Experimental Capabilities:

• To determine the co-efficient of discharge for orifice and venturimeter at different flow rates

Features:

• Consists of 0.5hp pump, sump tank and delivery tank mounted on MS angle frame.
• Transparent Acrylic Venturimeter and orifice meter.
• Calibrated Manometer and Piezometers.
• Pressure tapping valves for reading pressure and controlling valves to adjust the flow.
• Specially designed overflow arrangement to avoid spillage of water in delivery tank in closed circuit.

Experimental Capabilities:

• Darcy friction co-efficient for flow in pipes can be determined.
• In addition, the velocity of flow for different diameter and material of pipes can be determined experimentally.

Features:

• Consisting of 1hp pump, sump tank and delivery tank mounted on MS angle frame.
• Calibrated transparent acrylic manometer and Piezometers.
• Pressure tapping valves for reading pressure and controlling valves to adjust the flow.
• Specially designed overflow arrangement to avoid spillage of water in delivery tank and to operate in closed circuit.

Experimental Capabilities:

• The head loss due to friction in pipe fittings thereby head loss coefficient can be determined.
• In addition, the velocity head at various fittings can be determined experimentally.

Features:

• The setup has 1hp pump, sump tank and delivery tank mounted on MS angle frame in closed circuit.
• Consists of sudden contraction and Expansion pipe, Collar, Union, 90deg as well as 450 elbow & bend, Non-return Valve, Wheel Valve and Gate Valve. (All of 1 inch size)
• Calibrated transparent acrylic manometer and Piezometers.
• Pressure tapping valves for reading pressure and controlling valves to adjust the flow.
• Specially designed overflow arrangement to avoid spillage of water in delivery tank.

Experimental capabilities:

• The co-efficient of discharge for notches of different shapes for different flow rates can be determined and calibrated.

Features:

• The experimental setup contains 1.5 hp pump, sump tank , Notch tank and delivery tank mounted on MS angle Frame.
• Consists of Rectangular plate, trapezoidal plate and V-Notch plate of 60deg & 90deg
• Calibrated transparent acrylic Piezometer.
• Controlling valve to regulate the flow rate.
• Specially designed overflow arrangement to avoid spillage of water in delivery tank and to operate in closed circuit.

Experimental Capabilities:

• The co-efficient of discharge for orifices and mouth pieces of different shapes and diameters can be determined and calibrated.

Features:

• The experimental setup contains 0.5hp pump, sump tank, delivery tank and feed tank mounted on MS angle frame in closed circuit.
• Consists of Straight, convergent and divergent mouth pieces and 3 different diameter of orifices of Brass material.
• Calibrated transparent acrylic Piezometers, 2 D traversing hook gauge and controlling valves for adjusting flow rate.
• Specially designed overflow arrangement to avoid spillage of water in delivery tank.
• Arrangement to maintain constant head at the feed tank

Experimental Capabilities:

• The pressure gradient in converging and diverging section can be analysed.
• The Velocity Head at each point and the total head at different Static Head can be determined.

Features:

• The experimental setup contains 0.5HP pump, sump tank, feed tank ,balancing tank and delivery tank mounted on a desk.
• Consists of calibrated transparent acrylic Piezometer, multi bank manometer and Venturimeter.
• Different length of pipes to maintain constant head at balancing tank .
• Valves and over flow arrangements to operate in closed circuit.

Experimental Capabilities:

• The Reynolds’s Number at different flows can be analysed.
• In addition, the different regions of flows visualization can also be done.

Features:

• The experimental setup contains 0.5HP mono block pump, sump tank, feed tank, delivery tank and die tank mounted on a table to operate in closed circuit manner.
• Consisting of Glass tube and transparent acrylic Piezometer.

Experimental Capabilities:

• The condition of stability of floating bodies, metacentric height and radius of gyration of floating body can be determined.

Features:

• The setup consists of buoyancy tank and sump tank mounted on a frame of MS material.
• Consists of weights, pendulum and protractor.

Experimental Capabilities:

• The impact co-efficient of jet for different shapes of stationary vanes for different flow rates can be determined.
• In addition, the impact co-efficient of jet for different diameter of jets for different flow rates can also be determined.

