#1
4th April 2013, 09:40 AM
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IIT Lecture Notes Fluid Mechanics
Sir, I need Lecture Notes on Fluid Mechanics. So , Please Provide me the Lecture Notes on Fluid Mechanics.
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#2
5th April 2013, 02:35 PM
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Re: IIT Lecture Notes Fluid Mechanics
Here I am Giving the Syllabus of Fluid Mechanics. Here I am also providing you the link for the Lecture Notes on Fluid Mechanics. Unit-I Introduction Differences between fluid and solid Differences between gas and liquid Types of fluids: Newtonian & non-Newtonian fluids Compressible & incompressible fluids Physical properties: Viscosity Vapor pressure Compressibility and Bulkmodulus Surface tension Capillarity Problems - SurfaceTension Fluid statics: Pascal's law for pressure at a pointin a fluid Variation of pressure in a Static fluid Absolute and gauge pressure,vacuum Pressure Measurement Fluid Pressure Barometers Piezo meters Manometers: Introduction Simple U-tube manometer Inverted U-tube manometer Manometer with one leg enlarged Two fluid U-tube manometer Inclined U-tube manometer Manometer - limitations Pressure gauges - Bourdon gauge Buoyancy - principles Units and Dimensions Similitude and model studies: Kinematic and dynamic similarities DimensionalAnalysis: Rayleigh's method Buckingham pi method Important DimensionlessNumbers Unit -II Fluid flow: Stream line Stream tube Steady & Uniform flows One-dimensional & multidimensional flow Equation of continuity Energy equation - Bernoulli's equation Tank training problem Momentum equation Toricellie equation Trajectory of a liquid-jet issued upwards in the atmosphere Trajectory of a jet issued from an orifice at the side of a tank Water Hammer Laminar and Turbulent flow Boundary layer concepts: Introduction Development of boundary layer for flow over a flat plate Development of boundary layer for flow through circular pipe Entry length Fully developed flow Boundary layer separation Flow of incompressible fluid in pipes: Laminar flow Hagen Poiseuille equation Friction factor Pressure drop in turbulent flow Velocity Distribution for turbulent flow Surface roughness Flow through non-circular pipes Flow through curved pipes Expansion losses Contraction losses Losses for flow through fittings Equivalent length of pipe fittings Types of flow problems Compressible fluid flow: Equations of compressible flow Velocity of sound in fluid Mach number Nozzles & diffusers Maximum velocity Two dimensional flow: Velocity potential Potential function Irrotational flow Unit -III Closed channel flow measurement: Venturi meter Orifice meter Venturi - Orifice Comparison Pitot tube Rotameter Flow measurement based on Doppler effect Hot wire and hot film anemometer Magnetic flow meter Open channel flow measurement: Elementary theory of weirs and notches Rectangular notch V-notch Suppressed and contracted weirs Submerged weirs Trapezoidal notch Unit -IV Flow past immersed bodies: Form drag Wall drag Drag coefficients Friction in flow through bed of solids: Blake-Kozeny Equation Burke-Plummer Equation Ergun equation Packed Towers: Applications Various types of packing Requirements for a good packing Loading and Flooding Fluidization: Minimum fluidizing velocity Pressure Drop in Fluidized bed Fluidization Types Motion of particle through fluid Terminal settling velocity Operating ranges of fluidization Applications of fluidization Pneumatic transport Unit -V Transportation of fluids: Pump classifications: Suction, discharge , net pressure heads, specific speed and power calculations NPSH Characteristics and constructional details of centrifugal pumps Cavitation Priming Positive displacement pumps: Piston pumps - single and double acting Plunger pumps Diaphragm pump Rotary pumps Gear pumps Lobe pumps Screw pumps Airlift pump Jet pump Selection of pumps Fans, blowers, and compressors |
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