems. Two degrees of freedom systems, coordinate coupling, multi

degrees of freedom systems. Influence coefficients. Transient

vibrations, step, impulse and arbitrary excitations.

1. Grover G.K. and Nigam S.P., “ Nem Chand and

Sons, 2005.

2. Rao J.S. and Gupta K,

Wiley Eastern Ltd, 2002.

3. Rao S.S., Pearson Education, 2009.

4. Thomson W.T., Pearson

Education India,2008.

5. Nataraj C, CENGAGE Learning,

2012.

Historical development of Helicopters, Helicopter Configuration, Control

Requirements, Types of Rotor Systems, Basic Power Requirements,

Momentum Theory, Blade Element Theory, Combined Blade Element and

Momentum Theories for non-uniform inflow calculation, Ideal Rotor vs

Optimum Rotor, Various Flow States of Rotor, Auto rotation in Vertical

Descent, Ground Flight, Momentum Theory in Forward Flight, Blade

Element Theory in Forward Flight, Variable Inflow Models, Rotor

Reference Planes, Hub Loads, Power Variation with Forward Speed,

Rotor Blade Flapping Motion, Helicopter blade dynamics.

References:

AAE 4101: THEORY OF VIBRATIONS [3 1 0 4]

References:

AAE 4102: HELICOPTER AERODYNAMICS [2 1 0 3]

“Engineering Economy”,

“Contemporary Engineering Economics”

.,

“Advanced accountancy”,

e,

“Accounting and Financial Management”

, “Engineering Economics”

,

Mechanical Vibration”,

“Theory and Practice of Mechanical

Vibrations”,

“Mechanical Vibrations”,

“Theory of Vibrations with Applications”,

“Vibration of Mechanical Systems”,

2002.

2010.

2005.

23

References:

AAE 4103: AVIONICS AND NAVIGATION SYSTEMS [3 0 0 3]

References:

AAE 4111: AVIONICS LAB [0 0 6 2]

References:

1. J Gordon Leishman,Cambridge University Press, 2000.

2. Johnson W, Princeton University Press, NewJersey, 1980.

3. Prouty R.W., R.E.Krieger Pub, Co, Florida, 1990.

4. Seddon J, B.S.P. ProfessionalBooks, 1990.

5. Bramwell A.R.S., , Edward Arnold Pub.,London, 1976.

Introduction to Avionics, Avionics Systems Essentials,-Displays, HMI,I/O Devices and Power, Packaging, ARINC and DOD Types, SystemCooling, EMI/EMC Requirements; Electrical Power Generation andDistribution Systems, Digital Communication, Digital Data Bus System,ARINC-429,629, AFDX, MIL-STD-1553, Fiber Optic Comm,, FMS, FBW,Autopilot, LRU, IMA & Mission Systems, Inertial Sensors and InertialNavigation Systems, Multi-sensors Navigation Systems, Kalman filterbasics & Mechanization, GPS-INS Mechanization, Point source andhyperbolic source systems, Satellites Radio Navigation,-SatelliteNavigation Systems, Orbital Mechanics & Clock Characteristics,Atmospheric effects on satellite signals, NAVSTAR Global PositioningSystems, Global Orbiting Navigation Satellites Systems, Radar & landingsystems.

1. Myron Kayton & Walter R Fried, (2e),Wiley-interscience, 1997.

2. Siouris G.M., ,Academic Press, 1993.

3. R.P.G. Collinson, Springer, 2002.

4. Ching-Fang Lin,Prentice Hall, 1991.

5. Bradford W, Parkinson & James J Spilker,Vol. I & II, AIAA Copyright, 1996.

Digital Circuit Verification, Assembly Programming, Flight Simulator,Satellite Trainer, Radar Trainer, Antenna Design Software-Hardware &Software, Data bus, Aircraft Modelling, UAV/MAV Telemetry, EmbeddedElectronics/Autopilot and Mini Project based on MATLAB/SIMULINK,LabVIEW.

1. Anil K Maini,Wiley India Pvt, Ltd,, 2008.

2. B Ram, (6e),Dhanpat Rai Publications, 2005.

3. Cary R Spitzer, (2e), AvionicsDevelopment & Implementation, CRC press, Tazlor & Francis Group,2007.

4. Gary W Johnson and Richard Jenning,(4e), McGraw-Hill Professional, 2006.

5. Brian R, Hunt Ronald L Lipsman, Jonathan M, Rosenberg, Kevin RCoombes, John Osborn, Garrett J Stuck,

(2e), Cambridge University Press,2011.

“Principles of Helicopter Aerodynamics”,

“Helicopter Theory”,

“Helicopter Performance, Stability and Control”,

“Basic Helicopter Aerodynamics”,

“Helicopter Dynamics”

“Avionics Navigation Systems”,

“Aerospace Avionics systems”, A Modern Synthesis

“Introduction to Avionics Systems”,

“Modern Navigation, Guidance, and Control

Processing”,

“The Global Positioning

System, Theory & Application”,

“Digital Electronics, Principles and Integrated Circuits”,

“Fundamentals of Microprocessor & Microcomputers”,

“Digital Avionics Handbook”,

“LABVIEW Graphical

Programming”,

“Guide to MATLAB, For

Beginners & Experienced Users”,

EIGHTH SEMESTER

AAE 4297: SEMINAR

AAE 4298: INDUSTRIAL TRAINING

AAE 4299: PROJECT WORK / PRACTICE SCHOOL

I. AERODYNAMICS

AAE 4001: AERODYNAMICS OF ROCKETS AND MISSILES [3 0 0 3]

References:

�

�

�

�

�

�

�

�

Each student has to present a seminar individually, on any technicaltopic of current interest / latest advancement / topics not covered inthe syllabus.

The topic has to approved by the Department and a report of the samehas to be submitted a week before the day of the presentation.

Each student has to undergo industrial training for a minimum periodof 4 weeks. This may be taken in a phased manner during thevacation starting from the end of third semester.

Student has to submit to the department a training report in theprescribed format and also make a presentation of the same. Thereport should include the certificates issued by the industry.

A mid-semester evaluation of the project work shall be done afterabout 8 weeks.

An interim project report on the progress of the work shall besubmitted to the department during the mid-semester evaluation.

The final evaluation and viva-voice will be conducted after submissionof the final project report in the prescribed form.

Student has to make a presentation on the work carried out, before thedepartment committee as part of project evaluation.

�

�

The project work may be carried out in the institution/industry/research laboratory or any other competent institutions.

The duration of the project work shall be a minimum of 16 weekswhich may be extended up to 24 weeks.

Aerodynamic Design Considerations, External Aerodynamic Design,Bodies of Revolution, Characteristics of Bodies of Revolution,Application of Fluid Mechanics to Aerodynamics, Aerodynamics ofRockets and Missiles, Forces Acting on a Missile, Commonly Usedformulas in Missile Aerodynamics, Non-linear Potential Equation,Linearization of Potential Equation, Aerodynamic Characteristics ofRectangular and Triangular Lifting Surfaces on the basis of SupersonicWing Theory, Simple Sweep Theory, Conformal Mapping, Listings ofMappings and Flows, Elliptic Integrals, Engineering Codes For Aero-prediction, State-of-The-Art And New Methods, Non-linear Semi-Empirical Methods.

1. Mark Pinney, McGraw-HillProfessional, 2014.

2. JackN Nielsen, McGraw Hill Publication,1960.

3. Richard Dow, John Wiley andsons, 1958

4. S.S. Chin, McGraw-Hill, 1961.

5. Michael J Hemsch, AIAA Publisher,1986.

MINOR SPECIALIZATIONS

“Aerodynamics of Missiles and Rockets”,

“Missile Aerodynamics”,

“Fundamentals of Advanced Missiles”,

“Missile Configuration Design”,

“Tactical Missile Aerodynamics”,

24

AAE 4002: COMPUTATIONAL FLUID DYNAMICS [3 0 0 3]

References:

AAE 4003: HYPERSONIC AEROTHERMODYNAMICS [3 0 0 3]

,

.

References:

AAE 4004: UNSTEADY AERODYNAMICS [3 0 0 3]

Derivation of governing equations of fluid dynamics and discussion oncharacteristic of the governing equations, the initial and boundaryconditions,Mathematical behaviour of different classes of partialdifferential equations,Discretization of governing equations using FiniteDifference and Control Volume approach,The basic solution techniquesfor steady state and transient equations, Solution of Diffusion Problems,Numerical methods for steady 1D convective flow with diffusion,Theneed for staggered grid,Discussion on SIMPLE, SIMPLER and PISOalgorithms,Implementation of Boundary Conditions in CFD.

1. John D Anderson Jr.,McGraw Hill, New York, 1995.

2. Suhas V Patankar,Hemisphere McGraw Hill, New York 1980.

3. H.K. Versteeg and W Malalasekera,

Longman Scientific & Technical, England 1995.

4. KMuralidhar and T Sundararajan, “, Narosa Publishing House, NewDelhi,2003.

5. T.J. Chung, “ , Cambridge UniversityPress, 2002.

Introduction to Hypersonic Vehicles, Classes of Hypersonic Vehicles andtheir Aerothermodynamics Peculiarities, Objectives of Generalcharacteristics of hypersonic flow, Concept of equilibrium and non-equilibrium flows, Transport Properties of Gases, Definition andTechniques of Estimation of Aerothermodynamic Environment includingCFD, Ground Based Test Facilities for Hypersonic Flow fieldMeasurements including Heat Transfer and Aerodynamic Forces,Viscous Interaction, Aerothermodynamic and Design Considerations ofHypersonic Re-entry Vehicles, Hypersonic similarity parameters,Surface pressure distribution in hypersonic flow field Real GasAerothermodynamics Phenomena, Non-equilibrium Gas flows,Approximate and exact methods in hypersonic inviscid flows, Boundarylayer and Convective heat transfer and Attached High-speed ViscousFlow, Stagnation Point Field

1. John D Anderson Jr,, McGrawHill, 1989.

2. John J Bertin, AIAA EducationSeries,, Washington DC, 1994.

3. Wallace D Hayes and Ronald F Probstein,Academic Press, New York, 1959.

4. Ernst Heinrich Hirschel, , SpringerVerlag Berlin, 2005.

5. Wilbur L Hankey, AIAA Education series,Washington DC, 1988.

Introduction, The Piston Theory, Fundamental Equations, Potential Flow,

Equation of Motion, Boundary Conditions, Linearization, Unsteady Flow,

Loewy's Problem, Wagner Function, Gust Problem, Küssner Function,

Incompressible Flow about Thin Wings, Physical Model, Steady Flow,

Lifting Line Theory, Weissinger's L-Method, Low Aspect Ratio Wings,

Unsteady Flow, Reissner's Approach, Subsonic and Supersonic Flows,

Subsonic Flow, Subsonic Flow about a Thin Wing, Subsonic Flow Past an

“Computational Fluid Dynamics- The Basics

with Applications”,

“Numerical Heat Transfer and Fluid Flow”,

“An Introduction to

Computational Fluid Dynamics- The Finite Volume Method”,

Computational Fluid Flow and Heat

Transfer”

Computational Fluid Dynamics”

“Hypersonic and High Temperature Gas

Dynamics”

“Hypersonic Aerothermodynamics”,

“Hypersonic Flow theory”,

“Basics of Aerothermodynamics”

“Reentry Aerodynamics”,

Airfoil, Kernel Function Method for Subsonic Flows, Doublet Lattice

Method, Slender Body Theory, Munk's Airship Theory.

1. Ulgen Gulcat, “

Springer Publications 2011.

2. Bisplinghoff R.L., Ashley H, Halfman R.L., Addison,

1955.

3. Dowell E.H. (editor), Curtiss H.C., Scanlan R.H., Sisto F,A

Sijthoff & Noordhoff Publications 1978.

4. H.M. Atassi,

Springer Verlag

Publications, 2011.

5. Sunetra Sarkar, K Venkatraman,

LAP Lambert Academic Publishing, 2010.

Introduction to financial management, Principle of accountancy, Sources

of long term finance, Valuation of securities, Leverages, Working capital

management, Capital budgeting, Cost of capital, Cash management, and

Dividend decisions.

1. Prasanna Chandra , Tata

McGraw Hill, Delhi .

2. I M Pandey, , Vikas Publishing house, Delhi

.

3. Subir Kumar Banerjee, , Sultan Chand & Co,,

Delhi .

4. ICFAI, , ICFAI, Hyderabad .

5. Maheshwari S N, Sultan Chand & Co,

Delhi .

Evolution and development, HRD Organization and responsibilities,

Evolution of HRM, Theories of HRM, Human resource planning, Human

Resources Inventory, Forecast, Job analysis, Job description, Job

specification, Job evaluation, Employment stability, Human Resource

Planning and Recruiting, Induction, & socialization, Training and

development, Performance management and appraisal.

1. T,V, Rao and Pereira D F,

Oxford and IBH Publishing 1986.

2. Subbrao A,,

, Himalaya Publishing House 1999.

3. N G Nair and Latha Nair,

, S, Chand Company .

4. Virmani B R; Rao Kala,

, Response books .

5. PareekUdai et al,,

, Oxford and IBH Publishing 2002.

