Friday, 1 August 2014

Time Table



S.No.

Subjects
Initial Time
Final Time
COURSE
UNITS
1
Mechanics Of Rigid Bodies
Equations of Equilibrium and its applications


1st and 2nd moment of area


Problems on Friction


Kinematics of particles for plane motion


2.
Mechanics Of Deformable Bodies
Stress and Strain and their relationship, Hook’s Law


Design Problems on Axial, Shear and bearing Stress


Principle Stress and strain all Methods


Bending Moment and Shear Forces


Bending and Shear Stress


Deflection of Beams


Torsion of Circular Shafts


Thin Shells & Thermal Stress


Theories of Failure


Euler’s Theory for Column


3.
Thermodynamics, Fluid Mechanics & Turbines
Basic Concepts


1st Law


2nd Law


Carnot Cycle, Reversibility, and availability


Behaviour of ideal and real gases, properties of pure substances


Fluid Properties; statics, manometry,  buoyancy


C-V analysis of mass, momentum and energy


Differential Equations of Continuity and momentum


Bernoulli’s Equation


Viscous Flow


Boundary Layer


Elementary Turbulent Flow


Flow through pipes and head losses


Pelton Wheel


Francis and Kaplan Turbine [Velocity Diagram]


Flow through fans, blowers and compressors,


Axial & Centrifugal flow


Open & Closed Cycle gas turbine


4.
Heat Transfer
Conduction- General Equations- Laplace, Poisson and Fourier


One dimensional Steady state heat conduction on simple wall, solid and hollow cylinders & spheres


Convection- Newton’s law, free and forces convection


During laminar and turbulent flow of incompressible fluid over a flat plate


Concepts of Nusselt Number, hydrodynamic and thermal boundary layer


Prandtl Number, Analogy b/w heat and momentum transfer


During laminar and turbulent flow through horizontal tubes


Free convection from horizontal and vertical plates


Radiation- Black Body


Stefan-Boltzmann, Planck distribution and Wein’s Displacement


Basic Heat Exchanger Analysis


Classification of Heat Exchangers


5.
I.C. Engines
Thermodynamics Cycles


Break Power, I.P. and Efficiency


Interpretation of performance


Combustion in SI and CI


Effects of working parameters


Forms of combustion chambers


Different Systems of IC engines fuels


Lubricating, cooling and transmission systems


6.
Steam Engineering
Steam Generation/Table


Modified Rankine Cycle Analysis


Modern Steam boilers


Boilers Fuels


Steam Nozzles and its types


Different initial steam conditions such as wet, saturated and superheated


Rankine Cycle with irreversibility


Reheat factor, reheating and regeneration, Methods of governing


Steam power plants


Combined cycle power generation


HRSG fired and unfired and cogeneration


7.
Refrigeration And
Air-Conditioning
Vapour compression cycle


Eco friendly refrigerants


System devices


Psychrometry- properties; processes; chart;


Sensible heating and cooling


Humidification and dehum. effect


Air-conditioning load calculation


8.
Material Science
Basic Concepts on structure of solids


Common ferrous and non-ferrous materials and their applications


Heat-treatment on steels


Stress- strain diagrams


9.
Manufacturing Science/ Management



Metal Casting: Design and Solidification


Forming: Plastic Deformation


Fundamentals of hot and cold working


Load estimation for bulk and sheet


Powder Metallurgy


Joining: Physics of welding, brazing and soldering, design consideration


Machine Tool: Mechanics of machining


Tool Geometry, life and materials, wear




Principle of Conventional Machining, work holding and design of jig and fixtures


NC and CNC machining process


Non- Conventional Machining- EDM, ECM, Ultrasonic


WJM etc, Energy rate Calculation and applications of laser and plasma


Metrology- Concept of fits and tolerance Tools and gauges


Inspection of length; position and surface finish


Factory Location and Plant Layout- Method Based


Process selection and capacity planning


System Planning and forecasting Methods based on regression and decomposition


Inventory Management- Probabilistic inventory models for  order time and order quantity


JIT systems, strategic sourcing




Systems Plant and Control:


Scheduling for Job Shops; applications of statistical methods and process quality control


Applications of Control Charts


System Improvements: Implementation of systems