Talk:Venturi effect
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I removed the reference to flutes, as the simple venturi effect isn't (to my knowledge) the main effect in a flute. If that offends anyone, please feel free to add it back in with more explanation. zowie 03:15, 22 September 2005 (UTC)
Merge Venturi and Venturi effect
I think these two articles should be merged because they are both relatively short and both try to discuss how the priciple and the device work. It should be easy to cover both in sub-sections of a single article if there is need to differentiate. -- Bovineone 02:19, 8 May 2006 (UTC)
I think they should be kept seperatre they are similar but different topics. I think they are fine the way they are
is there a reason why the article says "Trevor Quillin is a sleepy man. " under the practical uses section?
- I believe these are the same effect - I vote Merge. Nimur 14:40, 3 June 2006 (UTC)
In in?
"The Venturi effect is visible in:" I don't know how to edit these things, but it says "visible in" and then the list items start with "in" again. So, e.g., it says "visible in in large cities..." when you read it through. Otherwise, it seems to be a very nice article, merged or not.
Aortic Regurge
What did you mean by "... visible in the capillaries of the human circulatory system, where it indicates aortic regurgitation"? Why does AR cause a Venturi effect in capillaries? Is flow not so slow in capillaries that any such effect would be tiny? j.k.baillie 23rd July 2006
An everyday example of the venturi effect mixing air and liquid.
In the Experimental apparatus, Venturi Tubes it says
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.
and the general description of the effect it says
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.
It seems to indicate the converse could happen too...?
So if Air under pressure is forced through a venturi tube it will be able to suck a liquid in through a small hole producing aerated liquid.
eg The Venturi effect is used when a coffee machine uses steam under pressure to draw up and froth milk.
202.138.204.101 01:44, 1 December 2006 (UTC)
That is also how carburetors work. The Lightning Stalker 07:55, 11 December 2006 (UTC)
"A simple way to demonstrate the Venturi effect is to squeeze and release a flexible hose that is carrying water. If the flow is strong enough, the constriction will remain even if the hose would normally spring back to its normal shape: the partial vacuum produced in the constriction is sufficient to keep the hose collapsed."
Has anybody ever tried this -- it sounds pretty strange to me. 68.11.47.74 02:40, 30 March 2007 (UTC)
How is this Venturi effect demonstrated in "the effective burning of human waste waste"?
What?
This page only explains what the Venturi effect is through a number of terms that are impossible to understand for a layman. These terms are linked to, but requiring people to read about those as well makes it harder to understand what this is all about.
Could someone please add a simple explanation of what this is about, too? Something like
"In Physics, the Venturi Effect refers to a situation where materials in gaseous or fluid form take on a lower pressure than those in the surrounding area. This happens because (...technical explanation...)"
I'm not sure whether this is accurate (which is why I didn't add it myself), but it would be tremendously helpful.
Another good example of this is demonstrated when you blow across the top of a straw and the drop in pressure pulls some of the liquid up the straw.
- Static ports on aircraft like a Cessna 182 are simply holes in the sides of the fuselage. Air flows across these holes at the same speed as the aircraft's air speed, yet the pressure at the static port is the same as ambient, regardless of the aircraft speed (within the range of a Cessna 182). I don't see how the straw situation is any different, unless you're not blowing directly perpendicular to the opening in the straw. Jeffareid (talk) 06:54, 17 March 2008 (UTC)
—Preceding unsigned comment added by 192.122.250.250 (talk) 13:44, 4 October 2007 (UTC)
The straw example is the coanda effect. The jet of air out of your mouth entrains the surrounding air. I think it's unrelated to the venturi effect. In my opinion, the Cessna example is fundamentally different because the airflow isn't a jet. Tinos (talk) 23:30, 1 May 2010 (UTC)
Um, air is a fluid.
"A venturi can also be used to mix a fluid with air." - Do you mean "mix a liquid with a gas"?
Air is a fluid. You can read about this on a website called "Wikipedia". —Preceding unsigned comment added by 99.231.124.188 (talk) 23:37, 23 February 2008 (UTC)
An item that should be added to practical uses
This is a tap water driven syphon for aquariums. Click on the link, then images, then go to page 3 to see diagram.