References:

II. BUSINESS MANAGEMENT

HUM 4011: FINANCIAL MANAGEMENT [2 1 0 3]

References:

HUM 4012: HUMAN RESOURCE MANAGEMENT [2 1 0 3]

References:

Fundamentals of Modern Unsteady Aerdynamics”,

“Aeroelasticity”,

, “Modern

Course in Aero elasticity”,

“Unsteady Aerodynamics, Aeroacoustics and

Aeroelasticity of Turbomachines and Propellers”,

“Unsteady Aerodynamics of Flapping

Airfoil, Simulating the Incompressible flow field using Langrangian

particles”,

, “Fundamentals of Financial Management”

,

“Financial Management” ,

“Financial Management”

,

“Corporate Financial Management” ,

. “Financial Management”,

,

“Recent experiences in Human Resources

Development”, ,

“Essentials of Human Resource Management and

industrial Relations” ,

“Personnel Management and Industrial

Relations” ,

“Economic restructuring technology transfer

and human resource development” ,

“Human Resource Development in Asia, Trends

and Challenges” ,

2006

2007

1999

2003

2002

1995

1997

25

HUM 4013: MARKETING MANAGEMENT [2 1 0 3]

References:

HUM 4014: OPERATIONS AND SYSTEMS MANAGEMENT [2 1 0 3]

References:

AAE 4005: AEROELASTICITY [3 0 0 3]

Understanding marketing management, Assessing market opportunities

and customer value, Adapting marketing to the New Economy, Building

Customer Satisfaction, Value, and Retention, Market Demand, Scanning

the Marketing Environment, Consumer Markets, Business Markets,

Dealing with the Competition, Market Segments, Product Life Cycle, New

Market Offerings, Designing and Managing Services, Price Strategies,

Retailing, Wholesaling, Integrated Marketing Communications.

1. Philip Kotler,

, Prentice Hall of India Private Limited,

New Delhi 2000.

2. ICFAI , ICFAI, Hyderabad 2003.

3. Varshney R L and Gupta S L, Sultan Chand

& Sons, New Delh 2004.

4. Adrian Palmer, Oxford University Press,

New York 2000.

Types of production activities, Production consumption cycle, Functions

of production and operations management, Importance and uses of

forecasting, Product development and design, Product life cycle,

Process design, Process charts, Flow diagrams and Man machine

charts, Capacity planning, Aggregate planning, Scheduling, Operations

strategy, Operation performance Frontier and productivity, Systems

thinking, Systems engineering and its management, Systems decision

process, Systems thinking, structure, classification, boundaries,

visibility, System life cycle models, System dynamics and its importance

in system thinking, System dynamics modeling process.

1. Monks Joseph G, , Tata McGraw-Hill

Publishing Co, Ltd,, New Delhi .

2. Krajewski Lee J, and Ritzman Larry P,

Pearson Education (Singapore) Pte, Ltd,, Delhi 2005.

3. Mieghem J,

, ISBN, 0-9759146-6-9 .

4. Sterman J D,

McGraw Hill, International Edition .

5. Senge Peter, Currency Doubleday, New York

.

Introduction, History of Aeroelastic Problems, Definition and historical

background Introduction to Aircraft Structures, Deformation of

structures and Influence coefficients, Energy Methods, Introduction to

Lagrange's equation, Generalized coordinates Classification of

Aeroelastic Problems, Classification of problems related to static

aeroelasticity, dynamic aeroelasticity, aero servoelasticity and aero

thermoelasticity, Static Aeroelasticity, Divergence of Lifting Surfaces,

Divergence in 2 D airfoil, aileron reversal and control effectiveness,

Theordersen's unsteady aerodynamics theory, quasi-steady

aerodynamics approximation, Dynamic Aeroelasticity, Flutter

Phenomena & Calculations, airfoil undergoing pitch and flutter.

“Marketing Management Analysis, Planning,

Implementation and Control”

,

, “Marketing Management” ,

“Marketing Management”,

,

“Principles of Marketing”,

.

“Operations Management”

,

“Operations Management”,

,

“Operations Strategy, Principles and Practices, Dynamic

Ideas” ,

“Business Dynamics - Systems Thinking and Modeling

for A Complex World”, ,

“The Fifth Discipline”, ,

2004

2008

2004

1990

OTHER PROGRAMME ELECTIVES

References:

AAE 4006: AIRCRAFT SYSTEMS AND INSTRUMENTS [3 0 0 3]

References:

AAE 4007: COMPOSITE STRUCTURES [3 0 0 3]

References:

1. J Wright and J Cooper,John Wiley and Sons Ltd UK, 2007.

2. R.L. Bisplinghoff, H Ashley, R.L. Halfman, DoverPublications Inc, New York, 1996.

3. Y.C.Fung, DoverPublications Inc, New York, 1993.

4. Ulgen Gulcat,Springer Publications, 2011.

5. Dowell E.H., Curtiss H.C., Scalan R. H., Sisto F,Sijthoff and Noordhoff, 1978.

Flight Control Systems, Principles of flight control, Flight controlsurfaces, Engine control Systems, Engine Technology and Principle ofOperation, Fuel Systems, Characteristics of Fuel Systems, Description offuel system components, Hydraulic Systems, Hydraulic Circuit Design,Hydraulic Actuation, Electrical Systems, Power Generation, PneumaticSystems, Use of Bleed Air, Engine Bleed Air Control, Pitot Static Systems,Environmental Control Systems, G-Tolerence, Rain Dispersal, Anti-Misting and De-Misting, Aircraft Icing, Emergency Systems, WarningSystems, Fire Detection, Advanced Systems, Introduction, IntegratedFlight and Propulsion Control (IFPC), Vehicle Management System.

1. E.H.J. Pallett, Pitman & Co,1993.

2. Ian Moir and Allan Seabridge, (3e), Wiley EasternLtd, 2008.

3. E.H.J. Pallett,Addison Wesley Longman Publications, 1992.

4. David Lombardo, TAB books, Imprintof McGraw-Hill, 1993.

5. R.K. Barnhart, Stephen B Hottman, Doughlas M Marshall,CRC Press, Taylor &

Francis Group, 2012.

Introduction to the FRP composites, Mechanical behaviour of a lamina,Stress-Strain relations for a unidirectional and orthotropic lamina,effective Moduli of a continuous fibre reinforced lamina - Models basedon mechanics of materials, theory of elasticity, Mechanical Behaviour ofa Laminate, Stress displacement relationship, Stress strain relationship,Laminate stiffness, Determination of lamina stresses and strains,Special cases of laminate stiffness and Inter-laminar Stresses, Failure ofContinuous Fibre-reinforced orthotropic Lamina, Maximum stress/straincriteria, Tsai-Hill and Tsai-Wu criterion, Hydrothermal effects on materialproperties on response of composites.

1. R. F. Gibson, Mechanics CRCPress, 2002.

2. L. P. Kollar, George S Springer,, Cambridge University Press, 2004.

3. R.M. Christensen, , CourierDover Publication, 2012.

4. B.D. Agarwal, L.J. Broutman and K Chandrashekhara,John Wiley & Sons, 2004.

5. Christos Kassapoglou,, Wiley,

2010.

“Introduction to Aircraft Aeroelasticity and

Loads”,

“Aeroelasticity”,

“An Introduction to the Theory of Aeroelasticity”,

“Fundamentals of Modern Unsteady Aerdynamics”

” A Modern Course in

Aeroelasticity”,

“Aircraft Instruments and Principles”,

“Aircraft Systems”,

“Aircraft Instruments and Integrated Systems”,

“Advanced Aircraft Systems”,

“Introduction to Unmanned Aircraft Systems”,

“Principles of Composite Material”,

“Mechanics of Composite

Structures”

“Mechanics of Composite Materials”

“Analysis and

Performance of Fiber Composites”,

“Design and Analysis of Composite

Structures, With Applications to Aerospace Structures”

26

AAE 4008: COMPUTER INTEGRATED MANUFACTURING [3 0 0 3]

References:

AAE 4009: NAVIGATION GUIDANCE AND CONTROL [3 0 0 3]

References:

AAE 4010: OPTIMAL CONTROL [3 0 0 3]

Introduction- Historical background of Manufacturing, generalconstruction requirements, Methods of improving machine accuracyand productivity, Co-ordinate systems, point to point and contourprogramming, manual method (word address format only), AdaptiveControl Machining System, Introduction to Robotics, Robot anatomyphysical configurations, Technical features, Automated Inspection andTesting, Principle and Methods, Part classification and coding,production flow analysis, benefits of group technology, Types ofManufacturing System, Material Handling System, FlexibleManufacturing System, Computer aided Process planning, Computerintegrated planning systems, Material requirement planning, Capacityplanning, shop floor control, automatic identification systems Bar codetechnology, automated data collection systems.

1. Yoram Koren,, PHI, New Delhi, 2006.

2. Yoram Koren, Joseph Ben Uri,Khanna Publishers, New Delhi, 2005.

3. Mikell P Groover and Emory Wzimmers,PHI, New Delhi, 2008.

4. Mikell P Groover,PHI, New Delhi, 2008.

5. James A Rehg, Henry Wkraebber,Prentice Hall, 2001.

Introduction to radars; Continuous wave and Frequency modulatedradars; Doppler effect; Frequency modulated CW radars MIT and PulseDoppler radars,Celestial navigation and GPS based navigation; InertialNavigation Systems, Integrated navigation systems, Guided missiles;Classifications; Description of tactical missiles,guidance phases duringflight; Categories of Homing and command guidance,kinematicequations,Missile Guidance laws; Classification of guidance laws;Classical guidance laws; Modern guidance laws, Classical linear timeinvariant control systems, Transfer function representations; stability;time domain characteristics, PID controller design for aerospacesystems,Nyquist and Bode plots and their application to controller designfor aerospace systems.

1. MKayton and WFried, “ , WileyInterscience, 1997.

2. P Zarchan, , AIAA, 2007.

3. N.S.Nise, Wiley-India, 2004.

4. Skolnik M.I., , McGraw-Hill, 1982.

5. G.M. Siouris, SpringerVerlag, 2004.

Nonlinear optimization, Parameter optimization versus path optimization,Local and global optima, Some basic facts from finite-dimensionaloptimization, the Euler-Lagrange equation, path optimization subject toconstraints, weak and strong extrema, Calculus of variations applied tooptimal control, Pontryagin's minimum principle, Optimal control with stateand control constraints, Singular solutions, Hamilton-Jacobi-Bellman(HJB) equation and dynamical programming, Riccati equation and itsproperties, Tracking and disturbance rejection, Kalman filter and duality,The LQR design, The LQG design, ESTIMATORS/OBSERVERS,-MIMOSystem andSVD,Holonomic&Non-HolonomicSystem OptimalControl.

“Computer Control of Manufacturing Systems and

Computer Integrated Manufacturing”

“Numerical Control of Machine Tools”,

“Computer aided design and

manufacturing”,

“Automation, Production Systems and Computer

Integrated manufacturing”,

“Computer-Integrated

Manufacturing”,

Avionics Navigation System”

“Tactical and Strategic Missile Guidance”

“Control Systems Engineering”,

“Introduction to Radar Systems”

“Missile Guidance & Control Systems”,

References:

AAE 4011: OPTIMISATION TECHNIQUES [3 0 0 3]

References:

AAE 4012: ORBITAL MECHANICS [3 0 0 3]

References:

AAE 4013: PERFORMANCE OF GAS TURBINE [3 0 0 3]

1. D.E. Kirk, Prentice-Hall,1970.

2. Naidu D.S., CRC Press, 2002.

3. Sinha A, CRC Press,2007.

4. M Athans and P.L. Falb, McGraw Hill, 2007.

5. Dimitri P Bertsekas, ,Volume I, , Athena Scientific, 2005.

Introduction, Formulation of Problems, Global and local optima, Hessianmatrix, Single variable optimisation, Bracketing method; interpolationmethod, Fibonacci method, Point estimation methods; successivequadratic estimation method, Newton-Raphson method, Multi variableoptimisation without constraints, Hook's and Jeeves method, Newton'smethod, Multi variable optimisation with constraints, Kuhn-Tuckerconditions, Cutting plane method,Evolutionary algorithms; interior andexterior penalty function method, Genetic algorithm, genetic operators,selection, cross over and mutation, simulating annealing, Tabu search.

1. Ashok Belegundu and T Chandrauptala,Pearson education, 2004.

2. Arora, McGraw Hill Publications, 1999.

3. Kalyanmoy Deb,; John Wiley and sons, 2006.

4. Rao S.S., New age International, 2006.

5. Kalyanmoy Deb, (2e), PHILearningpvt. Ltd., 2012.

The two body problem in a central eld, rst integrals, Kepler's laws,equations of conic sections Geocentric orbits, canonical units Orbitalelements, Orbital Position as a Function of Time, STK Orbital transfersTime of flight Lambert's theorem, Perturbations of central elds impacton spherical and elliptical orbits, Orbital Manoeuvring, Orbit in ThreeDimensions, Orbital Determination, Universal variables Numericalmethods, Interplanetary transfers, Planetary fly-by, Satellite AttitudeDynamics and Control, Gravity Assist, The intercept problem,Atmospheric Re-entry.

