logo
 
left right
shadow
BERNOULLI THEOREM APPARATUS
DESCRIPTION:
The equipment is designed and fabricated to demonstrate the Bernoulli theorem.  It consists of a test section made of acrylic.  It has convergent and divergent sections.  Pressure tapings are provided at different locations in convergent and divergent section. Present set-up is self-contained water re-circulating unit, provided with a sump tank, centrifugal pump etc. An arrangement is done to conduct the experiment on different flow rates. Flow rate of water is measured with the help of measuring tank and stopwatch.
EXPERIMENTATION:
To verify Bernoulli Theorem experimentally.
To plot the Total energy Vs distance.
 UTILITY REQUIRED
Water Supply.
Drain.
Electricity 0.5 kW 220 V AC Single Phase.
Floor Area 1.5 x 0.75 m.
TECHNICAL DETAIL
Test Section: Material Acrylic One Piece.
Piezometer Tubes: Material P.U. Tubes 7 Nos.
Water Circulation:FHP Pump Crompton/kirloskar makes.
Flow Measurement: Using Measuring Tank with Piezometer Capacity 25 Ltrs.
Sump Tank: Capacity 60 Ltrs.
Inlet Tank: Capacity 25 Ltrs.
Stop Watch: Electronic.
Control Panel Comprises of: Standard makes On/Off Switch, Mains Indicator, etc.
Tanks will be made of Stainless Steel.
Instruction Manual: An ENGLISH instruction manual will be provided along with the Apparatus
The whole set-up is well designed and arranged in a good quality painted structure

FLOW THROUGH ORIFICE AND MOUTHPIECE APPARATUS
 DESCRIPTION:
It consists of a tank provided with inlet supply diffuser, overflow. Provision for fitting Orifice or mouthpiece at the outlet of tank. An arrangement is done to vary head and keep it constant at desired level. A pointer gauge arrangement for measuring X-Y co-ordinates of Jet is also fitted. Present set-up is self-contained water re-circulating unit provided with a sump tank and a centrifugal pump etc.  Flow rate of water is measured with the help of measuring tank and stop watch.
EXPERIMENTATION:
To determine the co-efficient of discharge of different Orifice and mouthpieces.
To determine the co-efficient of velocity
Utility required
Water Supply.
Drain.
Electricity 0.5 kW 220 V A Single Phase.
Floor Area 1.5 x 0.75 m.
Technical detail
Set of Orifices Material Acrylic 2 Nos Dia 10mm and 15 mm
Set of Mouthpieces Material Acrylic 3 Nos
Dia 10 mm L D = 1
Dia 10 mm L D = 2.5
Dia 10 mm L D = 4
Constant Head tank 35 Ltrs.
Pointer GaugeTo measure X-Y co-ordinates of Jet.
Water Circulation FHP Pump, Crompton make.
Flow Measurement Using Measuring Tank with Piezometer, Capacity 25 Ltrs.
Sump Tank Capacity 70 Ltrs.
Stop Watch Electronic.
Control Panel Comprises of
Standard make On off Switch, Mains Indicator etc.
Instruction ManualAn ENGLISH instruction manual will be provided along with the Apparatus.
 Tanks will be made of Stainless Steel.
The whole set-up is well designed and arranged in a good quality painted structure 

DISCHARGE OVER NOTCHES APPARATUS
 DESCRIPTION:                                                                    
The setup consists of a channel having sufficient length and width in which water is supplied from the bottom. Required Notch is fitted at one end of this channel. A pointer gauge with Vernier scale is fitted to measure the height of fluid in flow channel. Arrangement for fixing interchangeable notches is made.  Set of three notches, i.e. rectangular notch, 600 V notch & 450 V notch is provided along with the set-up. Present set-up is self-contained water re-circulating unit, provided with a sump tank and a centrifugal pump etc. Flow control valve and by-pass valve are fitted in water line to conduct the experiment on different flow rates. Flow rate of water is measured with the help of measuring tank and stopwatch.
EXPERIMENTATION:
To determine co-efficient of discharge (Cd) through:
V notch 45°
V notch 60°
Rectangular Notch.
UTILITIES REQUIRED:
Water Supply.
Drain.
Electricity 0.5 kW, 220V AC, Single Phase.
Floor Area 1.5 x 0.75 ml
TECHNICAL DETAIL
Channel Test Section: Size 400 x 300 x 300 mm.
Notches : Material Brass Rectangular Notch 45° V Notch 60° V Notch
Pointer Gauge: With Vernier scale.
Water Circulation: FHP Pump Crompton Kirloskar makes.
Flow Measurement: Using Measuring Tank with Piezometer, Capacity 25 Ltrs.
Sump Tank: Capacity 50 Ltrs.
Stop Watch: Electronic.
Control Panel Comprises of Standard make On/Off Switch Mains Indicator, etc.
Instruction Manual: An ENGLISH instruction manual will be provided along with the Apparatus.
Tanks and Channel will be made of Stainless Steel.
The whole set-up is well designed and arranged in a good quality painted structure.

