M.Tech in Mechanical Engineering
Programme Educational Objectives (PEOs):
Programme Outcomes (POs):
Programme Specific Outcomes (PSOs):
 Course Structure And Syllabus
Department:Mechanical Engineering
Programme: M.Tech in Mechanical Engineering
Computer Integrated Manufacturing & Automation (Regular Course)
Year I Semester I
Course Code  Course Title  L T P C  

ME 7101  Advanced Operation Research  3 0 0 3  
ME 7102  Finite Element Methods  3 0 0 3  
ME 7103  Computer Aided Design  4 0 0 4  
ME 7104  Computer Aided Manufacturing  4 0 0 4  
ME 7105  Automation in Manufacturing Systems  4 0 0 4  
ME 7151  Sessionals – I  0 0 6 3 
Year I : Semester II
Course Code  Course Title  L T P C  

ME 7201  Advanced Manufacturing Process  3 0 0 3  
ME 7202  Advanced Manufacturing Management  3 0 0 3  
ME 7203  Modeling of Manufacturing Systems  4 0 0 4  
ME 70**  Elective – I  4 0 0 4  
ME 70**  AElective – II  4 0 0 4  
ME 7251  Sessionals – II  0 0 6 3 
Year I Semester II
Course Code  Course Title  L T P C  

ME 8098  Seminar     2  
ME 8099  Project – Phase I     8 
Year II : Semester II
Course Code  Course Title  L T P C  

ME 8099  Project – Phase II    10  
Theses Evaluation    10  
Seminar and Viva voce    06 
Computer Integrated Manufacturing & Automation (Part Time Course)
Semester I
Course Code  Course Title  L T P C  

ME 7101  Advanced Operation Research  3 0 0 3  
ME 7102  Finite Elements Methods  3 0 0 3  
ME 7103  Computer Aided Design  4 0 0 4 
Semester II
Course Code  Course Title  L T P C  

ME 7201  Advanced Manufacturing Process  3 0 0 3  
ME 7202  Advanced Manufacturing Management  3 0 0 3  
ME 7203  Modeling of Manufacturing Systems  4 0 0 4 
Semester III
Course Code  Course Title  L T P C  

ME 7104  Computer Aided Manufacturing  4 0 0 4  
ME 7105  Sessionals – I  0 0 6 3 
Semester IV
Course Code  Course Title  L T P C  

ME 70**  Elective – I  4 0 0 4  
ME 70**  Elective – II  4 0 0 4  
ME 7251  Sessionals – II  0 0 6 3 
Semester III
Course Code  Course Title  L T P C  

ME 7104  Computer Aided Manufacturing  4 0 0 4  
ME 7105  Automation in Manufacturing Systems  4 0 0 4  
ME 7151  Sessionals – I  0 0 6 3  
ME 7151  Sessionals – I  0 0 6 3 
Semester IV
Course Code  Course Title  L T P C  

ME 70**  Elective – I  4 0 0 4  
ME 70**  Elective – II  4 0 0 4  
Sessionals – II  0 0 6 3 
Semester V
Course Code  Course Title  L T P C  

ME 8098  Seminar     2  
ME 8099  Project – Phase     8 
SemesterVI
Course Code  Course Title  L T P C  