1. Howard D Curtis, (3e)Butterworth Heinemann 2010.

2. Vladimir Chobotov, American Institute ofAeronautics and Astronautics, 1996.

3. Francis J Hale, , Prentice HallPublications, New Jersey, 1994.

4. Gerald R Hintz,Springer Publications, 2015.

5. John E Prussing, Oxford University, 2012.

Gas Turbine Engine Applications, The Operational Envelope, The

Environmental Envelope, Installation Pressure Losses, The Flight

Envelope, Typical engine performance, Non-dimensional representation,

Off design performance estimation of turbojets,Axial Flow Compressor

Design Point Performance and basic Sizing, Axial Flow Compressor Off

Design Per formance, Centrifugal Compressor Design Point

“Optimal Control Theory, An Introduction”,

“Optimal Control Systems”,

“Linear Systems, Optimal and Robust Control”,

“Optimal Control”,

“Dynamic Programming and Optimal Control”

“Optimisation concepts and

applications in engineering”,

“Optimum Design”,

“Multi-objective optimization using evolutionary

algorithms”

“Engineering optimization”,

“Optimisation for engineering design”,


“Orbital Mechanics

“Introduction to Space Flight”

“Orbital Mechanics and Astrodynamics, Techniques

and Tools for Space Missions”,

“Orbital Mechanics”,

(3e)

27

Performance and basic Sizing, Centrifugal Compressor Off Design

Performance, Axial Flow Turbine Design Point Performance and basic

Sizing, Axial Flow Turbine Off Design Performance, Afterburners Design

Point Performance and basic Sizing, Afterburners Off Design

Performance, Components characteristics and component matching,

Equilibrium operation, Principles of controls and instruments, Noise

suppression, starting and ignition.

1. Philip Walsh, “ (2e) Blackwell Publishing,

2001.

2. Hill Philip, Peterson Carl,

Addison Wesley, 1992.

3. J.D. Mattingly, ,

AIAA Education series, 2006.

4. Jack L Kerrebrock, (2e),The MIT

Press, 1992.

5. El-Sayed Ahmed,

Taylor and Francis, 2008.

Introduction to Robust Control, Control system specifications for

aerospace vehicles, robustness issues, robust stability and robust

performance, describing functions,Robust Control of Linear & Nonlinear

Systems,-Introduction, Matched Uncertainty, Unmatched Uncertainty in

the Input Matrix, Problems, Kharitonov Approach,-Introduction,

Preliminary Theorems, Kharitonov theorem, Control Design Using

Kharitonov Theorem, Problems, Eigen structure assignment techniques,

Eigen structure assignment, output feedback, Observer design,

Controller Synthesis by Robust Eigen structure Assignment, LQR,

LQG/LTR, H2 and

1. Feng Lin,

John Wiley & Sons, Inc,2007.

2. Bhattacharya, Apellat Keel,

, Prentice Hall PTR, 2000.

3. John Doyle, and Keith Glover, l , Prentice

Hall, 1995.

4. G Balas, J Doyle, K Glover, A Packard and R Smith,

The Math Works, 1995.

5. Mahmoud S Magdi, Munro Neil,

, Marcel Dekker Inc., 1989.

Particle dynamics, Newton's laws, co-ordinates and rotations, angular

momentum, N-body problem, Two body problem,- Orbit equation, conic

section geometry, Kepler's equation, orbital elements, tracking, Earth

satellite operations, Hohmann transfer, Rendezvous, decay life time, low

thrust transfer, Rigid body dynamics,- Angular momentum and energy,

parallel axis theory, Euler's equations, dual spin satellite, Satellite attitude

dynamics and re-entry,- Satellite dynamics, spinning spacecraft, gravity

gradient stabilization, attitude determination, ballistic re-entry,skip re-

entry,aero-braking, Interplanetary trajectories, Sphere of activity, launch

windows, planetary flyby, optimal capture.

References:

,

AAE 4014: ROBUST CONTROL [3 0 0 3]

References:

AAE 4015: SPACEFLIGHT DYNAMICS [3 0 0 3]

Gas Turbine Performance”,

“Mechanics and Thermodynamics of

Propulsion”,

“Elements of Propulsion - Gas Turbines and Rockets”

“Aircraft Engines and Gas Turbines”,

“Aircraft Propulsion and gas Turbine Engines”,

“Robust Control Design, An Optimal Control Approach”,

“Robust Control-The Parametric

Approach”

“Robust and Optimal Contro ”

“Mu-Analysis and

Synthesis Toolbox”, User's Guide,

“Robust Control & Filtering for Time-

Delay Systems”

H control optimization/H Optimal Control,

Robustness Analysis, Nonlinear H Control, Introduction to neuro-fuzzy

control.

∞ ∞

∞

References:

AAE 4016: STATISTICAL QUALITY CONTROL [3 0 0 3]

References:

,

AAE 4017: TURBO MACHINERY AERODYNAMICS [3 0 0 3]

References:

1. Thomas R Kane, McGraw-Hill Book

Company, 1993.

2. William E Wiesel, , Irwin McGraw-Hill, 2004.

3. M.H. Kaplan, John

Wiley and Sons Inc,, UK, 1976.

4. J.W. Cornelisse,

Pitman Publishing, 1979.

5. Ashish Tewari, Birkhauser

Basel (Springer) Publications, 2007.

Fundamentals of quality and quality control, quality philosophy,

describing variation, box plot, frequency distribution and histogram,

measure of central tendencies, Probability distributions, continuous

distribution and discrete distributions, tolerance allocation, Control chart

for variables, X-bar and R-Chart and X-Bar and Sigma Chart, control

chart for attributes, control chart for defect and number of defectives,

Process capability analysis and process capability index, acceptance

sampling, operating characteristic curves, Dodge Romig and MIL-STD

acceptance sampling tables, concept of reliability, Reliability systems,

maintainability.

1. R.C. Gupta, “ (6e) Khanna Publishers

New Delhi, 2013.

2. Montgomery D.C., “ ”,

(2e), John Wiley & Sons, New York, 2005.

3. Grant E.L., (6e), McGraw Hill

Publications, New York, 1988.

4. Juran J.M., (2e) McGraw Hill

Publications, Delhi, 1984.

5. Amitav Mitra, ,

John Wiley & Sons, 2008.

Introduction to Turbo machineries, basic performance cycles, Axial flow

compressors and Fans Secondary flows (3-D); Tip leakage flow and

scrubbing; Simple three dimensional flow analysis, Radial Equilibrium

Equation; Design of compressor blades; 2-D blade section design ,

Airfoil Data; Axial Flow Track Design 3-D Blade shapes of Rotors and

Stators Noise problem in Axial Compressors and Fans, Axial flow

turbines Multi-staging of Turbine; Exit flow conditions; Turbine Cooling;

Turbine Blade design Centrifugal Compressors Diffuser ; Centrifugal

Compressor Characteristics; Surging; Chocking; Rotating stall Radial

Turbine, Introduction; Thermodynamics and Aerodynamics of radial

turbines; Radial Turbine Characteristics.

1. Nicholas Cumpsty, Krieger

Publications, USA, 2004.

2. Johnson I.A., Bullock R.O.,(NASA-SP-36),

2002 (re-release), NTIS,(re-release), NTIS.

3. El-Wakil M.M., , McGraw-Hill Pub, 1984.

4. J.H. Horlock, Butterworths, UK .

5. J.H. Horlock, Butterworths, UK .

“Spacecraft Dynamics”,

“Space flight dynamics”

“Modern Spacecraft Dynamics and Control”,

“Rocket Propulsion and Spaceflight Dynamics”,

“Atmospheric and Spaceflight Dynamics”,

Statistical Quality Control”,

Introduction to Statistical Quality Control

“Statistical Quality Control”,

“Quality Planning and Analysis”,

“Fundamentals of Quality Control and Improvement”

“Compressor Aerodynamics”,

“Axial Flow

Compressors”,

“Powerplant Technology”

“Axial flow compressors”, ,

“Axial Flow Turbines”, ,

1958

1965

28

OPEN ELECTIVES

AAE 3281: INTRODUCTION TO AEROSPACE ENGINEERING [3 0 0 3]

References:

The first Aeronautical Engineers, Have an overview of the history of flight,

Fundamental Thoughts, Ballooning, Apply basic/constitutive principles

of mechanics of fluids - Bernoulli and control volume approaches, the

source of all aerodynamic forces, Equation of state for a perfect gas,

specific volume, anatomy of aircraft, anatomy of space vehicle, The

Standard Atmosphere, Basics of Aerodynamics, Aircraft Flight, Airfoil

Nomenclature, Lift, Drag and Moment co-efficient, Infinite versus finite

wings, Pressure coefficient, Elements of Airplane Performance, Stability

and Control, Astronautics, Propulsion, Introduction, Types of Propulsion

system.

1. John D Anderson, (6e), McGraw Hill Int,

2004.

2. Dava Newman, ;

MIT Press, 2001.

3. A.C. Kermode, (5e), Pearson Education

(Singapore) Pte, Ltd, 2001.

4. Anderson J .D., (5e), McGraw-Hill

International, 2010.

5. Howard D Curtis,

(3e), Butterworth Heinemann, 2010.

“Introduction to Flight”,

“Interactive Aerospace Engineering and Design”

“Flight without Formulae”,



AAE 3282: INTRODUCTION TO AVIONICS AND NAVIGATION

SYSTEMS [3 0 0 3]

References:

Introduction to aircraft, Introduction to flight mechanics and flight

dynamics of aircraft & UAV, Introduction to Avionics in aircraft &

spacecraft,, Displays, HMI, I/O Devices and Power, Packaging, ARINC

and DOD Types, System Cooling, EMI/EMC Requirements; Aircraft

Power Systems, Electrical Power Generation and Distribution Systems,

Digital Communication, Digital Data Bus System, ARINC-429,629,

AFDX, MIL-STD-1553, Fiber Optic Comm, Satellite Communication,

Flight control laws, FBW, Autopilot, FMS, LRU, IMA & Mission Systems,

Inertial Sensors and Inertial Navigation Systems, Multisensors

Navigation Systems, Kalman filter basics & Mechanization, Elements of

Navigation Systems, Satellite Navigation Systems, NAVSTAR Global

Positioning Systems, Global Orbiting Navigation Satellites Systems,

Radar & Landing Systems.

1. Myron Kayton& Walter R (2e),Wiley-interscience, 1997.

2. Siouris G.M., ,Academic Press, 1993.

3. R.P.G. Collinson, Springer, 2002.

4. Cary R Spitzer, ,(2e),AvionicsDevelopment and Implementation, CRC Press, Taylor & FrancisGroup, 2007.

5. Bradford W Parkinson & James J Spilker,Theory & Application, Vol. I & II, AIAA Copyright, 1996.

. Avionics Navigation Systems”,

“Aerospace Avionics systems”, A Modern Synthesis

“Introduction to Avionics Systems”,

“Digital Avionics Handbook”

“The Global Positioning

System”,

Fried “

29

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THIRD SEMESTER

MAT 2101: ENGINEERING MATHEMATICS - III

References:

AAE 2151: THEORY OF AUTOMOTIVE ENGINES [3 0 0 3]

References:

AAE 2152: AUTOMOTIVE STRUCTURES AND DESIGN [3 1 0 4]

[2 1 0 3]

Gradient, divergence and curl, Line, surface and volume integrals.Green's, divergence and Stoke's theorems. Fourier series of periodicfunctions. Half range expansions. Harmonic analysis. Fourier integrals.Sine and cosine integrals, Fourier transform, Sine and cosinetransforms. Partial differential equation-Basic concepts, solutions ofequations involving derivatives with respect to one variable only.Solutions by indicated transformations and separation of variables. One-dimensional wave equation, one dimensional heat equation and theirsolutions. Numerical solutions of boundary valued problems, Laplaceand Poisson equations and heat and wave equations by explicit methods.

1. Erwin Kreyszig, “ (5e), WileyEastern, .

2. S. S. Sastryrentice Hall .

3. B. S. , Khanna Publishers

4. Murray R. , Schaum Publishing Co .

Different Types of Automotive Power plants and applications, technicalspecification and terms, calculation, Otto cycle and diesel cycle engines,2stroke and 4 Stroke engine operations. Automobile EngineComponents, Function, Materials, Constructional details andManufacturing process, Fuel supply systems in Engines-Carburetion andGasoline Fuel Injection systems, Throttle body Injection, Multipointinjection&Gasoline direct injection systems, injection systems in dieselengines, fuel pumps, super charging, turbo chargers, governing ofengines, cooling and lubrication systems for engines, modernautomobile power plants, alternate power plants.

1. M L Mathur, R P Sharma, ,Dhanpat Rai publications (Pvt.) Limited, 2009.

2. Jack Erjavec, ,Cengage Learning Publications, 2008.

3. Rajput R K, Laxmi Publications (P)Ltd, 2008.

4. V Ganesan, , Tata McGraw hill publishingco ltd, 2008.

5. Kirpal Singh, Vol2, Standard PublicationDistributed, 2011.

Materials and their properties- Stress-strain diagrams for ductile andbrittle materials, Ductile and brittle fracture, Strength concepts, curvedbeams- Comparison with simple beams, Stress equation, Stresses indifferent cross sections in one plane. Shafts- Torsion of circular solid &hollow shafts, Misses Hacky theory for transmission shafting, Keys andpins- Types of keys, Stress in keys, Riveted joints- Types of joints, Modesof failure, Welded joints- Types of welds, Strength of welds, Threadedfasteners- Stresses in bolts, Dynamic and impact loading on bolts,Power screws, Fatigue- S-N diagram, Low cycle and high cycle fatigue,Fluctuating stresses, Goodman & Soderberg equations, ModifiedGoodman diagram, Stresses due to combined loading.