Features:

• The experimental setup contains 0.5 hp pump, transparent acrylic jet chamber and sump tank mounted on MS material frame.
• Consists Brass Nozzles of different diameters, transparent acrylic flat, hemispherical and inclined shapes of vanes
• Calibrated Rotameter and controlling valves.
• Digital indicator for impact force measurement

Experimental Capabilities:

• To calibrate and determine the co-efficient of discharge of weirs of different shapes for different flow rates.

Features:

• Consisting of Broad crest, sharp crest and ogee weirs, transparent acrylic Piezometer, 1.5 hp pump, sump tank, delivery tank and weir tank, hook gauge and controlling valves.
• Transparent acrylic window on weir tank for visualization.
• 2 D traversing hook gauge arrangement.
• over flow arrangement to enable for closed circuit operation.

Experimental Capabilities:

• To calibrate Rota meter at different flow rate and to draw Discharge graph & Error graph.

Features:

• Consisting of Rotameter, 0.5hp pump, Transparent acrylic Piezometer, sump tank and delivery tank, controlling valves in the closed circuit.

Experimental Capabilities:

• The turbine flow meter at different flow rate and in addition to that Discharge & Error graph are to be plotted.

Features:

• The experimental setup contains a turbine meter, 0.5hp pump, sump tank and delivery tank mounted on MS angle frame.
• Consists transparent acrylic Piezometer and controlling valves.
• Turbine flow meter with digital indicator.

Experimental Capabilities:

• The discharge of water, velocity of flow and the streamline distance of flow can be determined experimentally.

Features:

• The experimental setup contains transparent acrylic test section , dye tank mounted on MS material frame.
• Consists of square, circular and aerofoil acrylic models.

Experimental Capabilities:

• To calibrate and determine the co-efficient of discharge for Venturi flume and to study water flow pattern at different operating conditions.

Features:

• Consisting of acrylic Flume, 1.5 hp pump, transparent acrylic Piezometer, sump tank, delivery tank, flume tank, hook gauge and controlling valves.
• Closed circuit unit with Over flow arrangement and 2D traversing point gauge.
• Window for flow visualization .

Experimental Capabilities:

• To determine the co-efficient of discharge for nozzle meter at different flow rates.

Features:

• Consisting of Transparent acrylic Nozzle meter, Manometer and Piezometer, 0.5hp pump, sump tank and delivery tank, pressure tapping valves and controlling valves.
• Overhead arrangement at delivery tank .
• All mounted on sturdy frame of MS angle.

Experimental Capabilities:

• Consists of Suppressed weir , Different type of nappes like free, depressed, Adhering , clinging
• Broad crested weir , sharp crested, ogee, gates
• Hydraulic jump demo with toe blocks & sills
• Rectangular and V - notches

Feature:

• The Tilting flume is intended to investigate the hydraulics of flow over weir, notches, flumes and standard angle sections fitted with Perspex sheets for visual studies and are mounted on frames which can be adjusted for a precise slope using screwing mechanism (Hand operated).
• A 3 or 5 hp pump with delivery tank , flume , sump tank and venturi meter to operate in closed circuit.
• Flume tank from 3 m to 5 m length with both side transparent windows.
• Calibrated gauges and Piezometer.
• Hook or point gauge with 2 D traverse mechanism along the length of the channel.

Experimental Capabilities:

• The surface profile in a free and forced vortex flow can be determined.

Features:

• Consists of Acrylic cylinder, sump and pipes with valves mounted on a table.
• Orifice set, Piezometer, focusing light, measuring jar, stop clock, motor and pulley.
• Free vortex by using a transparent vessel having orifice at the bottom and constant head water supply and depth gauge. This can be measured by depth gauge.
• Forced vortex by motor and 2D point gauge .
• Digital indicator for speed measurement.
• Motor controller to conduct experiment at desired speeds

Experimental Capabilities:

• To determine the co-efficient of discharge for pitot tube at different flow rates.

Features:

• Consisting of Transparent acrylic pipe , Manometer and Piezometer, 0.5hp pump, sump tank and delivery tank and controlling valves.
• Overhead arrangement at delivery tank in closed circuit.
• Brass Pitot tube with 2 D mechanism.
• All mounted on sturdy frame of MS angle.