idk why im even paying for school when I can learn it all online anyway, oh wait everything is online cause COVID so im really just paying for nothing.
This video has cleared my many doubts on orifice, venturi tube and venturi nozzles, the HD animation along with the name and year the scientist worked on flow measurement was added cheery topping on this explanation video, many thanks to the person who made this highly educated video, please keep on making video just like this on different parts too...
Thanks for the brilliant videos, im studying electrical and instrumentation control at trade school in australia and our teachers are completely useless, thanks mate
Note for myself. When we add a measurement tool: orifices, that creates turbulence. Hence we add a nozzle, or even better than that: we use a venturi meter instead, lessening the turbulence.
💖 This is an inspiration for ME !! Even I make "INSTRUMENTATION VIDEOS". I hope I can emulate your presentation skills. All the best for your future videos ☺
@joepipe101: Basically it is possible to work with a venturi solution in this case. But also a Pitot tube solution comes into consideration. To figure out the solution that fits best we need further information. Therefor please contact your local Endress+Hauser representative in Canada.
Dear Mr Hagopian, we would be proud if you would use our videos in your course. Please contact our Sales Center near you (addresses.endress.com). They can provide you our measuring principle videos in several qualities. Please take care that you always have a reference to us.
It measures the discharge/Volumetric flow rate of the fluid. But I can't say that the Volumetric flow rate would be same throughout the cross section of the pipe because at other points of the pipe we shall observe much less pressure drop/ pressure difference . Then why do we need these measurement devices ?
We'd kindly ask you to contact your local Endress+Hauser support. There you'll find best assistance for the tailored solution. The contact details can be found here: www.endress.com/en/contact
Great works I really enjoyed every bit of this explanation.. Can you explain why differential pressure flow meters cannot measure mass flow rate directly thought they are dependent on the fluid's density. We know that change in the fluid's density will affect the meters readings then why it is not termed as mass flow meter and it is called volumetric flow meter.. Thanking you in advance...
This presentation was created in cooperation with an external partner (www.wiegaertner.com). They are working with a software called "Maya". For more information please contact our partner directly.
I'm the inventor of the joepipe technology and am looking for a way to measure air volume input for the combustion process. On the opposite end I would require a venturi flow meter for measuring flame exhaust of 2, 000 F. Would you be able to suggest what should be used here? Thankyou for your responce.
Pressure Gauges used in Hydraulic Machines have got a small hole of 1 mm dia, How does the gauge shows the correct value of pressure in system, there should be a pressure drop as it is also similar to orifice?
If you are talking about a loss of pressure due to a change of pipe size, we are definitely not able to compensate for the pressure loss created by the friction of the pipe. What the pressure instument shows is the instantaneous pressure measurement at that single point.
In minute 4:15 you read (and listen): "With this measuring principle all liquids, gase or stea can be measured...." ¿How can I measure pressure of a gas with a venturi principle?
For just measuring the pressure of a gas or other fluid you would install a pressure sensor - no need to consider a venturi. A venturi element generates a pressure drop with flowing fluid which allows to measure the flowrate when measuring the pressure differential up- and downstream.
+XyekiniX This depends on the type of diaphragma: Ceramic process isolating diaphragm. The ceramic measuring cell is based on the principle of a plate capacitor with an electrode on a meter body and a movable electrode on the interior of the diaphragm. Silicone oil or mineral oil are used as the standard filling oils for this measuring cell. A differential pressure (p1 ≠ p2) causes a corresponding deflection of both diaphragms. Both capacitance values are converted and are fed to the microprocessor of the transmitter as a digital signal. Metal process isolating diaphragm. The process isolating diaphragms are deflected on both sides by the acting pressures. A filling oil transfers the pressure to a resistance bridge (semi-conductor technology). The change in the bridge output voltage, which depends on the differential pressure, is measured and processed further.
Whoever did the CG needs a raise! Wonderful video!
IKR! I loved it so much
its ridiculously good
For real..
Second it..:)
OUTSTANDING short on Flow. Venturi and Bernoulli... pure genius. Thank you for posting. Really appreciate it.
This is great! It's so much easier to understand these concepts when you can actually see them in action visibly. Thank you for making this video!
The animation made a complex topic understandable at all levels.
Great Work
Wow. This video is freaking amazing! Everything I've done for the past 5 weeks of my fluid mechanics lab makes sense on a new level.
idk why im even paying for school when I can learn it all online anyway, oh wait everything is online cause COVID so im really just paying for nothing.
This animation from 12 years ago is Top Notch! Kudos to the developer.
This is a gem! This is why youtube exists. Thank you.
This is a beautifully made and educative video. Could be used in any engineering classroom. 10/10
Love how Bernoulli and Venturi's pictures were shown on the display
This video has cleared my many doubts on orifice, venturi tube and venturi nozzles, the HD animation along with the name and year the scientist worked on flow measurement was added cheery topping on this explanation video, many thanks to the person who made this highly educated video, please keep on making video just like this on different parts too...
Sorry for not being your customer but much thanks for saving my fluid mechanics exam.
This animation looks really good for 14 years ago.
lol never expected to understand the different pressure drop measurements through an advertisement
I learned a lot about engines thanks to the old 1950's advertisements from Ford and other auto companies that are now on UA-cam.
Ads are getting smarter
yeah i thought it was an academic video then towards the end i was like, wait a minute
@@TiberiusStorm ku iu
@@TiberiusStorm i HP ojok omikij
i think i'm falling in love with Endress+Hauser..... thank you, that was a magnificent explanation
Super technology since approximately 100 years ago
Wonderful video
basically i am from electronics, i was in ideal state of measuring flow
but this helps me a lot
thanks for the video...