Advanced Engineering Mathematics”,

, “Introductory Methods of Numerical Analysis”,

Grewal, “Higher Engineering Mathematics” ,

, “Spiegel: Vector Analysis” .,

“A course in Internal combustion Engines”

“A systems approach to Automotive Technology”

“Internal Combustion Engines”,

Internal Combustion Engines

Automobile Engineering

1985

(2e),P , 1990

1989.

1959

Minor Specializations

I. Power Trains

II. Business Management

Other Programme Electives

Open Electives

1. AAE 4019: Engine Tribology

2. AAE 4020: Design of IC Engine

3. AAE 4021: Electric and Hybrid Vehicles

4. AAE 4022: Two and Three wheeled vehicles

1. HUM 4011: Financial Management

2. HUM 4012: Human Resource Management

3. HUM 4013: Marketing Management

4. HUM 4014: Operations and Systems Management

1. AAE 4002: Computational Fluid Dynamics

2. AAE 4007: Composite Structure

3. AAE 4008: Computer Integrated Manufacturing

4. AAE 4023: Automotive Air-condition

5. AAE 4024: Composite Materials

6. AAE 4025: Design for Manufacturing

7. AAE 4026: Ergonomics in Automotive Design

8. AAE 4027: Farm Machinery and Earth moving Equipment

9. AAE 4028: Finite Element Method

10. AAE 4029: Product Design and Manufacturing

11. AAE 4030: Railway Engineering

12. AAE 4031: Robust Design

13. AAE 4032: Statistical Quality Control and Reliability

14. AAE 4033: Vehicle Body Engineering and safety

1. AAE 3283: Automobile Engineering

2. AAE 3284: Automotive Pollution & Control

31

References:

AAE 2153: MATERIALS SCIENCE AND METALLURGY [3 0 0 3]

References:

AAE 2104: THERMODYNAMICS [3 1 0 4]

References:

1. Spotts M.F. &Shoup T.E., PearsonEducation, 2003.

2. Pajithaya B.N, Prabhu B.G.S, Raghuvir Pai.,, MIT Manipal, 1993.

3. Robert L. Norton., ,Prentice Hall, 1996.

4. Mahadevan K. & Balaveera Reddy K., , CBSPublishers and Distributors, New Delhi, 2010.

5. Bhandari V.B, , Tata McGraw HillPublishing Company, New Delhi, 2010.

Introduction to materials, classification, CrystallographySC,FCC,BCC,HCP structures, Atomic packing factor, Miller indices:miller bravais indices, Crystal structure determination-X-ray diffractiontechniques, different types of defects, Strengthening mechanisms, Workhardening; recovery recrystallisation and grain growth, Hume Rothery'srules, Phase diagrams- Phase and Lever Rules relationship of microStructure, Isomorphous systems eutectic system. Iron- Carbonequilibrium diagram, Introduction to Al-Cu, Al-Si phase diagrams, TTTdiagram, Heat treatment of steel, Hardenability, different types of surfacehardening methods, Applications of Ferrous alloys, Non-Ferrous Alloys,ceramics and other materials.

1. Raghavan V, “ , Prentice Hall India,2004.

2. Shackelford, Prentice Hall NewJersey, 1996.

3. Van Vlack, , Addison Wesley,New York, 1989.

4. William D Callister, , Wiley India,2007.

5. Avner Sidney, , McGraw HillInternational, 1991.

Introduction to Thermodynamics- Zeroth Law of Thermodynamics,Principles of Thermometry, First law of Thermodynamics, Steady FlowEnergy Equation, Thermal Reservoir, Heat Engine, Heat pump , SecondLaw of Thermodynamics, Carnot's principle, Carnot cycle and itsspecialties, Thermodynamic scale of Temperature, Clausius Inequality,Entropy, Principle of Entropy Increase, Availability and Irreversibility ,Thermodynamic Potentials, Maxwell Relations, Third Law ofThermodynamics, Pure Substances- Mollier Char ts, PhaseTransformations, Dryness Fraction. Ideal and Real gases- Perfect GasLaws- Equation of State, specific and Universal Gas constants, Van derWaals Equation of State, Vapor power cycle, Gas power cycle,Refrigeration cycles.

1. Nag P K, , Tata McGraw-Hill, NewDelhi, 2006.

2. Cenegel Yunus A and Boles Michael A, , TataMcgraw-Hill, New Delhi, 2011.

3. R K Rajput, , LaxmiPublications New Delhi , 2010.

4. P L Ballaney, , Khanna Publishers New Delhi,2012.

“Design of Machine Elements”,

“Machine Design-Theory

and Problems”

“Machine Design-An Integrated Approach”

“Design Data Handbook”

“Design of Machine Elements”

Material science and engineering”

“Materials science for Engineers”,

“Materials science and Engineering”

“Material science and engineering”

“Introduction to physical metallurgy”

“Engineering Thermodynamics”

“Thermodynamics”

“A textbook of Engineering Thermodynamics”

“Thermal Engineering”

5. Mayhew A. and Rogers B., ,E.L.B.S. Longman, London, 1994.

Fluid Properties, Fluid Statics, Intensity of pressure, Pascal's Law,Pressure variation in static fluid, Pressure measurement by manometers,Hydrostatic forces on surfaces, determination of metacentricheight(experimental & Analytical), Continuity equation for one and threedimensional flow, fluid velocity and acceleration, energy possessed byfluid, Euler's equation of motion along a stream line and reducing it toBernoulli's equation, Rayleigh's method and Buckingham's pi thermo,similitude, fluid Flow measurement devices, Viscous flow-criticalReynolds number, laminar flow through circular pipe, Laminar flowbetween fixed parallel plates, flow through pipes, flow past immersedbodies-lift and drag and form drag, streamlined body, bluff body,boundary layer concept, boundary layer separation.

1. Ethirajan Rathakrishnan, , PHIpublisher, 2013.

2. K.L. Kumar, , S. Chand & Co, 2005.

3. John F. Dauglas, Pearson Educationspublishers, 2005.



Introduction to 2D entities, Mechanical Components, Automotivecomponents, Introduction to 3D Entitles, Introduction to Assemblycommands, Automotive Components assembly, Rocker Arm Assembly,Plummer block assembly, IC Engine Connecting rod, Engine Cross Head,Screw Jack.

1. Michael Michaud,, McGraw Hill Professional

Publication, 2012.

2. Kirstlie Plantenberg, , Release 2012,Schroff Development Publication, 2011.


4. Nadar G Zamani, Jnonathan M Weaver,relase 21, SDC Publication,

2012.

5. Fred Karam, Charles Keismit, , Thomas/DelmarLearning,2004.

Dismantle the exteriors of the engine and service the rocker arm shaft.Service the cylinder head of the multi cylinder engine, Service the OilSump, Oil Pump and Cam Shaft of the Engine. Dismantle and Service andassemble the Main Bearings, Fly Wheel, and Crank Shaft. Assembling ofthe components back to the engine.

1. Dr. N. K. Giri, “ , Khanna publishers,2004.

2. Kirpal Singh, Vol.2, , StandardPublishers distributors, 2011.


“Fluid Mechanics an Introduction”

“Engineering Fluid Mechanics”

Fluid Mechanics”,


Machines”


“CATIA Core Tools: computer aided three


“An Introduction to CATIA V6”


“Catia V5 tutorials

mechanisms, Design & Animation”,

“Using CATIA”

Automobile Technology”

Automobile Engineering”,

AAE 2105: FLUID MECHANICS [2 1 0 3]

References:

AAE 2161: COMPUTER AIDED PART MODELING [0 0 6 2]

References:

AAE 2162: AUTOMOTIVE ENGINE LAB [0 0 3 1]

References:

,

“(5e),

(6e)

“ (12e)

32

3. Tom Denton, ,Butterworth-Heinemann publishers, 2011.

4. William H Crouse, Donald L Anglin, , TataMcGraw hill publication, 2012.

5. V Ganeshan, , Tata McGraw HillPublications, 2008.

Statistics: Measures of central tendency, measures of dispersion,Correlation coefficient, regression, least squares principles of curvefitting. Probability: finite sample spaces, conditional probability andindependence, Baye's theorem, one dimensional random variable,mean, variance. Two and higher dimensional random variables: mean,variance, correlation coefficient. Distributions: Binomial, Poisson,uniform, normal, gamma, Chi-square and exponential distributions,simple problems. Moment generating function, Functions of onedimensional and two dimensional random variables, Sampling theory,Central limit theorem and applications. Optimization: Basic concepts,Linear programming, Graphical and Simplex methods, penalty cost andtwo phase methods. Transportation problems.

1. Kreyzig E. “ , , WileyEastern.

2. Meyer P.L. ,American Publishing Co.

3. B. S. Grewal: , 1989 KhannaPublishers

4. Hamdy A Taha , PHI

Power Required for Propulsion, Clutch: Functions and requirements ofclutch in an automobile, different types of clutches, Gear box: Necessity ofgear box, Calculation of gear ratios for vehicles, Fluid Coupling & Torqueconverters: Constructional details of various types, typical hydrodynamictransmission, Epicyclical Transmission: Principle of operation, types ofplanetary transmission, Calculation of gear ratio in different speeds,Numerical problems, Hydrostatic Drives, Automatic transmission, generalarrangement & description of electric transmission, Drive to wheels:Introduction of propeller Shaft, types of joints, types of drives, types ofaxles, Front wheel drive and four wheel drives.

1. N.K Giri, “ Khanna Publication, New Delhi.2010.

2. Kirpalsingh, , Vol.1, Standard Publishers,2004.

3. G.B.S. Narang, Khanna publication, NewDelhi, 2008.

4. Joseph I Heitner, CBS Publishers andDistributors, 2004.

5. R K Rajput, , Firewell Media, 2007.

Coil Springs, Fluctuating & impact loads, Energy stored in springs,Critical frequency, Concentric springs. Leaf Springs- Semi ellipticcarriage springs, Deflection, Stresses in full length & graduate leaves,Stress equalization, Simple plate springs, Combination of leaf & coil

“Automobile Mechanical and Electrical systems”

“Automobile Mechanics”

“Internal Combustion Engines”

Advanced Engineering Mathematics”

ntroduction to probability and Statistical applications”

“Higher Engineering Mathematics”

Operation research”,

Automotive Mechanics”

“Automobile engineering”

“Automobile Engineering”,

“Automotive mechanics”,

Automobile Engineering”

MAT 2202: ENGINEERING MATHEMATICS IV

References:

AAE2251: AUTOMOTIVE TRANSMISSION SYSTEM [3 0 0 3]

References:

,

AAE 2252: DESIGN OF MACHINE ELEMENTS [3 1 0 4]

- [2 1 0 3]

(7e)

“(2e),

“ (7e)

“

I

FOURTH SEMESTER

springs. Design of - Spur Gears, Helical Gears, Worm Gears, ContactBearings, Bearing characteristic number, Somerfield number, Coefficientof friction, bearing modulus, Mechanism of film lubrication, Minimum oilfilm thickness, Rolling Contact Bearings, Life rating, Basic capacities,loading ratio, bearing materials. Belt Drives, Pulleys, Selection of beltsand pulleys. Wire Rope Drives, Chain Drives, Mechanical Brakes.

1. Spotts M.F. &Shoup T.E., “ , PearsonEducation, 2003.

2. Pajithaya B.N, Prabhu B.G.S, Raghuvir Pai.,MIT Manipal, 1993.

3. Robert L. Norton, ,Prentice Hall, 1996.

4. Mahadevan K. & Balaveera Reddy K., , CBSPublishers and Distributors, New Delhi, 2010.


Introduction to sand testing methods, casting methods cupola, itsconstruction & the melting process. Introduction & classification of weldingtechnology, Variables in metal working, rolling, extrusion, forging anddrawing process. Sheet metal forming process and dies, Non- destructivetesting methods, Introduction to powder metallurgy preparation ofpowders, properties, applications, advantages & limitations, Introductionto Nontraditional Machining Techniques- Chemical Machining, MechanicalMachining, Electrical Machining, Thermal Machining, its operatingprinciples, process parameters, applications, merits and limitations,Introduction & characteristics of rapid prototype technologies, recenttrends in manufacturing of autocomponents.

1. P N Rao, McGraw Hill Publication,2007.

2. Rajiv Asthana, Ashok Kumar, Narendra,, Academic Press publication, 2006.

3. Mikell P Groover, , JohnWiley and Sons Inc, 2010.

4. Serope Kalpakijian, Steven R. Schmid,Prentice Hall, 2006.

5. Jain R. K., Khanna Publishers Delhi,2001.

Introduction to control problem, Transfer function models, Systemresponse, Closed-loop systems, Basic characteristics of feedbackcontrol systems, Steady-state accuracy, disturbance rejection,proportional, integral and derivative, Routh stability criterion, Timeresponse of second-order systems, Root locus method of design, Leadand lag compensation, Frequency-response analysis, Relationshipbetween time & frequency response, Bode plot, Nyquist stabilitycriterion, Lead and Lag compensation, State variable analysis, Conceptsof state, state variable, state model, state models for linear continuoustime functions, solution of state equations, concept of controllability&observability,

1. Ogata, K, “ , Prentice Hall, 1991.

2. Nagrath & Gopal g , New AgesInternational, 3, A, E, Bryson and Y-C Ho: Applied Optimal Control,Taylor and Francis, 1975.