It's not significantly different than the one patented in 1933. Click on image, and note figure 4.
Is there a better name than syphon or siphon for these type of devices? I use the 1984 patented version for my aquarium, but recall an almost identical device I used to drain a basement back in the mid 1960's.
I've tried to find a diagram for one of these outside of patents, but I've had no luck in finding one. Jeffareid (talk) 01:40, 16 March 2008 (UTC)
Another practical use for venturis (usually multiple): as a flow measurement device, specifically a Gas Meter Prover as shown HERE: [1] —Preceding unsigned comment added by 204.73.77.18 (talk) 14:48, 27 May 2009 (UTC)
Plumber asking for answers
HI I am a plumber, and also have some knowledge about hydraulics; now I am facing some issues with customers who complains about their water pressure, here in GA USA there is a regulation that mandates to install a PRV (pressure regulation valve) a very smart device that put a max in your static pressure but should allow the water flow without restriccion while its running, now I can not get in touch with nobody who can confirm me that, not even the tech support from one of the manufacturers can give me an answer with an explanation that supports his saying, because this device works based on the venturi effect I would like to receive some feed back from somebody who can answer me this question scientifically.Thanks.
- What is your question? You have explained who you are, and the fact that you face some issues with your customers who complain about their water pressure, but what is their problem? There are no answers without there first being a question. 203.19.117.216 (talk) 22:56, 28 April 2008 (UTC)
Passive solar design applications of the Venturi effect
Besides high winds experienced among tall buildings,it should be noted that the effect Venturi defined has been applied quite deliberately for thousands of years in vernacular architectures, and is a core principle in contemporary passive energy design in architecture. For an architectural vision of the applied Venturi effect that may have cross disciplinary value, see Hassan Fathy's work online at the unu website, or google anything along the lines of passive solar, passive energy, solar chimney,or cooling towers. From a passive strategies perspective, the Venturi effect appears as how Nature seeks equilibrium when a constant flow crosses a channel with a nonconstant shape,(a funnel or a constriction): there will be compensations in changes in velocity and therefore pressure. I also see applied in (Fathys descriptions)the strategy of simply connecting extremes (hot to cold, or high pressure to low pressure, or high velocity to low velocity) to force accelerated airflow to then capture in evaporative mechanisms. Someone verify please, but I really think, to aid in definition, just this alone does not involve the Venturi Effect when there isnt an actual constriction in the channel: that is just a more general harnessing of the principle of equistasis. In traditional passive designs, there usually is a constriction added (one side has larger openings than the other,or a flume or chimney is built) and when that dissimilarity in opening sizes occur, it is said that the Venturi effect is amplifying the system. In that, then, it appears the Venturi Effect is the effect of a physical funnel.Sparrow7 (talk) 09:21, 14 June 2008 (UTC)Sparrow7
Venturi effect to tackle back pressure in rotary discharge valve.
I have a problem which I think I can use the venturi effect to overcome it.
The pneumatic conveying pipe that sweeps away the discharge the rotary valve discharge of light materials (husks and dust) above it does however create a back pressure that prevents the light material from dropping down to the pneumatic valve below it. In the worst situation, it actually creates an upward draft that force back the light materials. I think I can constrict the airflow of the pneumatic pipe at the front of the point of rotary valve diccharge discharge so that the vacuum or reduce pressure created will be able to suck back the light material, or at least reduce the back pressure.
Can anyone confirm this? —Preceding unsigned comment added by Xiaotingchum (talk • contribs) 09:57, 3 September 2008 (UTC)
Choked flow
Some extracts:
Before 26th January 2009:
The limiting case of the Venturi effect is choked flow, in which a constriction in a pipe or channel limits the mass flow rate through the channel, because the local pressure in the constriction cannot drop below the vapour pressure in a liquid. Limiting ventury effect is also associated with choked flow of compressible fluid through a convergent-divergent nozzle. Here the choked flow is a limiting venturi condition which occurs when the mass flow rate will not increase with a further decrease in the downstream pressure environment.
