Venturi effect
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- :"Venturi" redirects here. For , see Automobiles Venturi.
The Venturi effect is a special case of Bernoulli's principle, in the case of fluid or air flow through a tube or pipe with a constriction in it. The fluid must speed up in the restriction, reducing its pressure and producing a partial vacuum via the Bernoulli effect. It is named after Giovanni Battista Venturi, (1746–1822), an Italian physicist.
A fluid passing through smoothly varying constrictions is subject to changes in velocity and pressure in order to satisfy the conservation of mass-flux (flow rate). The reduction in pressure in the constriction can be understood by conservation of energy: the fluid (or gas) gains kinetic energy as it enters the constriction, and that energy is supplied by a pressure gradient force from behind. The pressure gradient reduces the pressure in the constriction, in reaction to the acceleration. Likewise, as the fluid leaves the constriction, it is slowed by a pressure gradient force that raises the pressure back to the ambient level.
The limiting case of the Venturi effect is choked flow, in which a constriction in a pipe or channel limits the total flow rate through the channel, because the pressure cannot drop below zero in the constriction. Choked flow is used to control the delivery rate of water and other fluids through spigots and other valves.
Experimental apparatus
- Venturi Tubes
- The simplest apparatus, as shown in the photograph and diagram, is a tubular setup. Fluid flows through a length of pipe of varying diameter. To avoid undue drag, a venturi tube typically has an entry cone of 30 degrees and an exit cone of 5 degrees.
- A venturi can also be used to mix a fluid with air. If a pump forces the fluid through a tube connected to a system consisting of a venturi to increase the water speed (the diameter decreases), a short piece of tube with a small hole in it, and last a venturi that decreases speed (so the pipe gets wider again), air will be sucked in through the small hole because of changes in pressure. At the end of the system, a mixture of fluid and air will appear.
- Orifice plate
- Venturi tubes are more expensive to construct than a simple orifice plate which uses the same principle as a tubular scheme, but the orifice plate causes significantly more permanent energy loss and is less accurate.
Practical uses
The Venturi effect is visible in:- the capillaries of the human circulatory system
- large cities where wind is forced between buildings.
- gas jets that mix air and flammable gas in barbecues, gas stoves, and Bunsen burners
- water aspirators that produce partial vacuum from a water spigot
- atomizers that disperse perfume
- foam firefighting nozzles and extinguishers
- carburetors that use the effect to suck gasoline into an engine's intake air stream.
- Buchner funnels that use the Venturi effect to provide the suction on force against the contents of the funnel
- Protein skimmers, a filtration device for saltwater aquaria.
- in automated swimming pool cleaning robots that use pressure-side water flow to collect sediment and debris.
Venturi tubes are also used to measure the speed of a fluid, by measuring pressure changes at different segments of the device. Placing a liquid in a U-shaped tube and connecting the ends of the tubes to both ends of a venturi is all that is needed. When the fluid flows though the venturi the pressure in the two ends of the tube will differ, forcing the liquid to the "low pressure" side. The amount of that move can be calibrated to the speed of the fluid flow.
As with Bernoulli's principle, the Venturi Effect is also used as an academic demonstration of lift in an airplane a wing. Other principles at play in this phenomenon include Circulation (fluid dynamics) and the Coandă effect.
See also
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