References:

AAE 2253: AUTOMOTIVE PRODUCTION TECHNOLOGY [3 0 0 3]

References:

AAE 2204: LINEAR CONTROL THEORY [2 1 0 3]

References:

Design of Machine Elements”

“Machine Design-

Theory and Problems”,

“Machine Design-An Integrated Approach”

“Design Data Handbook”


“Manufacturing Technology”,

“Material process and

Manufacturing science”

“Fundamentals of modern manufacturing”

“Manufacturing engineering

and technology”,

“Production Technology”,

Modern Control Engineering”

, “Modern Control Engineerin ”

(2e),

33

3. Gopal, M, , Tata McGraw-Hill, 1997.

4. Kuo, B,C, , Prentice Hall, 1993.

5. Norman, Nise , John Wiley & Sons,Inc., 2010.

Introduction to command of CATIA, automotive body modelling,Introduction to command, Automotive body modelling, Sketch interfacefor 3D modelling, Exporting techniques for third party software, Basicsof MATLAB command and Coding, Predefined MATLAB function,Plotting, Programing in MATLAB, Matrix computation, Numericaltechniques.

1. Michael Michaud,, McGraw Hill Professional

Publication, 2012.

2. Kirstlie Plantenberg, Release2012,Schroff Development Publication, 2011.

3. Rao V Dukkipati, , New ageScience Publication, 2009.

4. Misza Kalechman, , CRCPress Publication, 2010.


Use of transmission system tools, study of transmission layouts,Dismantling and servicing of automobile clutches, different types of gearboxes, propeller shafts, final drive and differential, Rear axle dismantlingand servicing.

1. Dr. N. K. Giri, “ , , Khanna publishers,2004.

2. KirpalSingh, , Vol.1, , StandardPublishers distributors, 2011.

3. Tom Denton,Butterworth-Heinemann publishers, 2011.

4. R K Rajput, , Laxmi Publications Ltd, 2008.

5. William H Crouse, Donald L Anglin, , TataMcGraw hill publication,2012.

Introduction-Tensile test using UTM, load displacement and Stress Straincurves, Torsion Test, Compression Test, Bending Test, Impact Test,Impact test, Izode and Charpy Test, hardness Test, Brinell and Rockwelltest, Fatigue and Shear Test, Test on Helical Spring, Flaw detection.


2. Shigley J, , McGraw Hill New York,1980.

3. Robert C. Juvinal, ,Jhon Wiley & Sons,2000.

4. Spotts M.F. & Shoup T.E, PearsonEducation, 2003.

, “Control Systems: Principles and Design”

, “Automatic Control System”

, “Control system engineering”

“CATIA Core Tools: computer aided three


“An Introduction to CATIA V6”

“MATLAB for Mechanical Engineers”

“Practical MATLAB basics for engineers”


Automobile Technology”

“Automobile engineering”

“Automobile Mechanical and Electrical systems”,

Automobile Engineering



“Mechanical Engineering Design”

“Fundamentals of Machine Component Design”

“Design of Machine Element”,

(6e),

(6e)

(12e)

AAE 2261: COMPUTER AIDED VEHICLE MODELLING [0 0 6 2]

References:

AAE 2262: AUTOMOTIVE TRANSMISSION LAB [0 0 3 1]

References:

AAE 2263: MATERIAL TESTING LAB [0 0 3 1]

References:

5. K Ganesh Babu, K Srithar, , TataMcGraw - Hill Education, 2009.

Automotive Electrical system, wire diagram, automotive electronics,Open and close loop systems for engine - control algorithms and itsapplication, automotive communication protocol, Electronicmanagement of chassis system,Sensors and Actuators, electronic FuelInjection and Ignition Systems, Advantages of electronic ignitionsystems, Digital Engine Control System: Open loop and closed loopcontrol systems-Engine cranking and warm up control, Distributor lessignition, Exhaust emission control engineering, automotive developmenttools, clusters, electrical and hybrid systems, hardware architecture,software architecture.

1. Giri N K, , Khanna Publication, 2010.

2. Bechtold, SAE, 1998.

3. P.L.Kohli, , Tata McGraw hillpublications, 2008.

4. Tom Denton, ,Arnold, London, 2007.

5. R K Rajput, , Firewell Media, 2007.

Introduction, kinematic of motion, harmonic motion, Mechanism andinversions, Degrees of freedom. Mathematical analysis of velocity andaccelerations of simple mechanisms, Synthesis of cams, types of camsand followers, disc cam with reciprocating and oscillating followers,synthesis of gears; spur gear terminology, law of gearing, interferenceand under cutting, Gear trains, simple, compound, reverted and epicyclicgear trains, differential of an automobile, balancing of rotating masses,balancing of reciprocating engines, governors and its characteristics,porter and Hartnellgoverners. Gyroscopiceffect on rotating disc,gyroscopic effect on automobiles.

1. Joseph Edward Shigley, Uicher Jr.,McGraw Hill International, 2008.

2. Amitabh Gosh, Asok Kumar Malik,East West Publishers, 2002.

3. Rao. J.S., Dukkipati R.V., , NewAge International, 2002.

4. Rattan S.S., Tata McGraw Hill, 2008.

5. Ambekar, Prentice HallIndia, 2008.

Introduction- Composition air and Gas Laws, Air Preparation system,FLR unit, Linear and rotary actuators, pneumatic valves classificationsand constructional features, circuit design, cascade method, multiplecylinder actuation circuit, electro pneumatics, control elements of electropneumatics, sensors, PE convertors, latching, direct and indirectactuation circuits, Timers, Counters, Introduction to PLC, structure ofPLC, ladder programming, Hydraulic fluid properties, Power pack,construction and working of types of control valves, Hydraulic actuators,Classification of hydraulic pumps, performance of pumps, Accumulator,Intensifiers, Design of hydraulic circuits .


“Automobile Technology”

“Understanding Automotive Electronics”,

“Automotive Electrical Equipment”

“Automobile Electrical and Electronics Systems”

“Automobile Engineering”

“Theory of Machines and

Mechanisms”,

“Theory of Mechanisms and

Machines”,

Mechanisms and Machines Theory

“Theory of Machines”,

“Theory of Machines and Mechanisms”,

AAE 3151: AUTOTRONICS [3 0 0 3]

References:

AAE 3152: THEORY OF MACHINES [3 1 0 4]

References:

AAE 3153: ACTUATION SYSTEMS [3 1 0 4]

FIFTH SEMESTER

34

References:

AAE 3154: MEASUREMENT AND METROLOGY [3 0 0 3]

References:

AAE 3161: THERMAL ENGINEERING LAB [0 0 3 1]

References:

AAE 3162: SYSTEM SIMULATION LAB [0 0 6 2]

1. Majumdar S.R.,Tata McGraw Hill, New Delhi, 2000.

2. Joji P, , Wiley India Pvt. Ltd, 2013.

3. Peter Croser, Frank Ebel, , FestoDidactic GMBH & Co Germany, 2002.

4. Prede G. and ScholzD, FestoDidactic GMBH & Co, Germany, 2002.

5. Majumdar S.R.,, Tata McGraw Hill, New Delhi, 2005.

Definition, types, need of inspection, metrology terminology, principleaspects of measurements, methods of measurements, errors, units,Measurements of Straightness, flatness, parallelism, squareness,roundness, cylindrical, coaxially, concept of interchangeability, selectiveassembly, limits and tolerances, fits, geometric tolerances, limit gauge,Optical and pneumatic comparators, Types of gears, Spur gearterminology, forms of gears, errors in spur gears, Force measurementsystem, force and load sensors, strain gauges, Mechanical analogypressure gauges, pressure at high temperature, Temperature measuringdevices, Determination of air flow velocity, measurement of flowdirection ,velocity measurement techniques.

1. W. H. Hucho, , SAE InternationalPublications, 2006.

2. R K Jain, Khanna Publication, 2011.

3. Anand K Bewoor, Vinay A Kulkarni, ,Tata McGraw Hill Publication, 2012.

4. Dominique Plocko,John Wiley & Sons, 2013.

5. B C Nakra, K K Chaudhry,, Tata McGraw Hill, 2013.

Two stage air compressors, identification of flash and fire point of fuels,I.C. Engines, centrifugal air blower, compression ratio of 2-S petrolengine, morse test rig, I.C. Engines Performance Test on 2-S petrolengine. Viscometer, port timing diagrams. Refrigeration unit, Airconditioning unit.

1. Cenegel Yunus A and Boles Michael A, TataMcGraw-Hill, New Delhi, 2011.

2. R K Rajput, LaxmiPublications, New Delhi, 2010.

3. P L Ballaney, Khanna Publishers, New Delhi,2012.

4. Mayhew A. and Rogers B., E.L.B.S.Longman, London, 1994.

5. Nag P K, , Tata McGraw-Hill, NewDelhi, 2006.

Introduction-Operation of single acting and double acting cylinders, flowcontrol valves, Latching circuits, Oscillation and multiple actuations,Introduction to MAT LAB, Engine model simulation, Vehicle dynamics,rigid body dynamics, cruise control simulation.

“Pneumatic Systems Principles and

Maintenance”,

“Pneumatic Controls”

“Pneumatics Basic Level TP 101”

.

“Electropneumatics Basic Level”,

“Oil Hydraulic Systems Principles and

Maintenance”

“Aerodynamics of Road vehicles”

“Engineering Metrology”,

“Metrology and Measurement”

“Fundamental of instruments & measurement”,

“Instruments, measurement and

Analysis”

“Thermodynamics”,

“A textbook of Engineering Thermodynamics”,

“Thermal Engineering”,

“Engineering Thermodynamics”,


References:

HUM 4001: ESSENTIALS OF MANAGEMENT [2 1 0 3]

References:

AAE 3251: VEHICLE AERODYNAMICS [2 1 0 3]

References:

1. Brian R Hunt, Ronald L, “Cambridge University

2. Joji P, , Wiley India Pvt. Ltd, 2013

3. .

4. .

5. Majumdar S.R., ,Tata McGraw Hill, New Delhi, 2002.

Definition of management and systems approach, Nature & scope, Thefunctions of managers, Corporate social responsibility. Planning: Typesof plans, Steps in planning, Process of MBO, How to set objectives,Strategies, Policies & planning premises, Strategic planning process andtools. Nature & purpose of organising, Span of management, factorsdetermining the span, Basic departmentalization, Line & staff concepts,Functional authority, Art of delegation, Decentralisation of authority. HRplanning, Recruitment, Development and training. Theories ofmotivation, Special motivational techniques. Leadership - leadershipbehaviour& styles, Managerial grid. Basic Control Process, CriticalControl Points & Standards, Budgets, Non-budgetary control devices.Profit & loss control, Control through ROI, Direct, Preventive control.Managerial practices in Japan & USA & application of Theory Z. Thenature & purpose of international business & multinational corporations,unified global theory of management. Entrepreneurial traits, Creativity,Innovation management, Market analysis, Business plan concepts,Development of financial projections

1. Koontz D. McGraw Hill, New York,2004

2. Peter Drucker AlliedPublishers, 2006

3. Peter Drucker, Butterworth HeinMann, 2003

Historical development trends, Fundamental of fluid mechanics, External& Internal flow problem, Resistance to vehicle motion, Performance,Fuel consumption and performance, Potential of vehicle aerodynamics,Cars as a bluff body, Flow field around car, drag force, types of drag force,Front end modification, Boat tailing, flow over the car, front end, windshield, roof, combination flow, Dust flow patterns at the rear, effect offasteners, side wind problems, vehicle dynamics under side winds - theeffects of forces and moments , Dirt accumulation on the vehicle, windnoise, Principle of wind tunnel technology - Limitation of simulation,measurement techniques, road testing methods.

1. R.H. Barnard, “, MechAero Publishing, 2009.

2. Mark Gleason, “V ”,Society of Automotive Engineers, Incorporated, 2001.

3. W. H. Hucho, “ ”, SAE InternationalPublications, 2006.

4. Rose McCallen, Fred Browand, James Ross, “”, Volume 1, Springer

Science & Business Media, 2004.

Guide to MATLAB: For beginners and

experienced users”,

“Pneumatic Controls”

MAT LAB Manual

Festo Fluid Sim Manual

“Pneumatic Systems Principles and Maintenance”

, “Essentials of Management”,

, “Management, Task and Responsibility”,

“The practice of management”,

Road vehicles aerodynamics Design- An

introduction”

ehicle aerodynamics design and technology

Aerodynamics of Road vehicles

The Aerodynamics of

Heavy Vehicles: Trucks, Buses, and Trains

(2e),

SIXTH SEMESTER

35

5. Rose McCallen, Fred Browand, James Ross, “”, Volume 2, Springer

Science & Business Media, 2004.

Automotive chassis and frames, functions, requirements, classification,material used, manufacturing process, layout of chassis, Brakingsystems, requirements, principle of operation, classification, differenttypes of vehicle service brakes, and mechanics of brakes, components,troubleshooting, ABS, Steering systems, condition for true steering,steering systems, steering linkages, power steering, Suspensionsystems, classification, functions, rigid and independent suspensionsystems, Automotive wheels and tyres, requirement of tyres,specification and detail of various tyre and suspension system,independent suspension system, front rear and rigid axel.

