Bernoullis Theorem Demonstration

Bernoullis Theorem Demonstration

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Bernoullis Theorem Demonstration

Price 100 INR/ Unit

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MOQ : 1 Unit

Bernoullis Theorem Demonstration Specification

Temperature
Room temperature (10C-40C)

Resolution
1 mm manometer scale

Hardness
Acrylic tubes: 80-85 shore D

Accuracy
2 mm in reading differential manometer

Usage
Fluid Machines Equipments

Port Size
Standard lab tube fitting

Mounting Type
Benchtop

Interface Type
Manual, tube connectors

Specimen Size
Not applicable (uses water as fluid)

Display Type
Transparent acrylic tube with graduated scale

Humidity
Suitable for normal laboratory humidity

Power Supply
Not required (Gravity-fed)

Automation Grade
Manual

Features
Acrylic and stainless steel construction, leak proof joints, scale markings

Measuring Range
Up to 6 differential pressure points

Max Height
Approx. 700 mm

Application
Fluid Machines Equipments

Number of Specimens
Single flow experiment

Equipment Type
Fluid Mechanics Lab Equipment

Test Range
Demonstration of fluid behavior under varying pipe diameter

Product Type
Bernoullis Theorem Demonstration

Response Time
Instantaneous

Capacity
Tank volume approx. 10-15 liters

Machine Weight
Approx. 10-15 kg

Control Mode
Manual Operation

Bernoullis Theorem Demonstration Trade Information

Minimum Order Quantity
1 Unit

Supply Ability
100 Units Per Week

Delivery Time
1 Week

Sample Available
Yes

Sample Policy
Sample costs shipping and taxes has to be paid by the buyer

Packaging Details
carton box, export quality also available

Main Export Market(s)
Middle East, Asia, Africa

Main Domestic Market
All India

Certifications
ISO 9001, 14001 ,CE

About Bernoullis Theorem Demonstration

Bernoullis Theorem Demonstration
Features

This equipment enables to study the Bernoulls theorem through the use of a classical venture tube Equipped with 6 static tapping points and a pilot tube for the measurement of dynamic pressure along the duct The tapping points and pilot tube are connected with a seven tubes differential pressure gauge The water flow rate is controlled by two valves placed at the inlet & outlet of the Venturi tube

Specifications

stainless steel structure
7 tubes pressure gauge, range 0 500 mm
Diameter of venture tube : 20 mm
Venturi tube throat diameter : 10 mm
Upstream taper : 14
Downstream taper : 21
Dimension : 650 x 400 x 850 mm

Training Program

Demonstration of Bernoulls theorem and of its limitations
Direct measurement of the static and dynamic pressure distribution along a Venturi tube
Determining the discharge coefficient of the Venturi tube

Comprehensive Visualization of Fluid Flow

Featuring a transparent acrylic convergent-divergent tube and six manometer points, this apparatus provides a clear, real-time visual representation of how fluid pressure and velocity change along the tube. The transparent design and scale markings allow students and researchers to easily observe and interpret Bernoullis principle at work.

Safe and Reliable Laboratory Equipment

Built with durable acrylic, stainless steel, and PVC, the demonstration unit offers leak-proof connections and operates under low pressure to ensure user safety. The bench-top, powder-coated frame and corrosion-resistant tanks make it suitable for repeated use in standard laboratory environments.

Practical and Easy-to-Operate Design

Manual operation, coupled with quick coupler hose connections and gravity-fed flow, allows for effortless setup and use. The measuring and observation process is enhanced by included accessories (stopwatch, graduated cylinder), making the unit ideal for fluid mechanics courses and experimental demonstrations.

FAQs of Bernoullis Theorem Demonstration:

Q: How does the Bernoullis Theorem Demonstration apparatus function in a laboratory setting?

A: The apparatus uses a gravity-fed system, allowing clean water to flow through a transparent acrylic convergent-divergent tube. Six manometer points measure pressure drops at various locations, providing a clear demonstration of Bernoullis principle. The transparent design and graduated scales enable real-time visual and quantitative observation of pressure and velocity variations.

Q: What are the primary experimental methods supported by this unit?

A: This unit supports experiments to demonstrate Bernoullis principle by measuring velocity and pressure head at multiple points along the tube. Students can use the transparent manometer tubes to accurately read pressure differences and calculate fluid velocities at different diameters and sections of the apparatus.

Q: When is this equipment typically used in educational or research environments?

A: This demonstration unit is commonly used during fluid mechanics lessons, laboratory sessions, and practical experiments in engineering and physics courses. It is an essential teaching aid for illustrating fundamental fluid dynamics concepts whenever there is a need to show the relationship between pressure, velocity, and pipe diameter.

Q: Where can this equipment be installed and operated?

A: Designed as a benchtop device, the apparatus can be installed on any stable laboratory table or surface. It operates best within standard laboratory conditions, specifically at room temperatures (10C40C) and normal indoor humidity levels, making it suitable for educational institutions, research labs, and industrial training facilities.

Q: What is the process for setting up and conducting an experiment with this Bernoulli demonstration apparatus?

A: Set up involves filling the tank with clean water, connecting a flexible hose to the quick couplers, and allowing gravity to initiate flow through the tube. Use the stopwatch and measuring cylinder to record flow rates, and observe changes in the manometer tubes. Pressure and velocity data can be collected by noting the readings at six different points.

Q: How is safety ensured during operation?

A: Safety is prioritized through the use of leak-proof connections, low-pressure operation, and robust construction from non-corrosive and durable materials. Transparent materials further allow for clear visual inspection during experiments, minimizing the risk of leaks or unsafe conditions.

Q: What are the key benefits of using this Bernoullis Theorem Demonstration equipment?

A: Key benefits include clear visualization of theoretical principles, accurate measurements with immediate response, durable construction, manual control for educational engagement, and a maintenance-free, electrically independent operation. This makes it both a valuable teaching and research tool for understanding fluid behavior in pipelines.

Bernoullis Theorem Demonstration

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