ME 8099 
Project – Phase II Theses Evaluation 
  10  
Seminar and Viva voce    06 
COURSE CONTENTS
ME 7101 : Advanced Operations Research (300)
Unit I  Linear programming — simplex algorithm & its variants, sensitivity analysis; Transportation & assignment models; Integer programming, Cutting plane method  12 lectures 
Unit II  Game theory; Dynamic programming, Goal Programming; Network planning & control techniques; Queuing theory; Simulation techniques  10 lectures 
Unit III  Inventory product control problems — EOQ, Production run, shortage, discount  8 lectures 
Unit IV  ABC analysis; replacement models — capital equipment, PV, ARP, IRP, Payoff period, MAPI method  6 lectures 
Texts / References:
 Taha, H. A., Operations Research, McMillam Press
 Gillet, B., Algorithmic approach for OR, TMG
 Rao, S.S., Linear Programming Techniques, TMG
 Mustaffi, C. K., Operations Research, New Edge International
ME 7102 : Finite Element Methods (300)
Unit I  Calculus of variation, Introduction to calculus of variations Introduction to equilibrium equations in elasticity, Euler's Lagrange's equations, Principal of virtual work, virtual displacements, Principles of minimum potential energy, boundary value, initial value problems, Flexibility approach, Displacement approach, Different problems in structural analysis. FEM Procedure, Derivation of FEM equations by variation principle polynomials, Concept of shape functions, Derivation for linear simplex element, Need for integral forms, Interpolation polynomials in global and local coordinates.  7 lectures 
Unit II  Weighted residual Methods: Concept of weighted residual method Derivation of FEM equations by Galerkin's method, Solving cantilever beam problem by Galerkin's approach, Derivation of shape functions for CST triangular elements, Shape functions for rectangular elements, Shape functions for quadrilateral elements. Higher order Elements: Concept of isoparametric elements, Concept of sub parametric and super — parametric elements, Concept of Jacobin matrix.  7 lectures 
Unit III  Numerical Integration Numerical Integration, one point formula and two point formula for 2D problems, Different problems of numerical integration evaluation of element stiffness matrix, Automatic mesh generation schemes, Pascal's triangle law for 2D shape functions polynomial, Pascal's triangle law for 3D shape function polynomials, Shape function for beam elements, Hermition shape functions.  7 lectures 
Unit IV  Convergence: Convergence criteria, Compatibility requirements, Geometric isotropy invariance, Shape functions for isoparametric elements, Special characteristics of stiffness matrix, Direct method for deriving shape functions using Lang rage's formula, Plane stress problems.  7 lectures 
UnitV  Analysis of structures: Truss elements, Analysis of truss problems by direct stiffness methods, Analysis of frames and different problems, Different axisymmetric truss problems, question paper problems.  7 lectures 
Texts / References:
 The Finite Element method — ZIENKIEWICZ.O.C.,Tata McGraw Hill Pub. New Delhi
 Concepts and Applications of Finite Element Analysis:  COOK. D. Robert. Malus.S.Dawd, Plesha E. Michel, John Wilely & sons, New York
 Finite Elements in Engineering Chandrapathla Bela gundi et. al., PHI Pvt. Ltd., New Delhi
 Finite Element Analysis — C. S. Krishnamoorthy, TMGH, New Delhi
 Introduction to the Finite Element method — Desai /ABEL CBS Publishers, New Delhi
ME 7103: Computer Aided Design (400)
Unit I  Introduction to CAD/CAM: Definition, Product cycle & CAD/CAM, Automation & CAD/CAM. Computer graphics and Database: Introduction, Software configuration of a Graphic system, Functions of a Graphics package, Constructing the Geometry, Transformations, Data Base Structure and Content, Wire Frame Features & CAD/CAM Integration.  7 lectures 
Unit II.  CAD System Hardware & Software: Introduction, Graphics Input Devices, Modes of operation. CAD System Configuration, CAD Operating System, Graphics system, the overlay system. Graphics Database structure &handling, Operating features, Symbols, Macros. Editing Facility, Data Selection, Graphic transformation, Plotting. Graphic standards GKS and CORE, GKS3D and PHIGS, IGES, Other Graphic Standards. Transformation : Display, Windowing and Clipping; 2D & 3D transformations, Linear transformations  10 lectures 
Unit III  Geometric Modelling: Introduction  Dimensions of models, Types of models, Construction solid models. Wire frame models, wire frame Entities, Curve Representation. Parametric Representation of Analytic curves. Representation of Synthetic Curves  Hermite Cubic Splines, Bezier Curves, B Spline Curves, Rational Curves. Curve Manipulations  Displaying, Evaluating Points on Curves, Blending, Segmentation, trimming Intersection Transformation Design and Engineering Applications Problems Surface Models, Surface Entities, surface representationParametric Representation of analytic Surface now Surfaces, Surface Manipulations. Design & Engineering applications Problems  7 lectures 
Unit IV  Computer aided solid modeling (Foundation) through either of the CAD/CAM software (ProE/UG/Solid works/Solidedge/etc.) environment  6 lectures 
Unit V  FE Modeling in either of CAE softwares environment (ANSYSNASTRAN, ABAQUS, Hypermesh, Patran, Algore, etc.) and implementation of FEM tools for preprocessing/postprocessing for solid beam/structure problems.  6 lectures 
Texts / References:
 C.B. Besant and Ewk Lui, Computer Aided design and manufacture, Affiliated East livest, India
 Ibrahim Zeid, CAD/CAM Theory & Practice, Tata McGraw Hill.
 M.P Groover and E W Zimmers, CAD/CAM Computer aided Design and Manufacture,
 Finite Elements in Engineering Chandrapathla Bela gundi et. Al., PHI Pvt. Ltd., New DellH
ME 7104: Computer Aided Manufacturing (400)
Unit  Introduction: Fundamentals of numerical control, advantages and limitations of NC systems, classification of NC systems. Features of NC Machine Tools: Design consideration of NC machine tools Increasing productivity with NC machines, marching centre tooling for CNC machine.  10 lectures 
Unit I  System Device: Device, feedback devices counting devices, digital analog converters. Interpolations: DDA integrators, simple and symmetrical DD reference word CNC interpolators.  10 lectures 
Unit II  NC part programming: Introduction punched, tape manual part programming, computer aided programming, ATP programming. Control loops for NC systems: Introduction control loops for point and counting systems. Computerized numerical control: CNC concepts advantage of CNC, references pulse techniques sampled data techniques, micro computers in CNC.  12 lectures 
Unit IV  Adaptive control systems: Adaptive control with optimization, Adaptive control with constraints variable gains AC systems, online search strategies  8 lectures 
Unit V  Process planning. Manufacturing support systems, CAPP, Advanced Manufacturing, planning,Lean production & Agile Manufacturing. Production systems (operation level): Computer generated time Standards machining inability data systems cutting conditions optimizationproduction planning capacity, planning shop floor control computer, integrated manufacturing systems, system components, application.  14 lectures 
Texts / References:
 Marto J "Numerical control of trhichine 100IS", MGH
 Y Koren 'Computer Controls of Manufacturing Systems",
 Y Koren & J Benuri 'Numerical Control of machine tools", Khanna.
 Wilson F.M 'Numencal control in manufacturing" Mc Grow Hill New York
 Wiliam M Newman & Robert Sproul, "Pnnciples of Interactive Computer Graphics",MGH
ME 7105 : Automation in Manufacturing Systems (400)
Unit I  Fundamentals of Manufacturing: Production system facilities, Manufacturing support systems, Automation in Production systems, Automation Principles and Strategies, Manufacturing operations, Product, production, relationship.  10 lectures 
Unit II  Mathematical concepts & models: Production concepts and Mathematical models, costs of manufacturing operations.  10 lectures 
Unit III  Construction elements for automation, Automated workpiece handling, working principles and techniques for feeding arrangement, transfer mechanism,etc., Assembly automation, Automated packaging, Automated inspection, etc.  10 lectures 
Unit IV  Industrial Control: Industrial Control systems, Sensors, Actuators and other control systems, Discrete controls using PLC & PLC. Power Hydraulics and pneumatics: Concepts, features and parameters governing the section of various components necessary for building the elements, Circuit Design and Analysis, Industrial Application of fluid power and pneumatic systems, electrohydraulic Servo system, Fluid logic control, MPL, Fluidics logic control.  14 lectures 
Unit V  PLC: Introduction, Micro PLC, Programming a PLC, Logic functions,input & output modules, PLC processors, PLC instructors, Documenting a PLC system, Timer and counter Instructions, comparison & data handling instructions, sequencing instructions, mask data representation, typical PLC programming, exercises for industrial applications.  10 lectures 
Texts / References:
 Performance Modelling of Automated Manufacturing systems, Vishwanandham, PHI
 Fluid Power system, by Goodwin, Mc Graw Hills Press Ltd.
 Principles and applications of PLC by Webb, Mc Milan
 Principles of CIM, By Vajpayee, PHI
 Automated Production system and CIM, by Michael P. Grover, Pearson Education,Asia
 Fluid Power with application 6 Th edition, by Anthony Esposito, PHI
 Mechatronics, by W, Bolton, Longman, Anderson Wiseley/li>
ME 7151 Sessional 1 (006) & ME 7251: Sessional II (006)
Sessional courses will be combination of library work and practice classes in laboratory/workshop as per the requirements of the courses These courses will be evaluated in terms of seminar/practice test/ viva voce
ME 7201: Advancad Manufacturing Processes (300)
Unit I  Characteristics of arc and mode of metal transfer in arc welding, weldability, determination of Preheat temperature, use of Schaeffier’s diagram, weldability tests, heat flow in welding  Significance, theory of heat flow, cooling rate determination, selection of welding parameters based on heat flow analysis, Residential stress and distortion.  8 lectures 
Unit II  Force Analysis in forming and rolling operations, calculation of roll pressure, etc., Force analysis in extrusion operation, friction and frictionless drawing, extrusion and tube drawing.  8 lectures 
Unit III  Forgeability, theory of forging and mixed friction in forging and die design for forging.  12 lectures 
Unit IV  Special Machining Processes like EDM, ECM, AJM, USM, LBM, EBM and Water Jet Machining.  8 lectures 
 Manufacturing Science — Ghosh and Ma/Ilk, Affilated East West Press.
 Welding and Welding Processes — R. S. Parmar, Khanna Publishers.
 Mechanical Metallurgy— G. Deiter, Mc Graw Hill International
 Advanced Machining Processes — V.K.Jain, Allied Publishers.
 Modern Machining Processes — Pandey and Shaw, TMH
 New Technology Bhattacharya, I.E.(India)
ME 7202 : Advanced Manufacturing Management (300)
Unit I.  System theory concepts and system simulation as applied to manufacturing. Flexible production system and continuous flow production  6 lectures 
Unit II  Productivity in manufacturing systems, Different techniques for improvement of productivity, CAD, CAM, CIM, ROBOTICS, Group Technology, Single Minute Exchange of Dies (SMED) techniques.  8 lectures 
Unit III  Material requirement Planning, JIT, Kanban & Kaizen System, Management by objectives, quality circles, PQ team approach, Flex time, Job rotation, Shojunca Ergonomics.  10 lectures 
Unit IV  Total Quality Control, zero defect theory, Statistical Process Control.  6 lectures 
Unit V  Concepts of value engg., value analysis, zero base budgeting. Introduction to Logistics. Management, Terrotechnology and Life Cycle Costing.  6 lectures 
 Richard T Schonberger "JAPANESE MANUFACTURING TECHNIQUES", Free Press
 Yashro Mondreu. "TOTYOBA PRODUCTIONS SYSTEMS", Inst. Of Ind!.Engrs..
 Shgo Shingo 'SIMPLE MINUTE OF DIES", Productivity Press.
 David J Sumanth, PRODUCTIVITY ENGG. & MANAGEMENT" MGH
 Benjamin. S. Blanchard "LOGISTICS ENGINEERING MANAGEMENT ", Prentice Hall
 Elwood, S Buffa "MODELS FOR PRODUCTION AND OPERATIONS MGMT" John Wiley
ME 7203 : Modeling Of Manufacturing Systems (400)
