Reynolds number and transition flow experimental apparatus
We will demonstrate the transition from laminar flow to turbulent flow and compare the critical Reynolds number in transitional flow with theoretical values. The setup consists of a glass head tank and glass tubes, an ink tank, and an injector, allowing us to observe the behavior of the flow using dye while adjusting the flow rate with a drainage valve located at the bottom of the apparatus. We will experiment to see what happens when the flow changes from laminar to turbulent. Additionally, experiments can be conducted using an optional heater module (sold separately) to vary the water temperature and viscosity.
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basic information
H215 Specifications Dimensions & Weight: W700 x D400 x H1500mm, approximately 21kg Measuring Section: Glass tube (inlet bell mouth shape) Main Material: Reinforced plastic (portable) Accessories: Dye ink, thermometer
Price information
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Applications/Examples of results
[Experimental Items] Determination of the transition flow from laminar to turbulent Determination of the transition flow Reynolds number and comparison of the results Effects of viscosity and temperature changes on the Reynolds number
Detailed information
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Reference diagram of laminar flow, turbulent flow, and transitional flow.
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System reference diagram (includes separately sold H215a)
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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 nationwide. While the world has made advancements in various fields, it seems that our Earth's environment is being disturbed by ourselves and is approaching its limits. The world is seeking new Japanese technologies that coexist with the Earth's environment.