1. Newton K, Steeds W, Garrett TK, “ , SAEPublications 2004.

2. Joseph I Heintner,, CBS Publishers and distributors, 2004.

3. T. R. Banga & Nathu Singh, , KhannaPublishers, 2007.

4. Rajput R K, , Laxmi Publications (P) Ltd,2008.

5. William H Crouse, Donald L Anglin, , TataMcGraw hill publication, 2012.

Introduction-Calibration of wind tunnel, Aerodynamic analysis ofdifferent body, Drag of different bodies, Pressure distribution over anaero foil at different angle of attacks, Wake survey method, FlowVisualization Techniques, Six component balance.

1. Hucho W H, , Butterworths Co Ltd,2006.

2. .

3. John D Anderson Jr, , TataMcGraw Hill Education Pvt Ltd New Delhi, 2010.

4. Alan Pope, , Wiley and Sons, NewYork,2007.

5. Jewel B Barlow, Alan Pope, , Wileyand Sons, New York, 1984.

The Aerodynamics of

Heavy Vehicles: Trucks, Buses, and Trains

The Motor Vehicle”

“Automotive mechanics principles and

practices”




Aerodynamic of Road Vehicles

Wind Tunnel Manual

“Fundamentals of Aerodynamics”

“Wind Tunnel Techniques”

“Low Speed Wind Tunnel Testing”

AAE 3252: AUTOMOTIVE CHASSIS AND SUSPENSION [2 1 0 3]

References:

.

AAE3261: AUTOMOTIVE MACHINE SHOP [0 0 6 2]

AAE 3262: VEHICLE AERODYNAMICS LAB [0 0 6 2]

References:

Preparation of models using welding techniques.Exercises on turning,gear cutting, shaping and grinding operations.Machining using CNCTurning Center and Vertical Machining Center.Cylindicalboring, Honing,Crankshaft grinding, Valve seat cutter and valve re-facing, Line re-boring.


Vol. I, Media Promoters and



Vol. II, Media Promoters and


3. Peter Smid, Industrial Press, New

York, 2000.

References:



CNC Programming Hand book,

SEVENTH SEMESTER

HUM 4002: ENGINEERING ECONOMICS AND FINANCIALMANAGEMENT [2 1 0 3]

References:

AAE 4101: THEORY OF VIBRATIONS [3 1 0 4]

References:

AAE 4151: COMBUSTION AND HEAT TRANSFER [2 1 0 3]

Nature and significance, Micro & macro differences, Law of demand andsupply, Elasticity & equilibrium of demand & supply. Time value ofmoney, Interest factors for discrete compounding, Nominal & effectiveinterest rates, Present and future worth of single, Uniform gradient cashflow. Bases for comparison of alternatives, Present worth amount,Capitalized equivalent amount, Annual equivalent amount, Future worthamount, Capital recovery with return, Rate of return method, Incrementalapproach for economic analysis of alternatives, Replacement analysis.Break even analysis for single product and multi product firms, Breakeven analysis for evaluation of investment alternatives. Physical &functional depreciation, Straight line depreciation, Declining balancemethod of depreciation, Sum-of-the-years digits method of depreciation,Sinking fund and service output methods, Costing and its types Jobcosting and Process costing, Introduction to balance sheet and profit &loss statement. Ratio analysis - Financial ratios such as liquidity ratios,Leverage ratios, Turn over ratios, and profitability ratios

1. Blank Leland T. Tarquin Anthony J, , McGrawHill, New Delhi, .

2. Chan S. Park, , PearsonEducation, Inc

3. Raman B.S , United publications,Bangalore

4. T. Ramachandran, ScitechPublications Pvt. Ltd. India .

1. Thuesen G. J & Thuesen H. G, , PrenticeHall of India, New Delhi

Dynamics of particles and rigid bodies, energy of vibration,fundamentals of vibrations, energy equations for single degree offreedom motion by newton method, energy method and Rayleigh'smethod, free undammed vibrations, free damped vibrations; underdamped, critically damped and over damped systems, forced dampedvibrations; machine unbalance due to rotating and reciprocating masses,support excitation and transmissibility of single degree of freedomsystems. Two degrees of freedom systems, coordinate coupling, multidegrees of freedom systems. Influence coefficients, Transientvibrations, step, impulse and arbitrary excitations.

1. Grover G.K. and Nigam S.P., “ , New Chand andSons, 2005.

2. Rao J.S. and Gupta K.,, Wiley Eastern Ltd, 2002.

3. Rao S.S., Pearson Education, 2012.

4. Thomson W.T., , PearsonEducation India, 2008.

5. C Nataraj, , CENGAGE Learning,2012.

Introduction to combustion processes, Combustion in spark ignitionengines and compression ignition engines, Introduction to heat transfer,Conduction Heat Transfer-Linear heat flow through plane wall,composite walls, radial heat flow through cylinder, composite cylinders,

“Engineering Economy”

“Contemporary Engineering Economics”

,

. “Advanced accountancy”,

,

“Accounting and Financial Management”,

,

“Engineering Economics”

,

Mechanical Vibration”

“Theory and Practice of Mechanical

Vibrations”

“Mechanical Vibrations”,

“Theory of Vibrations with Applications”

“Vibration of Mechanical Systems”

2002

2010.

1993.

2001

2005.

36

radial heat flow through sphere and composite spheres, Criticalthickness of insulation, Extended Surfaces, Convection Heat Transfer-Application of dimensional analysis to free and forced convection,Dimensionless numbers, Boiling heat transfer, Heat Exchangers- overallheat transfer coefficient, fouling factor, Logarithmic mean temperaturedifference, Effectiveness and Number of transfer units, Radiation-BlackBodies, emissive power, intensity of radiation, heat transfer due toradiation between black bodies and grey bodies.

1. P.K. Nag, ,TataMcGraw Hill Education PvtLtd, New Delhi, 2011.

2. Yunus Cengel and Afshin Ghajar, TataMcGraw Hill Education Pvt Ltd, New Delhi, 2001.

3. V Ganesan, , Tata McGraw-HillEducation, New Delhi, 2012.

4. M L Mathur and R P Sharma, ,DhanpatRai Publications, New Delhi, 2011.

5. R.K. Rajput, , S Chand and Company Ltd,New Delhi, 2006.

Introduction- Historical background, Regulatory test procedures,Analysis of pollutants, Pollution from Spark Ignition engines, Pollutionfrom Compression Ignition engines, Fuels for spark ignition andcompression ignition engines, Engine Variants- Lean Burn engines,Stratified charge engines, Direct Injection in Gasoline engines,Instrumentation for pollution measurements- Non Destructive Infraredanalyzers, thermal conductivity and flame ionization detectors, analysersfor NOx, gas chromatograph, Alternative Fuels- Hydrogen, Natural gas,Liquefied petroleum gas, vegetable oil and biodiesel, Biomass Energy,Direct Energy conversion methods- solar cells, thermo ionic converters.

1. V Ganesan, , Tata McGraw-HillEducation, New Delhi, 2012.

2. M L Mathur and R P Sharma, ,Dhanpat Rai Publications, New Delhi, 2011.

3. Colin R Ferguson and Allan T Kirkpatric,, Wiley India Ltd, New Delhi, 2004.

4. Willard W Pulkrabek,PHI learning Pvt Ltd, New Delhi, 2004.

5. S P Sukatme,Tata McGraw Hill Education, New Delhi, 2005.

Introduction to ANSYS, Introduction to elements, One Dimensionalelements Beam, Truss, Two Dimensional modelling analysis, ShellElements ,2D Solid Elements, 3D Solid Element and Analysis, thermalanalysis, aerodynamic analysis, crash test of vehicles.

1. Michael R Hatch, “CRC Press Publication, 2001.

2. R B Choudary, , IK International, 2009.

3. Esam M A, , Taylor &Francis Publication, 2010.

4. PaletiSrinivas, Krishna Chaitanya Sambana, Rajesh Kumar Datti,PHI Publications, 2010.

References:

AAE 4152: AUTOMOTIVE POLLUTION CONTROL & ALTERNATIVEFUELS [3 0 0 3]

References:

AAE 4161: COMPUTER AIDED ENGINEERING LAB [0 0 6 2]

References:

,

“Heat and Mass Transfer”

“Heat and Mass Transfer”,



“Heat and Mass Transfer”



“Internal Combustion

Engines”

“Engineering Fundamentals of Internal

Combustion Engines”,

“Solar Energy Principles of Thermal Collection and

Storage”,

Vibration Simulation using MATLAB &

ANSYS”

” Introduction to ANSYS10.0”

“Finite element simulation using ANSYS”

“Finite element using ANSYS 11.0”,

5. T Stolavski, Y Nakasone, S Yoshimoto,Butterworth-Heinmann Publication, 2006.

Each student has to present a seminar individually, on any technicaltopic of current interest / latest advancement / topics not covered inthe syllabus.

Theory, Lubricants and their physical properties, Reynolds equation,Thermal, Inertia and Turbulent effects, design of fluid film bearings,lubricant flow and delivery, Performance analysis of thrust and journalbearings full, partial and pivoted journal bearing design, Specialbearings, Hydrostatic lubrication, hydrostatic bearing design, rollingelement bearings. geometry and kinematics, Friction and Wear, theory offriction, sliding and rolling friction, friction properties of metallic and non-metallic materials wear, types of wear mechanism, wear resistancematerials, Surface topography, electron microscope and friction andwear measurements, bearing vibration measurement.

1. B.C. Majumdar, , S. Chand Group Publication, 2008.

2. Basu, , PHI, 2008.

3. Susil Kumar Srivastava, , S ChandPublication, 2004.

4. M.H. Jones and D. Scott, , Elsevier SciencePublishers, 1991.

5. H Rahnejat,, Elsevier, 2010.

“Engineering analsyis with

Ansyssoftware”,

“Tribology”

” Fundamentals of Tribology”

“Tribology in Industries”

“Industrial Tribology”

“Tribology and Dynamics of Engine and Powertrain:

Fundamentals, Applications and Future Trends”

AAE 4297: SEMINAR

AAE 4298: INDUSTRIAL TRAINING

AAE 4299: PROJECT WORK / PRACTICE SCHOOL

I. POWER TRAINS

AAE 4019: ENGINE TRIBOLOGY [3 0 0 3]

References:

�

�

�

�

�

�

�

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The topic has to approved by the Department and a report of the samehas to be submitted a week before the day of the presentation.

Each student has to undergo industrial training for a minimum periodof 4 weeks. This may be taken in a phased manner during the vacationstarting from the end of third semester.

Student has to submit to the department a training report in theprescribed format and also make a presentation of the same. Thereport should include the certificates issued by the industry.

The project work may be carried out in the institution/industry/research laboratory or any other competent institutions.

The duration of the project work shall be a minimum of 16 weekswhich may be extended up to 24 weeks.

A mid-semester evaluation of the project work shall be done afterabout 8 weeks.

An interim project report on the progress of the work shall besubmitted to the department during the mid-semester evaluation.

The final evaluation and viva-voice will be conducted aftersubmission of the final project report in the prescribed form.

Student has to make a presentation on the work carried out, before thedepartment committee as part of project evaluation.

MINOR SPECIALIZATION

EIGHTH SEMESTER

37

AAE 4020: DESIGN OF IC ENGINES [3 0 0 3]

References

AAE 4021: ELECTRIC AND HYBRID VEHICLES [3 0 0 3]

References:

AAE 4022: TWO AND THREE WHEELED VEHICLE [3 0 0 3]

Principle parts of an I C Engine, systems of engine, working overview,Cylinders, liners, and cylinder heads, Function, Materials, Constructionaldetails and design considerations for a piston, connecting rod, crankshaft, Different types of mechanisms, valve requirements, materials,design, thickness of valve disc, stem diameter, valve lift, rocker armcross section and shaft design, tappet design, valve spring designproblems on valves, design of fulcrum pin, push rods, Function, types,materials, design of fly wheels, problems on fly wheel design, Design ofcooling components, coolant flow rate, Design future of lubricationsystems, oil pressure relief valve.

1. Newton K , Steeds W, Garrett TK, “ ”, SAEPublications, 2004.

2. J. Shigley, “ ”, Tata McGraw Hill,1980.

3. V Ganesan, “ Tata McGraw hillpublishing co ltd, 2008.

4. M L Mathur, R P Sharma, “ ”,DhanpatRai, 1999.

5. R.K. Rajput, “ ”, Laxmi Publications,2005.

Introduction to hybrid vehicles,Social and environmental importance ofhybrid and electric vehicles, impact of modern drive-trains on energysupplies, Requirements of hybrid vehicles, Performance characteristicsof road vehicles, Lay out of hybrid vehicles, Design considerations,Classification of electric drives, DC motors-series wound, shunt wound.Compound wound and separately excited motors, Permanent magnetmotors, AC motors, Hybrid architecture, Hybrid power plantspecifications, Matching electric drive and ICE, sizing the propulsionmotor, Energy storage technology, storage batteries, Classification ofbatteries, Recent developments in storage batteries, Classification of fuelcells, Application of fuel cells.

1. Newton K , Steeds W , Garrett TK, , SAEPublications, 2004.

2. Hamid A Taliyat, Gerald B Kliman,Mercel Dekker Inc.,2012.

3. John M. Miller, , Institute ofElectrical Engineers, London, 2004.

4. Iqbal Hussein,CRC Press, 2003.

5. Mehrdad Ehsani, YimiGao, Sebastian E. Gay, Ali Emadi,

CRC Press, 2004.

