The Bernoulli’s Principle Module | FluidoSurge-X 358 by SCIENTICO is a Venturi-based laboratory accessory for demonstrating the continuity equation and Bernoulli’s principle. It enables measurement of static, total, and dynamic pressures using a Pitot-static tube and manometer system. Designed for use with the Aerodynamics Trainer FluidoSurge-X 348.
Bernoulli’s Theorem Apparatus | FluidoSurge-X 120
The Bernoulli’s Theorem Apparatus FluidoSurge-X 120 is designed for studying pressure and energy variation in flowing fluids. It uses a transparent Venturi with multiple pressure tapping points and a manometer bank. The setup supports converging and diverging flow experiments and discharge coefficient determination. It is suitable for fluid mechanics laboratory teaching and experimental verification of Bernoulli’s principle.
The Bernoulli’s Theorem Apparatus FluidoSurge-X 120 is designed for experimental verification of Bernoulli’s principle in fluid mechanics laboratories. It enables detailed study of pressure, velocity, and energy variations along a converging and diverging duct. The apparatus uses a transparent Venturi test section with multiple pressure tapping points. It is intended for structured academic experiments and analytical comparison with theoretical flow behavior.
Product Overview
The SCIENTICO Bernoulli’s Theorem Apparatus FluidoSurge-X 120 consists of a precision machined transparent acrylic Venturi mounted on a rigid baseboard for use with a hydraulic bench. The Venturi incorporates multiple static pressure tapings along its length, connected to a bank of pressurized manometer tubes for simultaneous pressure measurement. A total head probe allows measurement of total pressure at any selected section along the centerline of the duct. The apparatus enables investigation of flow through converging and diverging sections, determination of discharge coefficient, and study of conditions where Bernoulli’s theorem is applicable or limited.
| Parameter | Specification |
|---|---|
| Model | FluidoSurge-X 120 |
| Type | Bernoulli’s Theorem Apparatus |
| Application | Fluid Mechanics Laboratory |
| Venturi Material | Transparent acrylic |
| Upstream Diameter | 26 mm |
| Throat Diameter | 16 mm |
| Designed Flow Rate | 20 LPM |
| Pressure Tappings | 8 static pressure points |
| Manometer Tubes | 8 tubes, 320 mm length each |
| Total Head Measurement | Movable total pressure probe |
| Baseboard | Aluminum profile with adjustable feet |
| Flow Control | Discharge valve at outlet |
| Connections | Quick disconnect hose couplings |
Key Features-
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Transparent Venturi for visual observation of flow behavior
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Eight pressure tapping points for simultaneous static pressure measurement
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Pressurized manometer bank with air bleed valve
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Movable total head probe for centerline pressure measurement
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Reversible test section for convergent and divergent flow studies
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Independent control of flow rate and pressure
Applications-
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Experimental verification of Bernoulli’s theorem
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Study of energy conversion in converging and diverging pipes
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Measurement of static pressure and total head distribution
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Determination of discharge coefficient of a Venturi
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Fluid mechanics and hydraulics laboratory experiments
Construction & Design Details-
The main test section is an accurately machined acrylic Venturi with circular cross sections of varying diameter. Static pressure tapings are positioned along the length of the Venturi and connected to a vertical manometer bank through a manifold. The baseboard is constructed from aluminum profiles and includes four height adjustable feet for precise leveling. Flexible hoses with rapid action couplings connect the apparatus to the hydraulic bench or laboratory water supply.
Export & Supply Capability-
SCIENTICO manufactures the Bernoulli’s Theorem Apparatus FluidoSurge-X 120 for supply to engineering colleges, universities, and technical training institutes. The equipment is suitable for domestic supply and international export. Standard packing, accessories, and documentation are included with each unit.
Q1. What principle is demonstrated using this apparatus?
It demonstrates Bernoulli’s theorem by relating pressure, velocity, and energy along a flowing stream.
Q2. How many pressure points can be measured simultaneously?
Static pressure can be measured simultaneously at eight locations along the Venturi.
Q3. Can both converging and diverging flow be studied?
Yes, the Venturi test section can be reversed to study both convergent and divergent flow conditions.
Q4. How is total head measured in the apparatus?
Total head is measured using a movable total pressure probe positioned along the duct centerline.
Q5. What water supply is required for operation?
The apparatus operates with a hydraulic bench using a closed water circuit or a laboratory water connection.
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