METACENTRIC HEIGHT APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT: 1. To study the stability of floating body. 2. To calculate metacentric height of given ship model. TECHNICAL DESCRIPTION : The experimental setup consist of semi circular ship model with accurate angle scale. A Measuring tank of suitable size is provided in which ship model floated on water. Additional weights are provided and that can moved horizontally for tilting the ship model. DIMENSIONS AND WEIGHT : Size :0.5 m.(L)x 0.5 m(W) X 0.5m ( H ) Weight :Approx. 10 Kg SERVICE REQUIRED : Water : 50 ltr SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 1-METACENTRIC HEIGHT APPARATUS

REYNOLDS APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT: 1. To Calculate the Reynold No 2. To observe and study the type of flow( Laminar ,Transient , Turbulent ). TECHNICAL DESCRIPTION : The experimental setup consist of a tank containing water & small tank containing dye. The water supply tank is fitted with horizontal transparent glass tube with flow control valve. A syringe with flexible tube from dye supply tank , fixed in the glass tube. By adjusting the flow control valve of the glass tube , types of flow can be observed.This system is complete closed circuit type and easy to move due to wheels. DIMENSIONS AND WEIGHT : Size :1.2 m.(L)x 0.5 m(W) X 1.7m ( H )
Weight :Approx. 45 Kg SERVICE REQUIRED : Water : 70 ltr SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 2-REYNOLDS APPARATUS

IMPACT OF JET APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT: 1. To Calculate the Coefficient of Impact of Jet on Vanes 2. To Calculate the Force of Impact of Jet on Vanes 3. To study impact momentum principle TECHNICAL DESCRIPTION : The experimental unit consist of a water sump tank with self-priming monoblock centrifugal pump. A vertical upward jet issuing from the nozzle strikes the vane fitted over the nozzle. The force of water jet can be controlled by a valves. The vane is fitted over a lever. A digital force indicator is provided for measurement of force on vanes. The whole assembly is housed in a. box with two sided Perspex. A measuring tank is provided for measurement of discharge through the nozzle. Four interchangeable vanes of different angles are provided. This system is complete closed circuit type and easy to move due to wheels.

DIMENSIONS AND WEIGHT :
Size :1.2 m.(L)x 0.5 m(W) X 1.7m ( H )
Weight :Approx. 70 Kg
SERVICE REQUIRED :
Power Supply : 230v, AC ,Single Phase , 50HZ
Water :100 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 3-IMPACT OF JET APPARATUS

BERNOULLIS THEOREM APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT: 1. To Observe and Verify the Bernoullis Theorem 2. To Calculate the total head over the Venturi section. 3. To observe energy conversion in convergent and divergent flow. 4. To Calculate the Pressure head over the Venturi section 5. To Calculate the Pressure head over the Venturi section 6. To identify the frictional loss over the Venturi section TECHNICAL DESCRIPTION : The experimental unit consist of acrylic venturi section with inlet and outlet tanks. a water sump tank with self-priming monoblock centrifugal pump. The flow of water can be controlled by a valve. A venture section is equipped with pressure measuring points. for measurement of static pressure. A measuring tank is provided for measurement of discharge of water through the Section . This system is complete closed circuit type and easy to move due to wheels.

DIMENSIONS AND WEIGHT :
Size :1.5 m.(L)x 0.7 m(W) X 1.7m ( H )
Weight :Approx. 70 Kg
SERVICE REQUIRED :
Power Supply : 230v, AC ,Single Phase , 50HZ
Water : 120 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 4-BERNOULLIS THEOREM APPARATUS

PITOT TUBE APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT:
1. To Calculate the Velocity of flowing fluid though the pipe.
2. To Calculate the coefficient of pitot tube.
TECHNICAL DESCRIPTION :
The experimental unit consist of pitot tube inserted in the pipe. a water sump tank with self-priming monoblock centrifugal pump. The flow of water can be controlled by a valve.. A measuring tank is provided for measurement of discharge of water through the Section. The Differential Pressure across the pitot tube is measured by using U tube Manometer.
This system is complete closed circuit type and easy to move due to wheels.
DIMENSIONS AND WEIGHT :
Size :1.5 m.(L)x 0.7 m(W) X 1.2m ( H )
Weight :Approx. 40 Kg
SERVICE REQUIRED :
Power Supply : 230v, AC ,Single Phase , 50HZ
Water : 80 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 5-PITOT TUBE APPARATUS