Unit I  Introduction to systems and modeling: discrete and continuous system  Limitations of simulation, areas of application  Monte Carlo Simulation. Discrete event simulation and their applications in queuing and inventory problems.  9 lectures 
Unit II  Random number generation and their techniques: random variable generation, tests for random numbers. Analysis of simulation data.: Input modeling  verification and validation of simulation models  output analysis for a single model.  9 lectures 
Unit III  Modelling of Automated Manufacturing systems: Performance modeling tools, Markov chain models, Quenching models, Petrinet Models, Integrated PRQNESP Models.  9 lectures 
Unit IV  Simulation languages and packages  FORTRAN, C , C++, GPSS, SIMAN V, MODSIM III, ARENA, QUEST, VMAP  Introduction to GPSS  Case studies  Simulation of manufacturing and material handling system.  9 lectures 
Text / References:
 Jerry Banks and John S, Carson II "Discrete Event system Simulation", Prentice Hall,
 Geoffrey Gordon., "System Simulation", Prentice Hall
 Francis Neelamkovit, "Computer Simulation and Modelling", John Willey and sons
ME 7021: Flexible Manufacturing Systems (400)
Unit I  FMS an overview: Definition of an FMS  Types & configurations concepts  Types of flexibility & performance measures. Function of FMS host computer  FMS host and area controller function distribution. Development & implementation of FMS: Planning phase  Integration  System configuration  FMS layouts  Simulation  FMS Project development steps. Project management – Equipment development  Host system development  planning  Hardware & Software development.  8 lectures 
Unit II  Automated Materials Handling. & Storage: FunctionsTypes/Analysis of material handling equipment, Design of Conveyor & AGV systems Problems. Automated Storages: Storage system performance  AS/RS  Carousel storage system  WIP storage system  interfacing handling storage with manufacturing.  8 lectures 
Unit III  Modeling and Analysis of EMS . Analytical, Heuristics, Application of simulation, A model of FMS, simulation softwaresSLAM II, etc. Concepts of distributed numerical control: DNC system  Communication between DNC computer & machine control unit  Hierarchical processing of date in DNC system  Features of DNC system, Inspection and clearing systems in FMS.  12 lectures 
Unit IV  Planning, Scheduling and Control of FMS: Introduction — Scheduling of single product, N product, single batch, etc. Modeling of problems 'n’ operations on 'm' machines — Scheduling rules — Loading problems — Tool management & related issues, Material Handling system schedule. Heuristic algorithms& illustrated examples. Database in FMS.  10 lectures 
Unit V  Group Technology in FMS: Classification methods and clustering analysis method, Cell grouping approaches, Mathematical programming formulations, Knowledge Base System for GT(KBGT), etc.  8 lectures 
Unit VI  FMS Relational: Economic and technological justification for FMS — as GT, JIT — operation and evaluation — Personnel and infra structural aspects — typical case studies — Factories of failures.  9 lectures 
Text / References:
 Nand K.Jha, Handbook of Flexible Manufacturing Systems, Academic Press Inc.
 Parrish D J, Flexible manufacturing, Butter Worth — Heinemann, Ltd Oxford
 GROOVER M P. Automation, Production Systems and Computer Integrated Manufacturing, Prentice Hall India (P) Ltd
 Kusiak A, Intelligent Manufacturing Systems, Prentice Hall, Englewood Cliffs, NJ
 William W. Luggen — Flexible Manufacturing Cells & Systems, Prentice hall, NJ
 CONS/DINE D M, and CONS/DINE G D, Standard Handbook of Industrial Automation, Chapman and Hall, London.
 Viswanatham N & Narahari Y, Performance Modeling of Automated Manufacturing Systems, PHI.
 Ranky P G, The design and Operation of FMS, IFS Pub. UK
 Dr. H. K. Shivanand, "Flexible Manufacturing System" — Dhanpat Rai Publications, New Delhi.
ME 7022 : Intelligent Manufacturing Systems (400)
Unit I  Basic concepts of Artificial intelligence and expert systems  System Components  System architecture and Data flow— System Operations  12 lectures 
Unit II  Knowledge based systems  knowledge representation  knowledge acquisition and optimization  Knowledge based approaches to design of mechanical parts, mechanisms and automated assembly Knowledge based system for material selection  Intelligent process planning system.  16 lectures 
Unit III  Intelligent system for equipment selection  Intelligent system for protect management & factory monitoring. Scheduling in manufacturing scheduling the shop floor  Diagnosis & trouble shooting.  16 lectures 
Unit IV  The role of Artificial Intelligence In the factory of future  Intelligent systems.  10 lectures 
Text References:
 Andrew Kussiak„ 'Intelligent Manufacturing Systems", Prentice Hall.
 Simons, G L. introducing Artificial Intelligence", NCC Pub,
 Rich E, °Artificial Intelligence"
ME 7023 : Advanced Materials Technology (400)
Unit I.  Development of Newer Materials: Properties of materials. structural property relationship, Newer materials Ceramics and composite materials, Ceramics Fine Ceramics, Types of Ceramics, Structure of Ceramics, Properties of Ceramics, Applications, Composite materials  types metal matrix composites (MMC),Ceramic Matrix Composites(CMC), Polymeric Composites structure, Properties and applications of different composite materials  12 lectures 
Unit II  Powder Metallurgy: Introduction, Production of powder, characterization & testing of powders, powder conditioning, powder compaction, sintering, finishing operations, application of PM components.  12 lectures 
Unit III  Processing of Composites: Processing of MMC, CMC, Vacuum infiltration, squeeze casting, pressure die casting, Rheocasting, Compo casting, Super Plastic Forming, Processing of PMC, Hand layup, Bag moulding Process, Autoclave moulding, Compression moulding, Pultrution, Filament winding, Resin transfer moulding, Injection, moulding.  16 lectures 
Unit IV  Surface Treatment: Surface engineering, Surface quality, and Integrity, Concepts, Mechanical Treatment, Thermal & thermo chemical treatment, Thermal spraying processes and applications, Vapour Depositions processes and application, Ion treatment, Laser Treatment.  14 lectures 
Text References:
ME 7024 Machine Tool Engineering (400)
Unit I  Introduction to metal cutting, machine tools & Transmission of motion in machine tools.  8 lectures 
Unit II  Mechanical drives for providing rotational movements in machine tools.  12 lectures 
Unit III  Strength and rigidity of machine tool structures. Analysis of Spindle bearings, slides and guides.  14 lectures 
Unit IV  Vibration of machine tools & Dynamic rigidity.  10 lectures 
Unit V  Automatic drives for machine tools. NC & CNC systems for machine tools.  10 lectures 
Text References:
ME 7025 Robotics (400)
Unit I  Basic Concepts in Robotics: Introduction, Advantages, and applications of Robots, Non Industrial applications, Basic structures of Robots, Numerical control of machine tools, resolution, Accuracy and repeatability, Position Representation. Classifications & Structures of Robotics Systems: Point to Point continuous path systems, point to point Robotics systems, continuous — Path Robotics systems, Trajectory Planning, Control loop of Robotics systems, the manipulator, Cartesian Coordinate Robots.  10 lectures 
Unit II  Drives and control systems: Hydraulic Power supply — Servo valve, The Sump,The hydraulic Motor. Direct Current Servomotors — Principle of operation, Dynamic response gearing. Control approaches of Robots, Control loops using current amplifier Control loops using Voltage Amplifier, Elimination of stationary position errors, control loops of CNC systems, conclusion & assessments.  10 lectures 
Unit III  Kinematic Analysis and Coordinate transformation: Direct Kinematics Problem in Robotics, Geometry Based direct Kinematic analysis coordinate and vector transformation using matrices, the orientation matrix and translator vector, homogenous transformation matrices, 3D homogenous transformations, Denavit Hartenberg convention Implementing the DH Convention, Obtaining the DH displacement Matrices, Applications of DH methods.  12 lectures 
Unit IV  Trajectory interpolators: Introduction, the necessity of interpolators, the Generation of Motion commands, the trajectory Planning, Basic structure of Interpolators, Solvability of the inverse, Kinematics problem Particular Solutions for the inverse Kinematics problem — Two — Axis planner Mechanisms. Jacobian Matrix for positioning and orienting. Motions  12 lectures 
Unit V  Robot applications and Design: Its applications in Manufacturing — Material transfer and machine loading / unloading — Processing operations — Inspection — Automation — Robot cell design — Control — Recent Developments and special applications.  10 lectures 
Text References:
ME 7026 : Theory Of Machining (400)
Unit I  Machining, definition and objectives. Geometry of cutting tools; turning, milling and drilling in different reference system and work reference systems, tool reference system, and work reference system. Sharpening and resharpening of cutting tools.  8 lectures 
Unit II  Mechanism of chip formation by single point tool, drills and milling cutters. Type of chips and their characteristics. Effective rake.  8 lectures 
Unit III  Mechanics of machining, theoretical estimation and experimental determination of cutting forces and power consumption. Dynamometers: types, design, construction and use. Cutting tools, methods of failure, mechanics of tool wear, essential properties, assessment of tool life and cutting tool materials.  12 lectures 
Unit IV  Thermodynamics of machining, sources of heat generation, cutting temperature modeling, measurement of cutting temperature. Cutting fluids: Purpose, essential characteristics, selection and methods of application.  10 lectures 
Unit V  Economics of machining: Principal objectives, main parameters and their role on cutting forces, cutting temperatures, tool life and surface quality,selection of optimum combination of parameters.  8 lectures 
Unit VI  Introduction to low temperature machining.  8 lectures 
Text References:
ME 7027 : Advanced Tribology (400)
Unit I  Introduction to tribology, friction, wear and lubrication. Regime of lubrication. Classifications of contacts and applications.  12 lectures 
Unit II  Properties of lubricants. Boundary, hydrodynamic, hydrostatic and elastohydrodynamic lubrication theories.  20 lectures 
Unit III  Selection of bearing type: Sliding and Rolling. Generalized Reynolds equation: Application to hydrodynamic thrust and journal bearings. Gas film lubrication.  20 lectures 
Text References:
ME 7028: Computer Aided Product Development (400)
Unit I  Product development processes and organization, stages of product development and important definitions.  8 lectures 
Unit II  Early design, requirements definition, conceptual design methods,software design and requirement issues.  12 lectures 
Unit III  Tradeoff analysis, optimization analysis using cost and utility metrics, design for life cycle, design for warranties and design for producibility  12 lectures 
Unit IV  Detailed design, detailed design for software, prototypes, modeling and simulation, FEM, software tools for detailed design  12 lectures 
Unit V  Test and Evaluation, strategies, software test and evaluation, introduction to SAP, production and field testing and software tools. Supply chain and logistics.  10 lectures 
ME 7029 : Design For Manufacture And Assembly (400)
Unit I  What is DFMA, traditional design and manufacture Vs. concurrent engineering, DFMA as the tool for concurrent engineering.  8 lectures 
Unit II  Three DFMA criteria for retaining components for redesign of a product; design for manual assembly; design for automatic assembly.  12 lectures 
Unit III  Computer Aided Design for assembly; design for manufacture (design for machining).  10 lectures 
Unit IV  Design for producibility, best practices, producibility software tools, Boothroyd and Dewhurst design for assembly, disassembly.  10 lectures 
Unit V  Geometric Tolerancing for Manufacture, Design for Test and Inspection, Best practices for Testability, Design for effective and efficient tests  10 lectures 
Text References:
Thermo Fluid Engineering(Regular Course)
Year I Semester II
Course Code  Course Title  L T P C  

