Lab. In charge
Ms. Anam Anwar
Lab. Attendant
Mr. Muhammad Farooq
Fluid Mechanic Lab Layout
Name Of Apparatus
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4.
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10.
11.
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30.
Door
Door
Bernoulli’s Theorem
White Board
Green Board
Students Chairs
Teacher Table
Turbine Service Unit
Axial Fan
Centrifugal Fan
Cavitations Demonstration
Vin Tunnel
Fluid Particle System
Centrifugal Pump (Computer Control)
Water Hammering
Losses in Pipes
Multi Pumps ( Computer Control )
Nozzle Performance Unit
Losses in Bends
Flow Meter Demonstration
Orifice And Free Jet Flow
Orifice Discharge
Osborne-Reynolds
Impact Of Jet
Flow Visualization in Channel
Free And Force Vortices
Metacentric Height
Pelton Turbine
Series and Parallel Pumps
Black Board
FLUID MECHANICS-I
HYDRAULIC BENCH-FME 00
1.OBJECTIVE
To study the Hydraulic Bench
OSBORNE REYNOLDS DEMONSTRATION-FME 06
1.OBJECTIVE
To observe laminar, transition and turbulent pipe flow.
2.OBJECTIVE
Study of the velocity profile, reproducing the Osborne-Reynolds’s experiment
3.OBJECTIVE
To calculate Reynolds’s number.
IMPACT OF JECT-FME 01
1.OBJECTIVE
To investigate the reaction force produced by the change in momentum of a fluid
flow
ENERGY LOSSES IN BENDS-FME 05
1. OBJECTIVE
To determine the loss factors for flow through a range of pipe fittings including
bends, a contraction, an enlargement and a gate-valve
ORIFICE AND FREE JET FLOW-FME 17
1. OBJECTIVE
To determine the coefficient of velocity of two small orifices
2. OBJECTIVE
Experimental determination of the total discharge time of the tank and
comparison of this value the one obtained theoretically.
METACENTRIC HEIGHT-FME 11
1.OBJECTIVE
To locate the position of the Metacentre (M) of a floating body, by determining its
distance from the centre of gravity (G), this distance (GM) is known as the
Metacentric Height.
BERNOULLI’S THEOREM DEMONSTRATIONFME03
1.OBJECTIVE
To investigate the validity of the Bernoulli equation when applied to the steady
flow of water in a tapered duct
FLOW METER DEMENSTRATION-FME 18
1.OBJECTIVE
Filling of manometer tubes.
2.OBJECTIVE
Determination of the error in flow measure using the venturi.
3.OBJECTIVE
Determination of the Cd factor in the venturi.
4.OBJECTIVE
Determination of the strangulation in the venturi.
5.OBJECTIVE
Determination of the error in flow measures using the orifice plate.
6.OBJECTIVE
Determination of the Cd factor in the orifice plate.
7.OBJECTIVE
Comparison of the energy loss in the three different elements.
8.OBJECTIVE
Comparison among the venturi, orifice plate and variable area meter.
ORIFICE DISCHARGE UNIT-FME 04
1.OBJECTIVE
Determination of Discharge Coefficient for the thin-wall, Venturi-type nozzle.
2.OBJECTIVE
Determination of Velocity Coefficient for the thin-wall, Venturi-type nozzle.
3.OBJECTIVE
Determination of Contraction Coefficient for the thin-wall, Venturi-type nozzle.
4.OBJECTIVE
Determination of Load Coefficient for the thin-wall, Venturi-type nozzle.
ORIFICE AND FREE JET FLOW-FME 17
1.OBJECTIVE
Determination of the velocity coefficient for orifices of small diameter.
2.OBJECTIVE
Experimental determination of the drain Coefficient for an orifice of small under
condition of flow of constant height.
3.OBJECTIVE
Experimental determination of the drain Coefficient for an orifice of small under
condition of flow of variable height.
4.OBJECTIVE
Experimental determination of the total discharge time of the tank and
comparison of this value with the one obtained theoretically.