VENTURIMETER APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT:
1. To Calculate the venturimeter coefficient of given venturimeter and compare with the reported value in literature.
2. To predict the flow rate by using average value of coefficient of venturimeter
TECHNICAL DESCRIPTION :
The experimental unit consist of Venturimeterfixed in the pipe. a water sump tank with self-priming monoblock centrifugal pump. The flow of water can be controlled by a valve.. A measuring tank is provided for measurement of discharge of water through the Section. The Differential Pressure across the Venturimeter is measured by using U tube Manometer.
This system is complete closed circuit type and easy to move due to wheels.
DIMENSIONS AND WEIGHT :
Size :1.5 m.(L)x 0.7 m(W) X 1.2m ( H )
Weight :Approx. 40 Kg
SERVICE REQUIRED : Power Supply : 230v, AC ,Single Phase , 50HZ, Water : 80 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:-  6-VENTURIMETER APPARATUS

ORIFICEMETER APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT:
1. To Calculate the Orificemeter coefficient of given Orificemeter and compare with the reported value in literature.
2. To predict the flow rate by using average value of coefficient of Orificemeter
TECHNICAL DESCRIPTION :
The experimental unit consist of Orificemeter fixed in the pipe. a water sump tank with self-priming monoblock centrifugal pump. The flow of water can be controlled by a valve.. A measuring tank is provided for measurement of discharge of water through the Section. The Differential Pressure across the Orificemeter is measured by using U tube Manometer.
This system is complete closed circuit type and easy to move due to wheels.
DIMENSIONS AND WEIGHT :
Size :1.5 m.(L)x 0.7 m(W) X 1.2m ( H )
Weight :Approx. 40 Kg
SERVICE REQUIRED : Power Supply : 230v, AC ,Single Phase , 50HZ, Water : 80 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 7-ORIFICEMETER APPARATUS

NOZZLE METER APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT:
1. To Calculate the Nozzle meter coefficient of given Nozzle meter and compare with the reported value in literature.
2. To predict the flow rate by using average value of coefficient of Nozzle meter
TECHNICAL DESCRIPTION:
The experimental unit consist of Nozzle meter fixed in the pipe. a water sump tank with self-priming monoblock centrifugal pump. The flow of water can be controlled by a valve.. A measuring tank is provided for measurement of discharge of water through the Section. The Differential Pressure across the Nozzle meter is measured by using U tube Manometer.
This system is complete closed circuit type and easy to move due to wheels.
DIMENSIONS AND WEIGHT :
Size :1.5 m.(L)x 0.7 m(W) X 1.2m ( H )
Weight :Approx. 40 Kg
SERVICE REQUIRED : Power Supply : 230v, AC ,Single Phase , 50HZ, Water : 80 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 8-NOZZLE METER APPARATUS

ORIFICE AND MOUTHPIECE APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT:
1. To Calculate the Orificemeter coefficient of given Orifice meter and compare with the reported value in literature.
2. To Calculate the Mouthpiece meter coefficient of given Mouthpiece meter and compare with the reported value in literature.
3. To Calculate the Coefficient of Velocity of given Mouthpiece meter and Orifice meter
4. To Calculate the Coefficient of Contraction of given Mouthpiece meter and Orifice meter

TECHNICAL DESCRIPTION :
The experimental unit consist of an overhead tank with scale , at the bottom of
which orifice or mouthpiece can be fixed. a water sump tank with self-priming
monoblock centrifugal pump. The flow of water can be controlled by a valve.. A
measuring tank is provided for measurement of discharge of water through the
Section. A Horizontal and vertical scale is fixed for measurement of flow of jet.
This system is complete closed circuit type and easy to move due to wheels.
DIMENSIONS AND WEIGHT :
Size :1.2 m.(L)x 0.7 m(W) X 1.7m ( H )
Weight :Approx. 40 Kg
SERVICE REQUIRED :
Power Supply : 230v, AC ,Single Phase , 50HZ
Water : 100 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 9-ORIFICE MOUTH APPARATUS

PIPE IN SERIES APPARATUS

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RANGE OF EXPERIMENTS TO BE CARRIED OUT: 1. To Calculate the friction losses through the pipes connected in series. 2. To Calculate the friction losses through each individual pipe connected in series. TECHNICAL DESCRIPTION:
The experimental unit consist of three different diameter pipes connected in series. a water sump tank with self-priming monoblock centrifugal pump. The flow of water can be controlled by a valve. A measuring tank is provided for measurement of discharge of water through the Section. The frictional lossalong the length of pipe is measured by using UTubeManometer. This system is complete closed circuit type and easy to move due to wheels.

DIMENSIONS AND WEIGHT:
Size :2 m.(L)x 0.7 m(W) X 1.2m (H)
Weight : Approx.60 Kg
SERVICE REQUIRED :
Power Supply : 230v, AC ,Single Phase , 50HZ
Water : 80 ltr
SCOPE OF DELIVERY:
1. Experimental Setup
2. Instructional Manual

Get More Details:- 10-PIPE IN SERIES APPARATUS