Introduction- Historical background, Layouts, Classifications, Engineconstruction and components, Valve timing diagrams, Types of engines,Fuel supply system, Types of cooling system, Types of lubricationsystem, Classification and constructional details of clutch, Design ofclutch systems, gearbox system, Design of gears, Transmission types,CVT, Final drive, Suspension system, Front fork assembly, Steeringgeometry, Types of brakes, Types of wheels, Constructional features oftyres, Seating arrangements, Vehicle stability and aerodynamicproperties, Safety arrangements, Maintenance of Two and Threewheelers, Fuel economy and emissions.

The Motor Vehicle

Mechanical Engineering Design

Internal Combustion Engines”,

Course in Internal Combustion Engines

Internal Combustion Engines

“The Motor Vehicle”

“Hand Book of Electric Motors”,

“Propulsion Systems for Hybrid Vehicles”

“Electric and Hybrid Vehicles: Design Fundamentals”,

“Modern

Electric, Hybrid Electric and Fuel Cell Vehicles: Fundamentals, Theory

and Design”,

References:

II. BUSINESS MANAGEMENT

HUM 4011: FINANCIAL MANAGEMENT [2 1 0 3]

References:

HUM 4012: HUMAN RESOURCE MANAGEMENT [2 1 0 3]

References:

HUM 4013: MARKETING MANAGEMENT [2 1 0 3]

1. T K Garrett, Kenneth Newton, William Steeds, ,Butterworth Heinemann publication, 2001.

2. Vittore Cossalter, , Bertrams Print, 2007.

3. Irving R.E. Temple Press Book, London,1992.

4. Michel M Griffin, , Prentice-Hall, 1978.

5. Kripal Singh, StandardPublishers,2011.

Introduction to financial management, Principle of accountancy, Sourcesof long term finance, Valuation of securities, Leverages, Working capitalmanagement, Capital budgeting, Cost of capital, Cash management, andDividend decisions.

1. Prasanna Chandra, TataMcGraw Hill, Delhi .

2. I M Pandey, , Vikas Publishing house, Delhi.

3. Subir Kumar Banerjee, Sultan Chand &Co., Delh .

4. ICFAI, ICFAI, Hyderabad .

5. Maheshwari S.N, , Sultan Chand & Co.,Delhi

Evolution and development, HRD Organization and responsibilities.Evolution of HRM, Theories of HRM. Human resource planning, HumanResources Inventory, Forecast, Job analysis, Job description, Jobspecification, Job evaluation, Employment stability. Human ResourcePlanning and Recruiting, Induction, & socialization, Training anddevelopment, Performance management and appraisal.

1. T.V. Rao and Pereira D F,Oxford and IBH Publishing .

2. Subbrao A.,Himalaya Publishing House .

3. N G Nair and Latha Nair,, S. Chand Company .

4. Virmani B R; Rao Kala,, Response books

.

5. PareekUdai et al.,Oxford and IBH Publishing .

Understanding marketing management, Assessing market opportunitiesand customer value, Adapting marketing to the New Economy, BuildingCustomer Satisfaction, Value, and Retention, Market Demand, Scanningthe Marketing Environment, Consumer Markets, Business Markets,Dealing with the Competition, Market Segments, Product Life Cycle, NewMarket Offerings, Designing and Managing Services, Price Strategies,Retailing, Wholesaling, Integrated Marketing Communications.

“The Motor Vehicle”

“Motor Cycle Dynamics”

“Motor Cycle Engineering”,

“Motor cycles”

“Automobile Engineering Volume I & II”,

“Fundamentals of Financial Management”,

,

“Financial Management” ,

“Financial Management”,

i,

“Corporate Financial Management”, ,

“Financial Management”

,

“Recent experiences in Human Resources

Development”, ,

“Essentials of Human Resource Management and

industrial Relations”, ,

“Personnel Management and Industrial

Relations” ,

“Economic restructuring technology

transfer and human resource development” ,

“Human Resource Development in Asia: Trends

and Challenges”, ,

2006

2007

1999

2003

2002.

1986

1999

1995

1997

2002

38

References:

HUM 4014: OPERATIONS AND SYSTEMS MANAGEMENT [2 1 0 3]

References:

AAE 4002: COMPUTATIONAL FLUID DYNAMICS [3 0 0 3]

References:

1. Philip Kotler,Prentice Hall of India Private Limited,

New Delh .

2. ICFAI , ICFAI, Hyderabad .

3. Varshney R L and Gupta S L, Sultan Chand& Sons, New Delhi .

4. Adrian Palmer, , Oxford University Press,New York .

Types of production activities, Production consumption cycle, Functionsof production and operations management, Importance and uses offorecasting, Product development and design: Product life cycle,Process design, Process charts, Flow diagrams and Man machinecharts, Capacity planning, Aggregate planning, Scheduling, Operationsstrategy, Operation performance Frontier and productivity, Systemsthinking, Systems engineering and its management, Systems decisionprocess. Systems thinking, structure, classification, boundaries,visibility, System life cycle models, System dynamics and its importancein system thinking. System dynamics modeling process.

1. Monks Joseph G, Tata McGraw-HillPublishing Co. Ltd., New Delh .

2. Krajewski Lee J. and Ritzman Larry P, ,Pearson Education (Singapore) Pte. Ltd., Delhi 2005.

3. Mieghem J, DynamicIdeas”, ISBN: 0-9759146-6-9 .

4. Sterman J D,, McGraw Hill, International Edition .

5. Senge Peter, Currency Doubleday, New York.

Derivation of governing equations of fluid dynamics and discussion oncharacteristic of the governing equations, the initial and boundaryconditions. Mathematical behavior of different classes of partialdifferential equations. Discretization of governing equations using FiniteDifference and Control Volume approach. The basic solution techniquesfor steady state and transient equations. Solution of DiffusionProblems.Numerical methods for steady one dimension convective flowwith diffusion. The need for staggered grid. Discussion on SIMPLE,SIMPLER and PISO algorithms. Implementation of Boundary Conditionsin computational fluid dynamics.

1. John D Anderson Jr.McGraw Hill. New York. 1995.

2. Suhas V PatankarMcGraw Hill. New York 1980.

3. H.K. Versteeg and W. Malalasekera,

Longman Scientific & Technical. England 1995.

4. K.Muralidhar and T.SundararajanNarosa Publishing House, NewDelhi.2003.

5. JiyuanTu, Guan HengYeoh, Chaoqun Liu,Butterworth-Heinemann, 2012.

“Marketing Management Analysis, Planning,

Implementation and Control”,

i,

,“Marketing Management” ,

“Marketing Management”,

,

“Principles of Marketing”

,

“Operations Management”,

i,

“Operations Management”

,

“Operations Strategy: Principles and Practices,

,

“Business Dynamics - Systems Thinking and Modeling

for A Complex World” ,

“The Fifth Discipline”, ,

, “Computational Fluid Dynamics- The Basics

with Applications”,

, “Numerical Heat Transfer and Fluid Flow.

Hemisphere”,

“An Introduction to

Computational Fluid Dynamics.- The Finite Volume Method”,

, “Computational Fluid Flow and

Heat Transfer”,

“Computational Fluid

Dynamics: A Practical Approach”,

2000

2003

2004

2000

2004

2008

2004

1990

OTHER PROGRAMME ELECTIVES

AAE 4007: COMPOSITE STRUCTURES [3 0 0 3]

References:

AAE 4008: COMPUTER INTEGRATED MANUFACTURING [3 0 0 3]

References:

AAE 4023: AUTOMOTIVE AIR-CONDITION [3 0 0 3]

Introduction to the FRP composites, Mechanical behaviour of a lamina,Stress-Strain relations for a unidirectional and orthotropic lamina,effective Moduli of a continuous fibre reinforced lamina - Models basedon mechanics of materials, theory of elasticity. Mechanical Behaviour ofa Laminate, Stress displacement relationship, Stress strain relationship,Laminate stiffness, Determination of lamina stresses and strains.Special cases of laminate stiffness and Inter-laminar Stresses, Failure ofContinuous Fibre-reinforced orthotropic Lamina, Maximum stress/straincriteria, Tsai-Hill and Tsai-Wu criterion, Hygrothermal effects on materialproperties on response of composites.

1. R. F. Gibson, , CRCPress, 2002.

2. L. P. Kollar, George S Springer,.Cambridge University Press 2004.

3. R. M. Christensen, “ , ASTMInternational, 1997.

4. B. D. Agarwal, L. J. Broutman and K. Chandrashekhara, “, John Wiley & Sons, 2004.

5. Christos Kassapoglou, “, John Wiley

& Sons, 2013.

Introduction, general construction requirements, Methods of improvingmachine accuracy and productivity, Co-ordinate systems, point to pointand contour programming, manual method (word address format only),Adaptive Control Machining System, Introduction to Robotics, Robotanatomy physical configurations, Technical features, AutomatedInspection and Testing: Principle and Methods, Part classification andcoding, production flow analysis, benefits of group technology, MaterialHandling System, Flexible Manufacturing System, Computer aidedProcess planning, Computer integrated planning systems. Materialrequirement planning, capacity planning, shop floor control, automaticidentification systems, automated data collection systems.

1. YoramKoren,PHI, New Delhi, 2006.

2. YoramKoren, Joseph Ben Uri, ,Khanna Publishers, New Delhi, 2005.

3. Mikell P Groover and Emory W Zimmers,PHI, New Delhi, 2008.

4. Mikel P Groover,PHI, New Delhi, 2008.

5. James A. Rehg, Henry W. Kraebber,Pearson Prentice Hall, 2004

Introduction, Fundamentals of Refrigeration, Vapour compressionrefrigeration, coefficient of performance, Effect of sub cooling & superheating, Psychrometric properties and processes, Components of Airconditioning system, Compressor, Evaporator, Condenser, Expansionvalve, Receiver Drier, Filters, Mufflers, Special features-Compressorprotection, Anti freezing relay, Operation of an Air-conditioning system-Type of Air conditioners. Heaters-Vehicle ventilation, combination heaterand air conditioner, manually controlled air conditioner and heatersystem, automatically controlled air conditioner and heater systems,Diagnostics and trouble shooting in air conditioners, Causes of airconditioner Failure, leak testing guide, Servicing and maintenance of AirConditioners.

“Principles of Composite Material Mechanics”

“Mechanics of Composite

Structures”

Mechanics of Composite Materials”

Analysis and

Performance of Fiber Composites”

Design and Analysis of Composite

Structures: With Applications to Aerospace Structures”

“Computer Control of Manufacturing Systems and

Computer Integrated Manufacturing”,

“Numerical Control of Machine Tools”

“Computer aided design

and manufacturing”,

“Automation, Production Systems and Computer

Integrated manufacturing”,

“Computer-integrated

Manufacturing”,

39

References

,

AAE 4024: COMPOSITE MATERIALS [3 0 0 3]

References:

AAE 4025: DESIGN FOR MANUFACTURING [3 0 0 3]

References:

1. Boyce H Dwiggins “Delmar Thomson Learning Ltd, 2001.

2. Manohar Prasad, New AgeInternational (Pvt) Ltd, New Delhi, 2003.

3. Steven Daly,Elsevier Ltd, 2011.

4. Thomas S Birch, , PearsonPrentice Hall, 2005

5. C P Arora, Tata McGraw HillPublishing company Ltd, 2006.

Introduction- Classification and characteristics of composite materials,Fiber reinforced and particle reinforced composites, general applications,Properties and types of resin, Classification of fibers and properties, Handlay-up, Filament winding, Pultrustion, Injection molding, Compressionmolding, Vacuum bagging technology, Machining of composites, Types ofmetal matrix composites, Rule of mixture, Powder metallurgy, Stir casting,squeeze casting, properties, advantages and disadvantages of ceramicbased composite materials, Types of ceramic composites, Sintering, Coldisostactic pressing, hot isostatic pressing, Applications, Introduction tohybrid composites, Nan composites.

1. F.L. Matthews & R.D. Rawlings, Engineeringand Sciences, Chapman & hall, London, 1994.

2. Ronald Gibson, TataMcGraw Hill, New York, 1994.

3. MicaelHyer,McGraw Hill, New York, 1997.

4. Mathews F.L. and Rawlings R.D.,Chapman and Hall, London, England, 1st edition,

1994.

5. P K Mallicak, Monal Deklar Inc. NewYork, 1993.

Implementation of design for manufacturing, producibility guideline,reason for not implementing the DFMA, Impact on industries. Materialsand process selection, operation planning, selection of manufacturingprocesses, expert processing sequence selector. Design for parts forhigh speed feeding and orientation, high speed automatic insertion,analysis of assembly, general rules for product design for automation,product design for robot assembly, Machining using single point,multipoint, abrasive wheels. Standardization, machining basiccomponent of shapes, accuracy and surface finish, cost estimation,dies and press working, press selection, turret press working, pressbrake operation, design rules, forging process, forging allowances.

