The Osborne Reynold’s Apparatus FluidoSurge-X 132 is designed to visualize flow regimes in fluid mechanics laboratories. It enables observation of laminar, transitional, and turbulent flow using dye injection. The setup supports Reynolds number determination through volumetric flow measurement. It is suitable for engineering education and demonstration of classical flow behavior.
The Osborne Reynold’s Apparatus FluidoSurge-X 132 is designed to demonstrate fundamental flow regimes in fluid mechanics. It enables visualization of laminar, transitional, and turbulent flow in a controlled environment. The apparatus allows determination of Reynolds number based on measured flow velocity. It is suitable for academic laboratory teaching and demonstration of classical flow behavior.
Product Overview
The SCIENTICO Osborne Reynold’s Apparatus FluidoSurge-X 132 is developed to reproduce the classic experiments conducted by Professor Osborne Reynolds. The setup consists of a transparent header tank supplying water at a constant head to a flow visualization tube through a bell mouth entry. Flow rate is regulated using a control valve at the discharge end, while dye injection allows clear visualization of flow patterns within the tube. Volumetric measurement of flow enables calculation of flow velocity and Reynolds number for identifying flow regimes.
| Parameter | Specification |
|---|---|
| Model | FluidoSurge-X 133 |
| Type | Osborne Reynold’s Apparatus with Manometer |
| Application | Flow Regime Visualization and Pressure Measurement |
| Visualization Tube Diameter | 10 mm |
| Visualization Tube Length | 620 mm |
| Dye Reservoir Capacity | 440 ml |
| Measuring Cylinder Capacity | 2 L |
| Manometer Type | U tube and inverted U tube |
| Manometer Length | 600 mm |
| Manometer Graduation | 1 mm |
| Stopwatch Range | 0 to 9 h 59 min 59 sec |
| Operation Requirement | Hydraulic bench or laboratory water supply |
Key Features-
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Visualization of laminar, transitional, and turbulent flow
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Dye injection system for clear flow pattern observation
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Transparent header tank with diffuser and stilling materials
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Bell mouth entry for smooth flow into the test section
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U tube and inverted U tube manometers for pressure difference measurement
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Volumetric flow measurement for Reynolds number calculation
Applications-
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Demonstration of classical Osborne Reynolds experiments
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Determination of critical Reynolds number
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Visualization of flow regimes and velocity profile
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Measurement of pressure difference across a test pipe
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Fluid mechanics and hydraulics laboratory experiments
Construction & Design Details-
The apparatus features a transparent header tank fitted with diffuser and marbles to calm inflow water and maintain constant head conditions.A clear visualization tube allows direct observation of dye streaks under different flow regimes. Manometers are mounted securely for accurate pressure measurement between inlet and outlet sections. All components are arranged to provide stable and repeatable experimental conditions.
Export & Supply Capability-
SCIENTICO manufactures the FluidoSurge-X 133 Osborne Reynold’s Apparatus with Manometer for domestic and international supply.The unit is suitable for export to engineering colleges, universities, and technical training laboratories. Standard packing, accessories, and documentation are provided with each unit.
Q1. What flow regimes can be studied using this apparatus?
It allows visualization of laminar, transitional, and turbulent flow regimes.
Q2. How is Reynolds number determined in this experiment?
Reynolds number is calculated using flow velocity derived from volumetric flow rate measurements.
Q3. What is the purpose of the manometers in this apparatus?
The manometers are used to measure pressure difference between the inlet and outlet of the test pipe.
Q4. How is flow visualization achieved?
Flow visualization is achieved using a dye injection system mounted on the header tank.
Q5. What water supply is required for operation?
The apparatus can operate using a hydraulic bench with closed water circuit or a laboratory water connection.
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