Fundamental of Thermodynamics Syllabus.pptx
ioesameer
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Jun 02, 2024
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IOE Syllabus
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Fundamentals of Thermodynamics and Heat transfer
COURSE OUTLINES 1. Introduction (4 hours) 1.1 Definition and Scope of Engineering Thermodynamics 1.2 Value of energy to society 1.3 Microscopic versus Macroscopic Viewpoint 1.4 Concepts and Definitions 1.4.1 System , Surroundings, Boundary and Universe; Closed Systems , Open Systems and Isolated Systems 1.4.2 Thermodynamic Properties: Intensive, Extensive and Specific Properties 1.4.3 Thermodynamic Equilibrium 1.4.4 State , Process, and Path Cyclic Process, Quasi-equilibrium Process, Reversible and Irreversible Process 1.4.5 Common Properties: Pressure, Specific Volume, Temperature 1.5 Zeroth Law of Thermodynamics, Equality of Temperature 2. Energy and Energy Transfer (3 hours) 2.1 Energy and its Meaning 2.2 Stored Energy and Transient Energy; Total Energy
COURSE OUTLINES 2.3 Energy Transfer 2.3.1 Heat Transfer 2.3.2 Work Transfer 2.4 Expressions for displacement work transfer 2.5 Power 3 . Cams and Followers ( 6 hours) 3.1 Classification of cams and nomenclature 3.2 Graphical cam layout; 3.3 Disk cam with flat-faced follower, Disk cam with Radial or Offset follower 3.4 Standardized Follower Displacement or Lift curves 3.5 Analytical Cam Design; Disk cam with flat-faced follower: Disk cam with Radial or Offset follower : Disc cam with Oscillating Roller follower 3.6 Other cam layouts 3.7 Cam production methods 4. Spur Gears ( 6 hours) 4.1 Introduction to Involute spur gears 4.2 Geometry of Involutes 4.3 Characteristics of Involute Tooth Action
COURSE OUTLINES 4.4 Standardization of Gears; Metric system 4.5 Interference of Involute Gears 4.6 Numbers of teeth to avoid interference 4.7 Determining backlash in Involute gears 4.8 Non-standard Spur gears; extended center distance system 4.9 Methods of gear production 5. Bevel, Helical and Worm Gears (5 hours) 5.1 Theory of straight Bevel gears 5.2 Bevel Gear tooth proportions and geometrical details 5.3 Spiral and Hypoid gears 5.4 Theory of helical gears & tooth geometry 5.5 Parallel and crossed shafts for helical gears 5.6 Worm gearing
COURSE OUTLINES 6. Simple and Planetary gear trains ( 5 hours ) 6.1 Theory of Planetary Gear Trains 6.2 Speed Ratios; Formula and Tabular Methods 6.3 Applications 6.4 Assembly of Planetary gear trains 7. Kinematic Analysis of Mechanisms (9 hours) 7.1 General Plane Motion Representation 7.2 Relative Motion Velocity Analysis; Velocity Polygons; Graphical or Vector algebra solutions 7.3 Instantaneous centers of velocity 7.4 Kennedy’s theorem 7.5 Velocities by Instantaneous centers
COURSE OUTLINES 7.6 Relative motion acceleration analysis; Acceleration Polygons; Graphical or Vector algebra solutions; Corilis acceleration applications 7.7 Motion analysis by vector mathematics; Velocity analysis, Acceleration Analysis, Coriolis Acceleration Application 7.8 Analysis by Complex Numbers: Loop Closure Equation for Geometrical Layout, Kinematic Analysis by Complex Numbers Application 8. Force Analysis of Mechanisms ( 8 hours) 8.1 Centrifugal Force, Inertia Force and Inertia Torque 8.2 Methods of Force Analysis – Introduction 8.3 Forces on Gear Teeth- spur/bevel & helical gears 8.4 Force analysis on cams & followers 8.5 Superposition Force Analysis Methods, Graphical or Analytical 8.6 Linkage Force by Matrix Methods
COURSE OUTLINES 8.7 Linkage Force by Method of Virtual Work 8.8 Linkage Force by Complex Number Method 8.9 Applications and Examples REFERENCES: 1 . H.H. Mabie and C. F. Reinholtz , “ Mechanism and Dynamics of Machinery”, Wiley. ( Latest in 2011) 2 . Mechanisms and machine theory- J.S. Rao & R.V. Dukkipati (Latest in 2011) 3 . J.E. Shigley and J.J. Uicker , Jr., “ Theory of Machines and Mechanisms”, McGraw Hill, ( Latest in 2011) 4 . Text Book of “ Theory of Machines and Mechanisms” J.S. Rao & 5 . B. PauSl , “Kinematics and Dynamics of Planar Machinery”, Prentice Hall, (Latest in 2011 ) 6. C . E. Wilson, J.P. Sadler and W.J. Michels . “ Kenematics and Dynamics of Machinery ”, Harper Row, (Latest in 2011)
EVALUATION SCHEME: There will be questions covering all the chapters of the syllabus. The evaluation scheme will be indicated in the table below: Ch a p t er s H o u r s M a r k s d i s t r i b u t i o n * 1 & 2 6 10 3 6 10 4 & 5 11 20 6 5 10 7 9 15 8 8 15 T o tal 45 80 * T h e r e m ay b e m i n o r d e v i a t i o n i n m a r k s d i s t ri b u t i o n .
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