ME 7100  Numerical Techniques for Engineering Applications  3 0 0 3  
ME 7111  Advanced Fluid Mechanics  4 0 0 4  
ME 7112  Advanced Thermodynamics and Heat Transfer  4 0 0 4  
ME 7113  Mechanical Systems Design  4 0 0 4  
ME 7152  PracticeI  0 0 6 3 
Year I : Semester II
Course Code  Course Title  L T P C  

ME 7211  Computational Fluid Dynamics and Heat Transfer  3 0 0 3  
ME 7212  Measurements and Control in Fluid & Thermal Engg  3 0 0 3  
ME 70**  Elective I  4 0 0 4  
ME 700**  Elective II  4 0 0 4  
ME 70**  Elective III  4 0 0 4  
ME 7252  PracticeII  0 0 6 3 
Year II : Semester I
Course Code  Course Title  L T P C  

ME 8098  Seminar     2  
ME 8099  ProjectPhase I     8 
Year II : Semester IV
Course Code  Course Title  L T P C  

ME 8099  ProjectPhase II     10  
ME 8099  Thesis Evaluation     10  
ME 8099  Seminar and Viva voce     6 
Thermo Fluid Engineering(Part Time Course)
Year II : Semester IV
Course Code  Course Title  L T P C  

ME 7100  Numerical Techniques for Engineering Applications  3 0 0 3  
ME 7111  Advanced Fluid Mechanics  4 0 0 4 
Semester II
Course Code  Course Title  L T P C  

ME 7211  Computational Fluid Dynamics and Heat Transfer  3 0 0 3  
ME 7212  Measurements and Control in Fluid & Thermal Engg  3 0 0 3  
ME 70**  Elective I  4 0 0 4 
Semester III
Course Code  Course Title  L T P C  

ME 7112  Advanced Thermodynamics and Heat Transfer  4 0 0 4  
ME 7113  Mechanical System Design  4 0 0 4  
ME 7152  PracticeI  0 0 6 3 
Semester IV
Course Code  Course Title  L T P C  

ME 70**  Elective II  4 0 0 4  
ME 70**  Elective III  4 0 0 4  
ME 7252  PracticeII  0 0 6 3 
Semester V
Semester VI
Course Code  Course Title  L T P C  