1. C. Poli,Butterworth Heinemann Publication, 2001.

2. Mikell P. Groover, Emory W. Zimmers, CAD/CAM;Pearson Education, 2008.

3. G. K Lal, N Venkata Reddy, Vijay Gupta,Alpha science international, 2005.

4. Geoffrey Boothroyd, Peter Dewhurs, Winston A. Knight,CRC Press Publication, 2011.

5. O Molly, E AWarman, S Tilley,Springer, 2012.

Automotive Heating and Air Conditioning”,

“Refrigeration & Air Conditioning”,

“Automotive air conditioning and Climate control

systems”,

“Automotive heating and air conditioning”

“Refrigeration & Air Conditioning”,

“Composite Materials”,

“Principles of Composite Material Mechanics”,

“Stress Analysis of Fiber - Reinforced Composite

Materials”,

“Composite materials: Engineering

and Science”,

“Fiber Reinforced composites”,

“Design for manufacturing, A structured approach Vol I”,

“Computer Aided

Design and Manufacturing”,

“Fundamentals of Design and

Manufacturing”,

“Design for

Manufacturing and Assembly”,

“Design for manufacturing and

assembly”,

AAE 4026: ERGONOMICS IN AUTOMOTIVE DESIGN [3 0 0 3]

References:

AAE 4027: FARM MACHINERY AND EARTH MOVINGEQUIPMENT [3 0 0 3]

References:

AAE 4028: FINITE ELEMENT METHOD [3 0 0 3]

Ergonomics in vehicle design, ergonomics approach, problem solvingmethodologies, importance of ergonomics, Use of anthropometry indesigning vehicles, biomechanics consideration in seat design, seatdesign consideration related to driver accommodation, Vehiclepackaging, package layout, driver package development procedure,Controls and display interfaces, Introduction to filed view, types of filedview, forward field of view and evaluation, mirror design issue, methodsof measuring field of view, other visibility issues, Introduction, problemduring entry and exit, vehicle feature and dimensions related to entry andexit, method of evaluating entry and exit.

1. Nikolaos Gkikas,CRC Press Publication, 2013.

2. Mark R Lehto, James R Buck,Taylor and Francis Group publication,

2008.3. Vivek D Bhise, , CRC

Press Publications, 2012.4. B. Peacock, Waldemar Karwowski, Taylor

& Francis Publication, 1993.5. David Meister,

Taylor & Francis Publication, 1999.

Introduction, overview of engine components, Lubrication, Coolingsystem, Supercharger and Turbo charger, Types of transmission system,construction of hydro shift transmission, final drive, power take offshafts, Power steering system, integral and linkage type, planetarysteering system, types of brakes, Classification of earth movingequipment's, constructional details of Dozers, Loaders, Shovels,Excavators, Rippers, Trenchers, Dredgers, Drag Line, Clamshell,Scrapers, Motor Graders, Rollers, Compactors, Types of tractors, tractorattachments, tillage equipment, under carriage unit of earth mover,Suspension system, Tyres, maintenance and safety of earth movers.

1. Rodichev and G. Rodicheva, MIRPublishers, 1987.

2. Kolchin. A, and V. Demidov,MIR Publishers, 1972.

3. Harris Pearson Smith, TataMcGraw HILL Publishers, 1980.

4. Erich J. Schulz, , McGraw-HillHigher Education, 1982.

5. S C Sharma, KhannaPublishers, 1988.

Introduction to matrix notations, role of computer, General steps in Finiteelement methods, Application of Finite element method, Advantages ofFinite element methods. Definition of stiffness matrix, Derivation ofstiffness matrix for spring elements, Transformation of vectors in 2D,Global stiffness matrix, computation of stresses in bar in x-y plane, Useof symmetric structure, beam stiffness, assemblage of beam stiffnessmatrices, distributed loading, beam element with nodal hinge, potentialenergy method, Galerkin method for deriving he beam element equation,Basic concept of plane stress and plane strain, derivation of the constantStrain triangle element stiffness matrix and equations, Derivation of theLiner Strain triangular element stiffness matrix and examples.

“Automotive ergonomics Driver vehicle

interaction”,

“Introduction to human factors and

ergonomics for engineers”,

“Ergonomics in automotive design process”

“Automotive Ergonomics”,

“The History of Human Factors and Ergonomics”,

“Tractor and Automobiles”,

“Design of Automotive engines for

tractor”,

“Farm Machinery and Equipment”,

“Diesel equipment- volume I and II”

“Construction Equipment and Management”,

40

References:

AAE 4029: PRODUCT DESIGN AND MANUFACTURING [3 0 0 3]

References:

,

AAE 4030: RAILWAY ENGINEERING [3 0 0 3]

References:

,

1. Zienkiewicz O C and Taylor R L.,Elsevier., 2013.

2. Rao Singiresu S.,Butterworth and Heinmann., 2011.

3. Huebner Kenneth H, , JohnWiley and Sons., 2008.

4. Reddy JN., , McGrawHill., 2006.

5. Logan D L., , Thomson.,2011.

Introduction to Design by evolution & innovation, Phases of designprocess, phase flow chart, Feasibility study, Preliminary design, detaileddesign and assembly, product strategies, Standardization, role ofaesthetics, human engineering considerations in product design,man/machine information exchange, Concept generation process,Theory of inventive problem solving, Principal stress trajectories,Balanced design, designing for uniform strength, tension vs.compression, Comparison of strength & rigidity based design, Designfor machining, ribs, corrugates, laminates and membrane, Product &component optimization, Optimization by Linear programming &Geometric programming.

1. Kevin Otto & Kristin Wood “ Pearson Education,2009.

2. George E Dieter, McGraw Hill InternationalEditions, 2012.

3. David G Ullman, McGraw HillInternational Editions, 2011.

4. S P Patil, , Jaico Publishing House,Bangalore, 2008.

5. A K Chitale & R C Gupta, ,Prentice Hall of India Pvt. Ltd., New Delhi, 2013.

Introduction: Indian railways, Development and classification of theIndian railway, Train resistances and rolling stock, Locomotives,Coaches, Wagons, Train brakes, Tractive effort of a locomotive, Trackstresses. Rails and Rail gauges, Fastenings for rails. Sleepers: Functionsof sleepers, Types of sleepers, Relaying of track. Maintenance: Necessityfor maintenance of track, Maintenance of track proper, Maintenance ofrailway bridges, Maintenance of rolling stock, Accidents, Signalingduring maintenance, Estimating speed of a running train, Speedrestriction. Signaling: Objects of signaling, Types of signals,Classification according to function, Classification according to location,Special signals.

1. S C Rangwala “ , Charotar Publishing HousePvt. Ltd., 2013.

2. S C Saxena & S P Arora, D P RaiPublications, 2010.

3. B L Gupta & Amit Gupta, , Standard PublishersDistributors, 2005.

4. J S Mundrey, , Tata McGraw HillPublication, 2010.

5. Satish Chandra & M.M. Agarwal, OxfordUniversity press, 2008.

“Finite Element Method for Solid and

Structural Mechanics”,

“Finite Element Method in Engineering”,

“Finite element method for Engineers”

“Introduction to the Finite Element Method”

“First Course in the Finite Element Method”

Product Design”,

“Engineering Design”,

“The Mechanical Design Process”,

“Mechanical System Design”

“Product design and Manufacturing”

Railway Engineering”

“Railway Engineering”,

“Railway Engineering”

“Railway Track Engineering”

“Railway Engineering”,

AAE 4031: ROBUST DESIGN [3 0 0 3]

References:

AAE 4032: STATISTICAL QUALITY CONTROL &

RELIABILITY [3 0 0 3]

References:

AAE 4033: VEHICLE BODY ENGINEERING AND SAFETY [3 0 0 3]

Robustness strategy and its primary tools, hypothesis testing, testing ofhypothesis using F Test, Robust parameter design, Criteria for the Use ofExperiment Design Methods Orthogonal Arrays, design of orthogonalarrays, Analysis of variance (ANOVA), ANOVA for Orthogonal Arrays,robust parameter design, signal to noise ratio, Two factor factorialdesign, two stage nested design, fractional factorial design, introductionto multivariate analysis of variance (MANOVA) Statistical analysis,model adequacy checking Linear regression, simple regression andmultiple regressions, Experimental methods for fitting the responsesurface, types of design, Response surface design with blocks.

1. Douglas C. Montgomery,John Wiley & Sons 2001.

2. R. Pannerselvam, PHI, 2012.

3. Madhav S. Phadke,Prentice Hall New Jersey 2002.

4. Peter Goos, Bradley Jones,John Wiley & Sons, 2011.

5. Geoffrey M. Clarke, Robert E. Kempson,, AHodder Arnold Publication, 1997.

Fundamentals of quality and quality control, quality philosophy,describing variation, box plot, frequency distribution and histogram,measure of central tendencies, Probability distributions, continuousdistribution and discrete distributions, tolerance allocation, Control chartfor variables, X-bar and R-Chart and X-Bar and Sigma Chart, controlchart for attributes, control chart for defect and number of defectives,Process capability analysis and process capability index, acceptancesampling, operating characteristic curves, Dodge Romig and MIL-STDacceptance sampling tables, concept of reliability, Reliability systems,maintainability.

1. Grant E.L., “ , McGraw HillPublications, New York 1988.

2. Duncan, Irwin Press, NewYork 1960.

3. R.C. Gupta, , Khanna PublishersNew Delhi 2013.

4. Montgomery D. C., ,, John Wiley& Sons, New York 2005.

5. Amitava Mitra,John Wiley & Sons, 2012.

Introduction, industrial organization, Non utilized body and chassis,partially utilized body and chassis, unitized body and chassis, bodyshape evolution, Computer Aided Styling, body modeling, DigitalMockup, Virtual Reality and body engineering, Body in white, body side,fenders, roof assembly, front frame, rear frame, compartment floor,closed body, commercial vehicles and trucks, Outer body components,weather strips, glass and mirror, moveable parts, wind shield, wiperassembly, vehicle lighting and signaling and layout, Safety belts, Airbag,Dashboard design and manufacturing techniques , seats, Air-conditioning systems, Biomechanics, Simplified models for crash,impact tests, test equipment and sensors.

“Design and Analysis of Experiments”,

“Design and Analysis of Experiments”,

“Quality Engineering using Robust Design”,

“Optimal Design of Experiments: A Case

Study Approach”,

“Introduction to the Design

and Analysis of Experiments”

Statistical Quality Control”,

“Quality Control and Industrial statistics”,

“Statistical Quality Control”,

“Introduction to Statistical Quality Control”

“Fundamentals of Quality Control and

Improvement”,

(6e)

(6e)

(2e)

41

References:

AAE 3283: AUTOMOBILE ENGINEERING [3 0 0 3]

References:

1. Julan Happian-Smith, ,British Library cataloging in publication Data, 2001.

2. David Crolla,, British Library cataloging in publication Data,

2009.

3. Lorenzo Morello, Lorenzo Rossini, Giuseppe Pia, Andrea Tonoli,Springer Publications,

2011.

4. Lorenzo Morello, Lorenzo Rossini, Giuseppe Pia, Andrea Tonoli,, Springer Publications,

2011.

5. George A. Peters, Barbara J. Peters, ,CRC Press, 2003.

Introduction - Engine classifications, Cylinder arrangements, workingand constructional features of Engine components, Valve operatingmechanisms, valve timing diagrams, fuel supply system, Battery ignitionsystem, types of cooling and lubrication system, classification andworking of clutch system, design of clutch components, Sliding andconstant mesh gear box, Calculation of power, gear ratio and tractiveefforts, Torque convertor and fluid coupling, Propeller shaft, Differential,Types of steering systems, Steering mechanism and geometry, types ofsuspension system, types of brakes, calculation of brake torque andstopping distance, Tyres and wheel system, Starting system, Bendixdrive, lighting circuit.

1. Heldt. P.M., “ Oxford and IBMPublishers Co, 1985.

“An Introduction to Modern Vehicle Design”

“Automotive Engineering power train, chassis system

and vehicle body”

“The

Automotive Body Vol I- Component Design”,

“The

Automotive Body Vol II- System Design”

“Automotive Vehicle Safety”

High Speed Combustion Engines”,

OPEN ELECTIVES

2. Newton and steeds, ELBS, 1980.

3. Narang G.B.S., , Khanna Publishers, 1990.

4. Kirpal Singh, StandardPublishers, New Delhi,2011.

5. N K Giri, Khanna Publication, New Delhi,2008.

Introduction- Historical background, Regulatory test procedures,Analysis of pollutants, Pollution from Spark Ignition engines, Pollutionfrom Compression Ignition engines, Fuels for spark ignition andcompression ignition engines, Engine Variants- Lean Burn engines,Stratified charge engines, Direct Injection in Gasoline engines,Instrumentation for pollution measurements- Non Destructive Infraredanalyzers, thermal conductivity and flame ionization detectors, analysersfor NOx, gas chromatograph, Alternative Fuels- Hydrogen, Natural gas,Liquefied petroleum gas, vegetable oil and biodiesel, Biomass Energy,Direct Energy conversion methods- solar cells, thermo ionic converters.

1. V Ganesan, Tata Mcgraw-hillEducation, New Delhi, 2012.

2. M L Mathur and R P Sharma, ,Dhanpat Rai Publications, New Delhi, 2011.

3. Colin R Ferguson and Allan T Kirkpatric,Wiley India Ltd, New Delhi, 2004.

4. Willard W Pulkrabek,, PHI learning Pvt Ltd, New Delhi, 2004.

5. S P Sukatme,, Tata McGraw Hill Education, New Delhi, 2005.

“The Motor Vehicle”,


“Automobile Engineering Vol. I & II”,

“Automotive Mechanics”,

“Internal Combustion Engines”,


“Internal Combustion

Engines”,

“Engineering Fundamentals of Internal

Combustion Engines”

“Solar Energy Principles of Thermal Collection and

Storage”

AAE 3284: AUTOMOTIVE POLLUTION AND CONTROL [3 0 0 3]

References:

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