From 26th January 2009 (Version by Cousin Merle):
The limiting case of the Venturi effect is when a fluid reaches the state of choked flow, where the fluid velocity approaches the local speed of sound. In choked flow the mass flow rate will not increase with a further decrease in the downstream pressure environment.
However, mass flow rate for a compressible fluid can increase with increased upstream pressure, which will increase the density of the fluid through the constriction (though the velocity will remain constant). This is the principle of operation of a convergent-divergent nozzle.
It looks to me as though the later version is better in some ways but leaves out something that looks likely to be correct and important.
Man with two legs (talk) 13:44, 26 January 2009 (UTC)
- Hi Man. Your version is a significant improvement. The original comment about cannot drop below the vapour pressure in a liquid is nonsense. Choking occurs with gases as well as liquids. I suggest you delete the word environment from the expression downstream pressure environment. It is the pressure that is relevant. Dolphin51 (talk) 22:29, 26 January 2009 (UTC)
- Actually, they are not my edits. But I am not at all clear that cannot drop below the vapour pressure in a liquid is nonsense. In a gas, the corresponding limit would presumably be vacuum. It seems plausible to me that the speed of sound is not the only thing limiting flow. Man with two legs (talk) 13:18, 27 January 2009 (UTC)
Venturi formula? (closed outlet)
Hi I've been struggling to find a formula to compute the air mass flow through the throat of a closed outlet venturi tube. What I have is a reciprocating single cylinder air compressor that has a venturi tube at it's outlet with the outlet of the venturi tube flowing into a closed tube with a constant volume. Overall I'd like to achieve a plot of the mass air flow through the throat area of the venturi with respect to crank angle of one cycle of the compressor. The beginning pressure throughout everything would be atmospheric.
Thanks for your time & any replies or suggestions is appreciated,
-nick —Preceding unsigned comment added by Nar456 (talk • contribs) 04:08, 3 February 2009 (UTC)
the pulsus birefringens is not due to the venturi effect as said in the main article. the second pulse felt is due to the reflected primary pressure wave from the peripheries which returns to the palpating fingers - consistent with the observation that this pulse is better felt in the peripheries rather than the carotids. the pressure in the aorta is not any lower at any time because there is greater flow in it. the 'fall' is only in relation to the higher pressure that the heart is generating to put accross a higher volume of blood.Hgoel (talk) 16:44, 11 February 2009 (UTC)hgoel
A Question on Double Venturi
Consider a venturi (X1) followed by another pressure reducing system (X2) (Not necessarily another venturi)
Given that if you apply 2bar pressure at the inlet of this 2nd pressure reducing system (X2) we get 1.24Bar pressure at the end of it.
Then what should be the pressure applied at the start of system (X1) to get the 2bar pressure at the start of (X2) if these two systems are connected in series in the sequence X1---X2.
Reply on pashu4you@yahoo.co.in
Why is it called the 'Venturi' effect
the article doesn't mention why it is called the Venturi effect. —Preceding unsigned comment added by Fintim (talk • contribs) 13:57, 9 October 2009 (UTC)
Examples - Air flows over the top of an aircraft wing.
Air flows over the top of an aircraft wing. The stable air around the plane and the foil above the cord line of the wing create a venturi around the wind going directly over the wing. Hence creating a low preasure on top of the wing lifting it upward.
This is not a good example of venturi effect. From this Nasa article: a wing section isn't really half a Venturi nozzle. nasa_airplane_bernnew.html Jeffareid (talk) 01:28, 28 March 2010 (UTC)
- I agree with Jeff. In fact, a lot of the so-called examples of venturi effect listed in this article are not really examples at all, or at least not good examples. I recommend a thorough review of all the current examples to remove those that don't belong here. Is there any opposition to such a review? Dolphin51 (talk) 07:03, 28 March 2010 (UTC)
- I agree with Dolphin51's proposal to review the article to weed out unwanted "examples" of venturi effect. Salih (talk) 07:22, 28 March 2010 (UTC)
- The wing reference is now removed. I leave it to the experts here to remove the other invalid examples. Jeffareid (talk) 10:13, 29 March 2010 (UTC)
- I agree with Dolphin51's proposal to review the article to weed out unwanted "examples" of venturi effect. Salih (talk) 07:22, 28 March 2010 (UTC)