ME 8098  Elective III     2  
ME 8099  ProjectPhase I     8  
ME 8099  Project – Phase II     10  
ME 8099  Thesis Evaluation     10  
ME 8099  Seminar and Viva voce     6 
COURSE CONTENTS
ME 7111 : Advanced Fluid Mechanics (400)
Unit I  Derivation of general NavierStokes equation; Simplification of NS Equation;  8 lectures 
Unit II  Energy equations; Potential flows;  10 lectures 
Unit III  Velocity & Thermal boundary layers;  14 lectures 
Unit IV  Exact and Approximate solutions of Boundary Layers Equations;  12 lectures 
Unit V  Normal & Oblique shocks; Prandtle – Meyer expansion; Fanno & Rayleigh flows;  12 lectures 
Text References:
ME 7112 : Advanced Thermodynamics and Heat Transfer (400)
Unit I  Review of Engg. Thermodynamics; Thermodynamics laws & their corollaries; Properties of mixtures; Work transfer – direct & indirect converters; Statistical approach to thermodynamics;  12 lectures 
Unit II  Three dimensional transient and steady conduction;  10 lectures 
Unit III  Natural and forced convection; Radiation heat transfer;  12 lectures 
Unit IV  Combined conduction, convection & radiation; Heat transfer in two phase flows;  10 lectures 
Unit V  Mass diffusion; Combined heat & mass transfer;  10 lectures 
Text/References:
ME 7113 : Mechanical Systems Design (400)
Unit I  Properties of engineering materials; Static & Dynamic Stresses in machines elements; Stress concentration & stress intensity in machine members;  10 lectures 
Unit II  System analysis & synthesis; Human Ergonomics: Internationally accepted standards & data, Foolproof designing tools & design improvement – Fishbone or Ishikawa diagram  10 lectures 
Unit III  FMEA, whywhy analysis etc., Ethical issues in system design; Design & control of dynamic mechanical systems;  10 lectures 
Unit IV  Design of of prime movers, non prime movers & Power transmission systems (Pressure vessels/Pumps/Turbines/Gear boxes/Conveyor systems/belt & Pulley drives etc.);  18 lectures 
Unit V  Introduction to MEMS & NEMS (Micro & Nano Electro Mechanical Systems) design;  8 lectures 
Text/References:
ME 7212 Measurements and control in Fluid & Thermal Engineering (300)
Unit I  Introduction to measurements for scientific and engineering applications – need and goal broad category of methods for measuring field and derived quantities.  8 lectures 
Unit II  Principles of measurement – parameter estimation – regression analysis – correlations – error estimation and data presentation – analysis of data  8 lectures 
Unit III  Measurement of field quantities – thermometry – heat flux measurement – measurement of force, pressure, flow rate, velocity, humidity, noise, vibration – measurement of the above by probe and non intrusive techniques  14 lectures 
Unit IV  Measurement of derived quantities – torque, power, thermophysical properties – radiation and surface properties Analytical methods and pollution monitoring – mass spectrometry – chromatography – Spectroscopy  12 lectures 
Text/References:
ME 7001 Viscous Flow Theory (400)
Unit I  Comparison of theoretical, experimental & numerical studies; Similarity principles; NavierStokes equations;  6 lectures 
Unit II  Boundary layer equation; Non dimensionalisation approximation of B.L. equation; B.L. equation; B.L. separation & control; Vortex formation;  12 lectures 
Unit III  Some Exact solutions of B.L. equation;  12 lectures 
Unit IV  Approximate solutions of NS equation;  12 lectures 
Unit V  Integral methods Turbulent Boundary layer; Turbulence models and flow equations Steady and Unsteady Turbulent boundary layers; Numerical methods  14 lectures 
Text/References:
ME 7002 Theory of Compressible flow (400)
Unit I  Introductory concepts : Energy equation, Critical & Stagnation state properties; 1D flow with area change;  8 lectures 
Unit II  Normal and Oblique shock analysis; Isentropic turn of supersonic flow – PrandtleMeyer expansion;  12 lectures 
Unit III  Compressible flow with friction; Compressible flow with heat transfer; Combined effect of friction & heat transfer; Multidimensional compressible flow;  14 lectures 
Unit IV  Compressible flow measurements; Supersonic wind tunnel; Flight speed measurement; Schlieren technique; Inferometer;  10 lectures 
Unit V  Computational techniques for compressible flow equations;  12 lectures 
Text/References:
ME 7003 Dynamics & Thermodynamics of Turbomachines (400)
Unit I  Dimensional analysis: Similitude; Basic Thermodynamics, Fluid Mechanics; Definitions of efficiency;  8 lectures 
Unit II  Two dimensional cascade analysis; Two dimensional analysis of axial flow machines : Turbines, Compressors Fans;  14 lectures 
Unit III  Centrifugal pumps, fans & compressors;  12 lectures 
Unit IV  Three dimensional flow in axial turbo machines; Radial flow machines;  12 lectures 
Unit V  Hydraulic turbines & wind turbines;  10 lectures 
Text/References:
ME 7004 Cryogenic Engineering (400)
Unit I  Methods of producing cold: thermodynamic basis, first and second law analyses.  12 lectures 
Unit II  Vapour compression systems: Ideal and actual cycles; single stage, multistage and cascaded systems Environmental aspects and alternate refrigerants.  14 lectures 
Unit III  Vapour absorption systems: Refrigerant  absorbent combinations; single stage, multistage and open cycle systems.  16 lectures 
Unit IV  Non conventional systems: Vapour jet, air cycle, thermo electric refrigeration Cryogenic liquefaction and refrigeration systems Low temperature insulations Typical applications of refrigeration and cryogenics.  14 lectures 
Text/References:
ME 7005 Combustion Engineering (400)
Unit I  Characteristic of free and confined turbulent and swirling gas jets and their combustion Stabilization of burning gas jets, characteristics design consideration of gas burners.  14 lectures 
Unit II  Combustion of liquid fuels, fuel atomization, types of injectors and spray characteristics, burning droplet in its ballistic trajectory, characteristics of spray combustion, characteristics and design consideration of oil burners.  14 lectures 
Unit III  Coal Combustion. Combustion of pulverized coal Combustion of coal on a bed, in a fluidised bed and in a cyclone furnace Stabilization of pulverized coal combustion Design considerations of coal burners.  14 lectures 
Unit IV  Boilers and Furnaces: types used in industries, thermodynamics, fluid flow and heat transfer aspects of boilers and furnaces Combustion in Internal Combustion Engines Combustion generated pollution.  14 lectures 
Text/References:
ME 7006 Convection & Multiphase flow (400)
Unit I  Introduction to Single and Twophase flows Conservation laws Navier Stokes equations Differential and Integral forms.  10 lectures 
Unit II  External laminar flows Flat Plate, Wedge flows, flow over cylinders, Separation, Internal Laminar Flow Circular pipe, non circular ducts.  12 lectures 
Unit III  Free convection Vertical plate cylinders, mixed convection, natural convection in porous media, enclosures.  16 lectures 
Unit IV  Turbulent flows: Theory, models and correlations Condensation, Boiling and Two phase flows Film and drop wise condensation Nusselt theory Pool and film boiling Pressure drop and heat transfer in two phase flows Numerical solution to Convection problems.  18 lectures 
Text/References:
ME 7007 Conduction and Radiation (400)
Unit I  Conduction Heat Transfer — Heat equation in cartesian, cylindrical and spherical coordinates — boundary conditions — extended surfaces heat transfer.  12 lectures 
Unit II  Transient conduction — conduction with phase change —integral method, integral transforms and numerical methods.  16 lectures 
Unit III  Radiation Heat Transfer — Fundamental laws of thermal radiation — surface properties radiative heat exchange among diffuse, gray and non  gray surfaces separated by nonparticipating media.  12 lectures 
Unit IV  Gas radiation and radiation transfer in enclosures containing absorbing and emitting media  interaction of radiation with conduction and convection.  16 lectures 
Text/References:
ME 7008 Gas Turbines & Jet Propulsion (400)
Unit I  Axial flow turbines Twodimensional and experimental flow in turbines — design charts —correlations and applications to stage performance Off design performance estimation.  10 lectures 
Unit II  Three dimensional flow Viscous flows Losses and efficiencies Turbines of low shape parameter Partial admission turbines — Stenning's analysis Supersonic and transonic turbine stages — nozzle and rotor blade passage calculations.  12 lectures 
Unit III  Cooled turbines: Single spool compressor and turbine matching General methods and simplified methods of equilibrium operation; Turbine cooling methods.  14 lectures 
Unit IV  Theory of propellers; Reaction principle Essential features of propulsive devices Momentum Theory applied to propulsive devices Performance of turboprop, turbojet and turbofan engines.  10 lectures 
Unit V  Combustion in jet engines Augmentation of thrust, noise suppression Factors influencing performance and design of ramjet engines Supersonic inlets and starting problem.  10 lectures 
Text/References:
ME7009 Design of Heat Exchangers (400)
Unit I  Classification of heat exchangers Basic design methods for heat exchangers Design of shell and tube heat exchangers TEMA Code.  12 Lectures 
Unit II  Plate heat exchangers Power plant heat exchangers Heat exchangers for heat recovery at low medium and high temperatures.  16 lectures 
Unit III  Computerised methods for design and analysis of heat exchangers Compact heat exchangers Regenerative heat exchangers.  14 lectures 
Unit IV  Principles of boiler design Codes for mechanical design of heat exchangers. Performance enhancement of heat exchangers Fouling of heat exchangers Testing, evaluation and maintenance of heat exchangers.  14 lectures 
Text/References:
ME 7010 Refrigeration Machinery and Components (400)
Unit I  Design of Reciprocating Compressor Components  Frames, Crank Case, Stuffing Boxes, Seals, Valves, Pistons, Piston Rings, Cranks, Connecting Roads etc. Design of Rotary Vane, Rotary Piston and Screw Compressors.  12 lectures 
Unit II  Analysis of Centrifugal Compressor  Capacity Regulation of Compressors. Testing of Refrigeration Compressors.  12 lectures 
Unit III  Various types of condensers and evaporators  Thermal Design and construction of condensers and evaporators  Types of expansion devices  capillary tube, thermostatic expansion valves, automatic expansion valves and float valves etc Design and selection of expansion devices  Design of refrigerant piping.  16 lectures 
Unit IV  Refrigeration system controls and safety devices: Solenoid valves, suction and evaporator pressure regulators, Filters, doers oil separators, relief valves, safety valves, high and low pressure cut outs, thermostats, water regulators etc. Motors for refrigeration compressors  Dehydrating, charging and testing of refrigeration systems – application of microprocessors in refrigeration system.  16 lectures 
Text/References:
ME 7011 Sorption Refrigeration and Heating Systems (400)
Unit I  Classification of sorption systems: Absorption and Adsorption, Dry and Wet types apsorption refrigeration systems, heat pumps, heat transformers.  12 lectures 
Unit II.  Wet absorption systems: Solution thermodynamics, Refrigerant absorbent combinations, Vapour pressure/concentration/ temperature / enthalpy relations and charts.  12 lectures 
Unit III  Single stage, multistage, resorption and hybrid systems  Types and design considerations for components such as absorbers, generators, rectifiers, etc.,  Pumpless absorption systems.  16 lectures 
Unit IV  Dry absorption / adsorption systems: Refrigerant / sorbent combinations and their properties, System analysis – Metal hydride based systems  Heat and Mass transfer in sorption beds and reactors.  16 lectures 
Text/References:
ME 7012 Engine Design & Performance (400)
Unit I  Constructional features of different types of internal combustion engines Number, size and arrangement of cylinders  8 lectures 
Unit II  Detailed design procedure for important components like cylinder, piston, piston rings, connecting rod, crankshaft,crankcase, manifolds and poppet valves.  12 lectures 
Unit III  Design procedure for inlet ports and exhaust ports of two stroke engines Engine balancing Design of cooling system components.  12 lectures 
Unit IV  Silencer and air filter design. Design of turbochargers and superchargers.  12 lectures 
Unit V  Engine materials and manufacturing processes Computer aided design of engine components ;Engine performance analysis  12 lectures 
Text/References:
 Materials and Processing in Manufacturing — E. Paul Degarmo, J. T. Black, Ronald A Kohser, MGH
 Powder Metallurgy, A.K. Sinha
 Fibre Reinforced Composites — P.K. Maffik.
 Metal Matrix Composites — Minoru Taya, Richard J. Arsenault
 Composite Material Handbook — M.M. Schwartz, Mc Graw Hills.
ME 7024 Machine Tool Engineering (400)
Unit I  Introduction to metal cutting, machine tools & Transmission of motion in machine tools.  8 lectures 
Unit II  Mechanical drives for providing rotational movements in machine tools.  12 lectures 
Unit III  Strength and rigidity of machine tool structures. Analysis of Spindle bearings, slides and guides.  14 lectures 
Unit IV  Vibration of machine tools & Dynamic rigidity.  10 lectures 
Unit V  Automatic drives for machine tools. NC & CNC systems for machine tools.  10 lectures 
Text Books / References:
 Principles of machine tool  Sen & Bhattacharya, New central Book Agency
 Design of machine toolN.K. Mehta,TMH
 Fundamentals of Machining and Machine Tools, Boothroyd & Knight, Taylor & Francis
ME 7025 Robotics (400)
Unit I  Basic Concepts in Robotics: Introduction, Advantages, and applications of Robots, Non Industrial applications, Basic structures of Robots, Numerical control of machine tools, resolution, Accuracy and repeatability, Position Representation. Classifications & Structures of Robotics Systems: Point to Point continuous path systems, point to point Robotics systems, continuous — Path Robotics systems, Trajectory Planning, Control loop of Robotics systems, the manipulator, Cartesian Coordinate Robots.  10 lectures 
Unit II  Drives and control systems: Hydraulic Power supply — Servo valve, The Sump,The hydraulic Motor. Direct Current Servomotors — Principle of operation, Dynamic response gearing. Control approaches of Robots, Control loops using current amplifier Control loops using Voltage Amplifier, Elimination of stationary position errors, control loops of CNC systems, conclusion & assessments.  10 lectures 
Unit III  Kinematic Analysis and Coordinate transformation: Direct Kinematics Problem in Robotics, Geometry Based direct Kinematic analysis coordinate and vector transformation using matrices, the orientation matrix and translator vector, homogenous transformation matrices, 3D homogenous transformations, Denavit Hartenberg convention Implementing the DH Convention, Obtaining the DH displacement Matrices, Applications of DH methods.  12 lectures 
Unit IV  Trajectory interpolators: Introduction, the necessity of interpolators, the Generation of Motion commands, the trajectory Planning, Basic structure of Interpolators, Solvability of the inverse, Kinematics problem Particular Solutions for the inverse Kinematics problem — Two — Axis planner Mechanisms. Jacobian Matrix for positioning and orienting. Motions  12 lectures 
Unit V  Robot applications and Design: Its applications in Manufacturing —Material transfer and machine loading / unloading — Processing operations — Inspection — Automation — Robot cell design — Control —Recent Developments and special applications.  10 lectures 
Text Books / References:
 M.P. Groover, "Industrial Robotics", MGH.
 Y. Koren, "Robotics for Engineers", MGH
 Roland Sigwart, and Illah R Nourbaksh, "Introduction to Autonomus Mobile Robots ,PHI
 B. Brooks Ed "Robot Vision and Sensory Controls, Vol 3" North Holland.
 J. Duffy, "Analysis of Mechanism and Robot Anipulators", John Willey and Sons
 Craig, "Robotics", AddisonWesley.
ME 7026 : Theory Of Machining (400)
Unit I  Machining, definition and objectives. Geometry of cutting tools; turning, milling and drilling in different reference system and work reference systems, tool reference system, and work reference system. Sharpening and resharpening of cutting tools.  8 lectures 
Unit II  Mechanism of chip formation by single point tool, drills and milling cutters. Type of chips and their characteristics. Effective rake.  8 lectures 
Unit III  Mechanics of machining, theoretical estimation and experimental determination of cutting forces and power consumption. Dynamometers: types, design, construction and use. Cutting tools, methods of failure, mechanics of tool wear, essential properties, assessment of tool life and cutting tool materials.  12 lectures 
Unit IV  Thermodynamics of machining, sources of heat generation, cutting temperature modeling, measurement of cutting temperature. Cutting fluids: Purpose, essential characteristics, selection and methods of application.  10 lectures 
Unit V  Economics of machining: Principal objectives, main parameters and their role on cutting forces, cutting temperatures, tool life and surface quality,selection of optimum combination of parameters.  8 lectures 
Unit VI  Introduction to low temperature machining.  8 lectures 
 Fundamentals of Metal Cutting and machine tools  G. Boothoyd, Mc Graw Hill international
 Production Technology  HMT, TANI
 Fundamentals of Metal Cutting and machine tools  New Age International (P) Ltd
ME 7027 : Advanced Tribology (400)
Unit I  Introduction to tribology, friction, wear and lubrication. Regime of lubrication. Classifications of contacts and applications.  12 lectures 
Unit II  Properties of lubricants. Boundary, hydrodynamic, hydrostatic and elastohydrodynamic lubrication theories.  20 lectures 
Unit III  Selection of bearing type: Sliding and Rolling. Generalized Reynolds equation: Application to hydrodynamic thrust and journal bearings. Gas film lubrication.  20 lectures 
 Tribology of bearings — Majumdar
 Fluid Film Lubrication — Cameron
 Fluid Film Lubrication — B.J. Hamrock
ME 7028: Computer Aided Product Development (400)
Unit I  Product development processes and organization, stages of product development and important definitions.  8 lectures 
Unit II  Early design, requirements definition, conceptual design methods,software design and requirement issues.  12 lectures 
Unit III  Tradeoff analysis, optimization analysis using cost and utility metrics, design for life cycle, design for warranties and design for producibility  12 lectures 
Unit IV  Detailed design, detailed design for software, prototypes, modeling and simulation, FEM, software tools for detailed design  12 lectures 
Unit V  Test and Evaluation, strategies, software test and evaluation, introduction to SAP, production and field testing and software tools. Supply chain and logistics.  10 lectures 
 Product Development and Design for Manufacturing — A Collaborative Approach to Producibility and Reliability, John W Priest, Jose M Sanchez; Marcel Dekker Inc
 Product Door and Corporate Strategy, R Blaich and J. Blaich; McGraw Hill Inc.
ME 7029 : Design For Manufacture And Assembly (400)
Unit I  What is DFMA, traditional design and manufacture Vs. concurrent engineering, DFMA as the tool for concurrent engineering.  8 lectures 
Unit II  Three DFMA criteria for retaining components for redesign of a product; design for manual assembly; design for automatic assembly.  12 lectures 
Unit III  Computer Aided Design for assembly; design for manufacture (design for machining).  10 lectures 
Unit IV  Design for producibility, best practices, producibility software tools, Boothroyd and Dewhurst design for assembly, disassembly.  10 lectures 
Unit V  Geometric Tolerancing for Manufacture, Design for Test and Inspection,Best practices for Testability, Design for effective and efficient tests  10 lectures 
Text / References:
 G. Boothroyd, P. De whurst & W. Knight, Product Design for Manufacture and Assembly, Marcell Dekker
 Poli, C Design for Manufacturing: A Structured Approach, Butterworth Heinemann
Thermo Fluid Engineering(Regular Course)
Year I : Semester I
Course Code  Course Title  L T P C 