IMPACT OF JET ON VANES APPARATUS
Description
The setup consists of a clear Acrylic fabrication section. Water is fed through a nozzle and discharged vertically to strike a target carried on a stem, which extends through the cover. A weight carrier is mounted on the upper end of the stem. The dead weight of the moving parts is counter balanced by a compression spring. The vertical force exerted on the target plate is measured for applied weights. Two targets cups are provided with the setup (flat plate and hemispherical cup).
EXPERIMENTATION:
To measure the force developed by a jet of water upon a target (Hemispherical cup or Flat Plate) and
Comparison with the forces predicted by the momentum theory.
UTILITIES REQUIRED:
Water Supply.
Drain.
Electricity 0.5 Kw 220V AC Single Phase.
Floor Area 1.5 x 0.75 m.
TECHNICAL DETAILS:
Target  2 Nos Flat Plate and Hemispherical Cup
Nozzle Material Brass
Jet Enclosure Made of Acrylic
Water Circulation 0.5 HP Pump, Crompton kirloskar makes.
Flow Measurement Using Measuring Tank with Piezometer  Capacity 25 Ltrs.
Sump Tank Capacity 50 Ltrs.
Stops watch Electronic.
Control Panel Comprises of Standard makes On/Off Switch, Mains Indicator, etc.
Instruction Manual an ENGLISH instruction manual will be provided along with the Apparatus.
Tanks will be made of Stainless Steel.
The whole set-up is well designed and arranged in a good quality painted structure.

LOSSES DUE TO FRICTION IN PIPE LINES APPARATUS
DESCRIPTION:
The setup consists of 2 pipes of different diameters, which are connected in parallel. Pressure tapings are provided on each pipe to measure the pressure losses with the help of a Differential Manometer. Control valves are fitted on each pipe, which enables to use one pipe at a time for experiment. Present set-up is self-contained water re-circulating unit, provided with a sump tank and a centrifugal pump etc. Flow control valve And by-pass valve are fitted in water line to conduct the Experiment on different flow rates. Flow rate of water is measured with the help of measuring tank and stop watch.
EXPERIMENTATION:
To determine the losses due to fiction in pipes.
To determine the friction factor for Darcy Weisback equation.
UTILITIES REQUIRED:
Water Supply.
Drain.
Electricity 0.5 Kw 220V AC Single Phase.
Floor Area 1.5 x 0.75 m.
TECHNICAL DETAIL
Pipe Test Section Dia ½ Length: 1m Material G.I.
 Dia ¾ Length: 1.25m, Material G.I.
Water Circulation 0.5 HP Pump Crompton Kirloskar G.E makes.
Flow Measurement Using Measuring Tank with Piezometer Capacity 25 Ltrs.
Sump Tank Capacity 50 Ltrs.
Stop Watch Electronic.
Control Panel Comprises of Standard makes On/Off Switch, Mains Indicator, etc.
Instruction Manual An ENGLISH instruction manual will be provided along With the Apparatus.
 Tanks will be made of Stainless Steel.
The whole set-up is well designed and arranged in a good quality painted structure.
 

Prev 1  2  3  4  5   Next
LOSSES DUE TO FRICTION IN PIPE LINES APPARATUS     IMPACT OF JET ON VANES APPARATUS    DISCHARGE OVER NOTCHES APPARATUS     FLOW THROUGH ORIFICE AND MOUTHPIECE APPARATUS     BERNOULLI THEOREM APPARATUS    
Categories
 Chemical Reaction Engineering Lab
 Environmental Engineering
 Fluid Machinery Lab
 Fluid Mechanics Lab
 Heat Transfer Lab.
 Hydraulic Lab.
 Mass Transfer Lab.
 Mechanical Operation Lab.
 Momentum Transfer Lab.
 Process Control & Inst. Lab.
 Refrigeration & Air Conditioning Lab.
 Strength of Material Lab
 Theory of Machine Lab
 Theory of Machine Lab.
 Thermo Dynamics Lab.
 
Follow us on
facebook twitter in  
 
bottom
 
Home About us Products Enquiry Contact us