Venturi meter experimental apparatus
We measured the pressure distribution at a total of 11 locations along a horizontally oriented translucent Venturi tube, derived the theoretical flow rate using Bernoulli's theorem from each cross-sectional area, and calculated the flow coefficient from different flow rates (maximum flow rate of 27 L/min). The 11 manometer tubes are connected to the upper head, allowing for adjustment of the manometer water head level by operating the air valve. The experiment requires an H1F hydraulic bench (sold separately) for water supply and flow measurement.
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basic information
H5 Specifications Dimensions and Weight: W720 x D300 x H650mm, approximately 15kg Venturi Tube Dimensions: Inlet/Outlet φ26mm, Throat φ16mm Venturi Tube Material: Translucent Resin Maximum Flow Rate: 27L/min Manometer Tubes: 11 Manometer Scale: Length 0-400mm, Minimum 1mm Accessories: Manual pressure adjustment pump, Hydrodynamic experiment software (HDMS)
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Applications/Examples of results
[Experimental Items] Measurement of static pressure distribution along the Venturi tube Comparison of theoretical values and experimental values Calculation of Bernoulli's theorem, different flow velocities, and flow coefficients
Detailed information
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Image of a translucent resin Venturi tube
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A photo taken on the separately sold H1F hydraulic bench.
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HDMS Hydrodynamic Experiment Software Reference Screen (Accessories) A simple software for manually inputting and recording experimental data is included.
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HDMS Hydrodynamic Experiment Software Reference Screen (Accessories) A simple software for manually inputting and recording experimental data is included.
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Company information
Megakemu designs, manufactures, and imports various experimental and practical equipment for universities, junior colleges, technical colleges, high schools, and vocational schools across the country. While the world has made advancements in various fields, it seems that our Earth's environment is being disrupted by ourselves and is approaching its limits. The world is seeking new Japanese technologies that coexist with the Earth's environment.