ME 7100  Numerical Techniques for Engineering Applications  3 0 0 3 
ME 7111  Advanced Fluid Mechanics  4 0 0 4 
ME 7112  Advanced Thermodynamics and Heat Transfer  4 0 0 4 
ME 7113  Mechanical Systems Design  4 0 0 4 
ME 7152  PracticeI  0 0 6 3 
Year I : Semester II
Course Code  Course Title  L T P C 

ME 7211  Computational Fluid Dynamics and Heat Transfer  3 0 0 3 
ME 7212  Measurements and Control in Fluid & Thermal Engg.  3 0 0 3 
ME 70**  Elective I  4 0 0 4 
ME 700**  Elective II  4 0 0 4 
ME 70**  Elective III  4 0 0 4 
ME 7252  PracticeII  0 0 6 3 
Year II : Semester I
Course Code  Course Title  L T P C 

ME 8098  Seminar  2 
ME 8099  ProjectPhase I  8 
Year II : Semester IV
Course Code  Course Title  L T P C 

ME 8099  ProjectPhase II  
Thesis Evaluation    1 0  
Seminar and Viva voce     6 
Thermo Fluid Engineering(Part Time Course)
Semester I
Course Code  Course Title  L T P C 

ME 7100  Numerical Techniques for Engineering Applications  3 0 0 3 
ME 7111  Advanced Fluid Mechanics  4 0 0 4 
Semester II
Course Code  Course Title  L T P C 

ME 7211  Computational Fluid Dynamics and Heat Transfer  3003 
ME 7212  Measurements and Control in Fluid & Thermal Engg.  3003 
ME 70**  Elective I  4004 
Semester III
Course Code  Course Title  L T P C 

ME 7112  Advanced Thermodynamics and Heat Transfer  4 0 0 4 
ME 7113  Mechanical System Design  4 0 0 4 
ME 7152  PracticeI  0 0 6 3 
Semester IV
Course Code  Course Title  L T P C 

ME 70**  Elective II  4004 
ME 70**  Elective III  4004 
ME 7252  PracticeII  0063 
Semester V
Course Code  Course Title  L T P C 

ME 8098  Seminar    2 
ME 8099  ProjectPhase I     8 
Semester VI
Course Code  Course Title  L T P C 

ME 8099  Project – Phase II Thesis Evaluation 
  0 
Seminar and Viva voce     6 
COURSE CONTENTS
ME 7111 : Advanced Fluid Mechanics (400)
Unit I  Derivation of general NavierStokes equation; Simplification of NS Equation;  8 lectures 
Unit II  Energy equations; Potential flows;  10 lectures 
Unit III  Velocity & Thermal boundary layers;  14 lectures 
Unit IV  Exact and Approximate solutions of Boundary Layers Equations;  12 lectures 
Unit V  Normal & Oblique shocks; Prandtle – Meyer expansion; Fanno & Rayleigh flows;  12 lectures 
Text / References:
 Schlichting, H., “Boundary Layer Theory”, McGraw Hill Book Company, New York
 Shapiro A. H., “The Dynamics and Thermodynamics of Compression Flow”, Vol.I, The Ronald Press Company, New York
 Fluid Mechanics, Duncun, Thom & Young, Arnold
 Rathakrishnan, E., Gas Dynamics, PHI
 Mohanty, A. K.,”Fluid Mechanics”, Prentice Hall of India Private Limited, New Delhi
ME 7112 : Advanced Thermodynamics and Heat Transfer (400)
Unit I  Review of Engg. Thermodynamics; Thermodynamics laws & their corollaries; Properties of mixtures; Work transfer – direct & indirect converters; Statistical approach to thermodynamics;  12 lectures 
Unit II  Three dimensional transient and steady conduction;  10 lectures 
Unit III  Natural and forced convection; Radiation heat transfer;  12 lectures 
Unit IV  Combined conduction, convection & radiation; Heat transfer in two phase flows;  10 lectures 
Unit V  Mass diffusion; Combined heat & mass transfer;  10 lectures 
Text / References:
 Rogers, G.F.C. & Mayhew Y.R., “Engg. Thermodynamics : Work & Heat transfer”, Longman
 Spalding& Cole, “Engineering Thermodynamics”, Arnold Press
 Zemansky M.W., “Heat & Thermodynamics”, MGH
 Keenan, J.H. &Hatsopoulos, G.N., Principles of General Thermodynamics, Wiley
 Ozisick, M.N., “Heat Transfer : A Basic Approach”, MGH
 Kern, D.Q., “Process Heat Transfer”, MGH
 Bird, R.B., et al., “Transport Phenomena”, Wiley India
ME 7113 : Mechanical Systems Design (400)
Unit I  Properties of engineering materials; Static & Dynamic Stresses in machines elements; Stress concentration & stress intensity in machine members;  10 lectures 
Unit II  System analysis & synthesis; Human Ergonomics: Internationally accepted standards & data, Foolproof designing tools & design improvement – Fishbone or Ishikawa diagram  10 lectures 
Unit III  FMEA, whywhy analysis etc., Ethical issues in system design; Design & control of dynamic mechanical systems;  10 lectures 
Unit IV  Design of prime movers, non prime movers & Power transmission systems (Pressure vessels/Pumps/Turbines/Gear boxes/Conveyor systems/belt & Pulley drives etc.);  18 lectures 
Unit V  Introduction to MEMS & NEMS (Micro & Nano Electro Mechanical Systems) design;  8 lectures 
Text / References:
 Anderson, J.D., Computational Fluid Dynamics, MGH
 Anderson, D.A., et al., Computational Fluid Mechanics& Heat Transfer, Hemisphere
 Roache, P.J.,Computational Fluid Dynamics, Hermosa
ME 7212 Measurements and control in Fluid & Thermal Engineering (300)
Unit I  Introduction to measurements for scientific and engineering applications – need and goal broad category of methods for measuring field and derived quantities.  8 lectures 
Unit II  Principles of measurement – parameter estimation – regression analysis – correlations – error estimation and data presentation – analysis of data  8 lectures 
Unit III  Measurement of field quantities – thermometry – heat flux measurement – measurement of force, pressure, flow rate, velocity, humidity, noise, vibration – measurement of the above by probe and non intrusive techniques  14 lectures 
Unit IV  Measurement of derived quantities – torque, power, thermophysical properties – radiation and surface properties Analytical methods and pollution monitoring – mass spectrometry – chromatography – Spectroscopy  12 lectures 
Text / References:
 R.P. Benedict, “Fundamentals of Temperature, Pressure and Flow Measurement”, John Wiley
 E.O.Doebelin, “Measurement Systems – Application and Design”, 3rd Edition., McGraw Hill
 E.R.G.Eckert and R.J.Goldstein, “Measurements in Heat Transfer”, 2ndEd.,McGraw Hill
ME 7001 Viscous Flow Theory (400)
Unit I  Comparison of theoretical, experimental & numerical studies; Similarity principles; NavierStokes equations;  6 lectures 
Unit II  Boundary layer equation; Non dimensionalisation approximation of B.L. equation; B.L. equation; B.L. separation & control; Vortex formation;  12 lectures 
Unit III  Some Exact solutions of B.L. equation;  12 lectures 
Unit IV  Approximate solutions of NS equation;  12 lectures 
Unit V  Integral methods Turbulent Boundary layer; Turbulence models and flow equations Steady and Unsteady Turbulent boundary layers; Numerical methods  14 lectures 
Text / References:
 White, F.M., Viscous fluid flow, MGH
 Schlichting, H., Boundary Layer Theory, Springer
 Fluid Mechanics, Duncun, Thom & Young, Arnold
ME 7002 Theory of Compressible flow (400)
Unit I  Introductory concepts : Energy equation, Critical & Stagnation state properties; 1D flow with area change; 
Unit II  Normal and Oblique shock analysis; Isentropic turn of supersonic flow – PrandtleMeyer expansion; 
Unit III  Compressible flow with friction; Compressible flow with heat transfer; Combined effect of friction & heat transfer; Multidimensional compressible flow; 
Unit IV  Compressible flow measurements; Supersonic wind tunnel; Flight speed measurement; Schlieren technique; Inferometer; 
Unit V  Computational techniques for compressible flow equations; 
Text / References:
 Zucker, R.D., Fundamental of Gas Dynamics, Matrix publication
 Zucrow& Hoffmann, Gas Dynamics, Vol I & II, Weley International
 Saphiro, A.H,. Dynamics & Thermodynamics of Compressible, John Wiley & Sons
 Rathakrishnan , E., Gas dynamics, PHI
ME 7003 Dynamics & Thermodynamics of Turbomachines (400)
Unit I  Dimensional analysis: Similitude; Basic Thermodynamics, Fluid Mechanics; Definitions of efficiency;  8 lectures 
Unit II  Two dimensional cascade analysis; Two dimensional analysis of axial flow machines : Turbines, Compressors & Fans;  14 lectures 
Unit III  Centrifugal pumps, fans & compressors;  12 lectures 
Unit IV  Three dimensional flow in axial turbo machines; Radial flow machines;  12 lectures 
Unit V  Hydraulic turbines & wind turbines;  10 lectures 
Text / References:
 Dixon, S.L., “Fluid Mechanics & Thermodynamics of Turbomachinery”, Elsevier
 Csanady, G.T.,”Theory of Turbomachines”, McGraw Hill, New York
 Shepherd, D.G., “Principles of Turbomachinery”, Macmillan Co., New York
 Yahya, S.M., “Turbines, Compressors and Fans”, Tata McGraw Hill, New Delhi
 Lazarkiewicz, S. and Troslanski, “Impeller Pumps”, Pergamom Press, Oxford
 Nechleba, M., “Hydraulic Turbine”, Arita, Prague
ME 7004 Cryogenic Engineering (400)
Unit I  Methods of producing cold: thermodynamic basis, first and second law analyses.  12 lectures 
Unit II  Vapour compression systems: Ideal and actual cycles; single stage, multistage and cascaded systems Environmental aspects and alternate refrigerants.  14 lectures 
Unit III  Vapour absorption systems: Refrigerant  absorbent combinations; single stage, multistage and open cycle systems.  16 lectures 
Unit IV  Non conventional systems: Vapour jet, air cycle, thermo electric refrigeration Cryogenic liquefaction and refrigeration systems Low temperature insulations Typical applications of refrigeration and cryogenics.  14 lectures 
Text / References:
 Stoecker W. F. and Jones, J. W., "Refrigeration and Air Conditioning", McGraw Hill, New Delhi
 Gosney W. B., "Principles of Refrigeration", Cambridge University Press
 Threlkeld J. L., "Thermal Environmental Engineering", Prentice Hall, New Jersey
 Barron, R. F., "Cryogenic Systems", Oxford University Press, New York
ME 7005 Combustion Engineering (400)
Unit I  Characteristic of free and confined turbulent and swirling gas jets and their combustion Stabilization of burning gas jets, characteristics design consideration of gas burners.  14 lectures 
Unit II  Combustion of liquid fuels, fuel atomization, types of injectors and spray characteristics, burning droplet in its ballistic trajectory, characteristics of spray combustion, characteristics and design consideration of oil burners.  14 lectures 
Unit III  Coal Combustion. Combustion of pulverized coal Combustion of coal on a bed, in a fluidised bed and in a cyclone furnace Stabilization of pulverized coal combustion Design considerations of coal burners.  14 lectures 
Unit IV  Boilers and Furnaces: types used in industries, thermodynamics, fluid flow and heat transfer aspects of boilers and furnaces Combustion in Internal Combustion Engines Combustion generated pollution.  14 lectures 
Text / References:
 M.W. Thring, "The Science of Flames and Furnace", Chapman & Hill Lt., London
 M. L. Smith and K. W. Stinson, "Fuels and Combustion", Mc GrawHill Book Co , New York
 G. R. Pryling, "Combustion Engineering", Revised Edn., Combustion Engg Inc., New York
 C.J. Lawn (Editor), "Principles of Combustion Engineering For Boilers", Academic Press
 W. Trink, “Industrial Furnaces” , Vol.1, 4th Edn., John Wiley, New York
ME 7006 Convection & Multiphase flow (400)
Unit I  Introduction to Single and Twophase flows Conservation laws Navier Stokes equations Differential and Integral forms.  10 lectures 
Unit II  External laminar flows Flat Plate, Wedge flows, flow over cylinders,Separation, Internal Laminar Flow Circular pipe, non circular ducts.  12 lectures 
Unit III  Free convection Vertical plate cylinders, mixed convection, natural convection in porous media, enclosures.  16 lectures 
Unit IV  Turbulent flows: Theory, models and correlations Condensation, Boiling and Two phase flows Film and drop wise condensation Nusselt theory Pool and film boiling Pressure drop and heat transfer in two phase flows Numerical solution to Convection problems.  18 lectures 
Text / References:
 M. Kays and M. E. Crawford, "Convective Heat and Mass Transfer", W, McGrahill Inc.
 loan Pop and Derek B. Ingham, "Convective Heat Transfer„ Pergamon
 Adrian Bejan, "Convection Heat Transfer", Wiley — Interscience Publication
 K. Stephan, "Heat Transfer in Condensation and Boiling", Springer Verlag
 L. S. Tong and Y. S. Tang. "Boiling Heat Transfer and Two Phase Flow" , Taylor and Francis
 Satish G. Kandlikar, Masahiro Shoji, Vijay K. Dhir (Eds.), "Hand Book of Phase Change. Boiling and Condensation", Taylor and Francis
ME 7007 Conduction and Radiation (400)
Unit I  Conduction Heat Transfer — Heat equation in cartesian, cylindrical and spherical coordinates — boundary conditions — extended surfaces heat transfer.  12 lectures 
Unit II  Transient conduction — conduction with phase change —integral method, integral transforms and numerical methods.  16 lectures 
Unit III  Radiation Heat Transfer — Fundamental laws of thermal radiation — surface properties radiative heat exchange among diffuse, gray and non  gray surfaces separated by nonparticipating media.  12 lectures 
Unit IV  Gas radiation and radiation transfer in enclosures containing absorbing and emitting media  interaction of radiation with conduction and convection.  16 lectures 
Text / References:
 G. E. Myers, ."Analytical Methods in Conduction Heat Transfer", McGraw Hill
 A J. Chapman, "Heat Transfer", MacMillan
 E. M. Sparrow and R. D. Cess, "Radiation Heat Transfer", Brooks / Cole
 R. Siegel and J. R. Howell, "Thermal Radiation", McGraw Hill
ME 7008 Gas Turbines & Jet Propulsion (400)
Unit I  Axial flow turbines Twodimensional and experimental flow in turbines — design charts —correlations and applications to stage performance Off design performance estimation.  10 lectures 
Unit II  Three dimensional flow Viscous flows Losses and efficiencies Turbines of low shape parameter Partial admission turbines — Stenning's analysis Supersonic and transonic turbine stages — nozzle and rotor blade passage calculations.  12 lectures 
Unit III  Cooled turbines: Single spool compressor and turbine matching General methods and simplified methods of equilibrium operation; Turbine cooling methods.  14 lectures 
Unit IV  Theory of propellers; Reaction principle Essential features of propulsive devices Momentum Theory applied to propulsive devices Performance of turboprop, turbojet and turbofan engines.  10 lectures 
Unit V  Combustion in jet engines Augmentation of thrust, noise suppression Factors influencing performance and design of ramjet engines Supersonic inlets and starting problem.  10 lectures 
Text / References:
 Horlock J H., "Afial Flow Turbines: Fluid Mechanics and Thermodynamics", Krieger
 Dixon, 8 L , "Fluid Mechanics and Thermodynamics of Turbomachinery", Butterworth Heinmann
 Rogers and H Cohen, "Gas Turbine Theory", 5th Edition, Pearson Education Asia
 Yahys, S. M., '"turbines, Compressors and Fans", Tata McGraw Hill
 Wilson D. G. "The Design of High Efficiency Turbo machines", MIT. Press
 Glassman. A J (Ed), "Turbine Design and Applications", 3 Volumes, NASA
ME7009 Design of Heat Exchangers (400)
Unit I  Classification of heat exchangers Basic design methods for heat exchangers Design of shell and tube heat exchangers TEMA Code.  12 Lectures 
Unit II  Plate heat exchangers Power plant heat exchangers Heat exchangers for heat recovery at low medium and high temperatures.  16 lectures 
Unit III  Computerised methods for design and analysis of heat exchangers Compact heat exchangers Regenerative heat exchangers.  14 lectures 
Unit IV  Principles of boiler design Codes for mechanical design of heat exchangers. Performance enhancement of heat exchangers Fouling of heat exchangers Testing, evaluation and maintenance of heat exchangers.  14 lectures 
Text / References:
 Donald Q. Kern, "Process Heat Transfer, McGrow Hill
 G. F. Hewitt, G. L. Shires and T. R. Bott, "Process Heat Transfer, CRC Press
 W. M. Kays and A. L. London, "Compact Heat Exchangers", McGrow Hill
 Sadik Kakac and Hongtan Liu, "Heat Exchanger Selection, Rating and Thermal Design", CRC
 Holger Martin, "Heat Exchangers", Hemisphere Publishing Corporation
 E. U. Schunder (Ed.), "Heat Exchanger Design Handbook". Hemisphere Publishing Corporation
ME 7010 Refrigeration Machinery and Components (400)
Unit I  Design of Reciprocating Compressor Components  Frames, Crank Case, Stuffing Boxes, Seals, Valves, Pistons, Piston Rings, Cranks, Connecting Roads etc. Design of Rotary Vane, Rotary Piston and Screw Compressors.  12 lectures 
Unit II

Analysis of Centrifugal Compressor  Capacity Regulation of Compressors. Testing of Refrigeration Compressors.  12 lectures 
Unit III  Various types of condensers and evaporators  Thermal Design and construction of condensers and evaporators  Types of expansion devices  capillary tube, thermostatic expansion valves, automatic expansion valves and float valves etc Design and selection of expansion devices  Design of refrigerant piping.  16 lectures 
Unit IV  Refrigeration system controls and safety devices: Solenoid valves, suction and evaporator pressure regulators, Filters, doers oil separators, relief valves, safety valves, high and low pressure cut outs, thermostats, water regulators etc. Motors for refrigeration compressors  Dehydrating, charging and testing of refrigeration systems – application of microprocessors in refrigeration system.  16 lectures 
Text / References:
 Chlumsky V., "Reciprocating and Rotary Compressors", SNTL Publishers for Technical Literature, Prague, Czechoslovakia
 ASHRAE Handbook Refrigeration
 ASHRAE Handbook Fundamentals
 ASHRAE Handbook HVAC Systems and Equipment
 Heat Exchanger Design Hand Book, Hemisphere Publishing Co
ME 7011 Sorption Refrigeration and Heating Systems (400)
Unit I  Classification of sorption systems: Absorption and Adsorption, Dry and Wet types apsorption refrigeration systems, heat pumps, heat transformers.  12 lectures 
Unit II.  Wet absorption systems: Solution thermodynamics, Refrigerant absorbent combinations, Vapour pressure/concentration/ temperature / enthalpy relations and charts.  12 lectures 
Unit III  Single stage, multistage, resorption and hybrid systems  Types and design considerations for components such as absorbers, generators, rectifiers, etc.,  Pumpless absorption systems.  16 lectures 
Unit IV  Dry absorption / adsorption systems: Refrigerant / sorbent combinations and their properties, System analysis – Metal hydride based systems  Heat and Mass transfer in sorption beds and reactors.  16 lectures 
Text / References:
 Gosney W. B., "Principles of Refrigeration", Cambridge University Press
 2Herold K. E., Radermacher R. and Klein S. A., "Absorption Chillers and Heat Pumps", CRC Press, Tokyo
 Alefeld G and Radermacher R., "Heat Conversion Systems", CRC press
ME 7012 Engine Design & Performance (400)
Unit I  Constructional features of different types of internal combustion engines Number, size and arrangement of cylinders  8 lectures 
Unit II  Detailed design procedure for important components like cylinder, piston, piston rings, connecting rod, crankshaft,crankcase, manifolds and poppet valves.  12 lectures 
Unit III  Design procedure for inlet ports and exhaust ports of two stroke engines Engine balancing Design of cooling system components.  12 lectures 
Unit IV  Silencer and air filter design. Design of turbochargers and superchargers.  12 lectures 
Unit V  Engine materials and manufacturing processes Computer aided design of engine components ;Engine performance analysis  12 lectures 
Text / References:
 A. Kolchin and V. Demidov, "Design of Automotive Engines", Mir Publishers, Moscow
 Edward F. Obert, "The Internal Combustion Engines", Int. Text Book Co. Pennsylvania, USA
 Charles Fayette Taylor, "Internal Combustion Engine in Theory and Practice", Vols. I and 2, Second revised edition, The MIT Press, Massachusetts Institute of Technology, USA
 John Fenton, "Engine Design", University Press Cambridge, Great Britain
 P. H. Schweitzer, "Scavenging of Two Stroke Cycle Diesel Engine", Macmillan Company
 John B. Heywood, "Internal Combustion Engine Fundamentals", MGH, Singapore
 Richard Stone, "Introduction to Internal Combustion Engines", Macmillan, London
 Ganesan, V., "Internal Combustion Engines", Tata McGraw Hill, India
 Rowland W. Benson and N. D. Whitehouse, "Internal Combustion Engines", Robert Maxwell MC., London
 Heinz Heisler, "Advanced Engine Technology", Arnold Publications. London