Finally understood basic working of obstruction flow meter.. thanks a gazillion!!!
Thank you Endress+Hauser this is what I was looking for in my machine design, Fantastic.
This visual is better than classroom instruction
so helpful for studying , and aslo subtitle-translate option makes me understand this videos more easily. Thanks alot
thanks for this amazing video. what a difference animation makes in understanding things!!
Excellent explanation from this..kudos tho the creaters.... Now i get the difference of the flowmeters 🤩🤩🤩
Wow! Nearly all of the basics in less than 5 mins. :)
Just love the way you explained with awesome animation. Thanks...
Thank you for your interest! Please find the script in your inbox.
could you please send me the script for this
Please inbox your e-mail id to marcomm@in.endress.com and we shall share with you the same.
Excellent basic explanations Dr. mustafa
I fell in love with Ur channel...keep up the good work...
thank you so much for the conceptual clarity !!!!
Thanks for the brilliant videos, im studying electrical and instrumentation control at trade school in australia and our teachers are completely useless, thanks mate
this is similar to measuring current in a conductor by using a resistor. great video.
This video is not just informative, it's sooooo SATISFYING! 🩵
Note for myself.
When we add a measurement tool: orifices, that creates turbulence. Hence we add a nozzle, or even better than that: we use a venturi meter instead, lessening the turbulence.
Video is superb but some of my friends didn't understand bcz of the accent...still it's the best video 🔥🔥🔥
Turn on captions :D
Excellent Visual demonstration and clear explanation
Excellent demo on differential pressure creating device.
Cool Graphics!!
Thank you so much,, this makes it easy for one to relate the pressure and flow speed.
Parabéns pelo seu trabalho, de maneira muito dificultosa entendi, forte abraço amigo
fico feliz que tenha entendido, apesas das dificuldades se superou sz
thanks a lot for this video!!!!!! now I fully understand the principle of oriface plate
thank you for such great animation.
Thank you - great video!
💖 This is an inspiration for ME !! Even I make "INSTRUMENTATION VIDEOS".
I hope I can emulate your presentation skills.
All the best for your future videos ☺
Great Video, Thanks for posting!
Amazing explanation!
Great explanation 👍
Just made physics so wsimple. Thank you !
Seeing a 11 year old youtube comment on a 11 year old video made me really happy for some reason lol
thanks a lot for video. great animation
La ilustracion grafica dice mas que mil palabras.
@joepipe101:
Basically it is possible to work with a venturi solution in this case. But also a Pitot tube solution comes into consideration. To figure out the solution that fits best we need further information. Therefor please contact your local Endress+Hauser representative in Canada.
cool ilustration/animation. now i understand the difference :)
i love the transition. i love this video. im not going to fail...yeeeeei...
Thanks. This helped me to understanding of venturimeter and orificenmeter.
Very good video
nice and so informative video
Awesome video.!!
Great video and graphics. May I use and reference it as part of a course I'm teaching?
Dear Mr Hagopian,
we would be proud if you would use our videos in your course. Please contact our Sales Center near you (addresses.endress.com). They can provide you our measuring principle videos in several qualities. Please take care that you always have a reference to us.
Thank you, and of course E+H will be referenced/credited.
It's a wonderful and user friendly video
May I ask you the software that is used...Thank you
It measures the discharge/Volumetric flow rate of the fluid. But I can't say that the Volumetric flow rate would be same throughout the cross section of the pipe because at other points of the pipe we shall observe much less pressure drop/ pressure difference . Then why do we need these measurement devices ?
We'd kindly ask you to contact your local Endress+Hauser support. There you'll find best assistance for the tailored solution. The contact details can be found here: www.endress.com/en/contact
Great works I really enjoyed every bit of this explanation.. Can you explain why differential pressure flow meters cannot measure mass flow rate directly thought they are dependent on the fluid's density. We know that change in the fluid's density will affect the meters readings then why it is not termed as mass flow meter and it is called volumetric flow meter.. Thanking you in advance...
i wish my professors were this good!
Excellent video sir.
Thank you. I am going to us this video in the class I teach.
Wonderful video
god job..u make it easy to understand..thnks:)
First class animation.
عظمة ي بو عمو
wonderful videos, thanks alot!
can anybody tell me which Software is used for the graphic illustration.? Its simply beautiful.
This presentation was created in cooperation with an external partner (www.wiegaertner.com). They are working with a software called "Maya". For more information please contact our partner directly.
Great explanation and videos.
Thank you so much, it's very helpful
Beautiful Technology
Very helpful message
absolute tune at the start there!!
great content video.
Nice animation
Best video ever
excuse me but this video disagrees ua-cam.com/video/6n3pFFPSlW4/v-deo.html
Great explanation!
awesome video
very helpful basics
Nice Explanation..
amazing video
nice video.
invention from orifice to venturi..,
I'm the inventor of the joepipe technology and am looking for a way to measure air volume input for the combustion process. On the opposite end I would require a venturi flow meter for measuring flame exhaust of 2, 000 F. Would you be able to suggest what should be used here? Thankyou for your responce.
Pressure Gauges used in Hydraulic Machines have got a small hole of 1 mm dia, How does the gauge shows the correct value of pressure in system, there should be a pressure drop as it is also similar to orifice?
If you are talking about a loss of pressure due to a change of pipe size, we are definitely not able to compensate for the pressure loss created by the friction of the pipe. What the pressure instument shows is the instantaneous pressure measurement at that single point.
I love this !
nice pictorial information for our use.thankx
In minute 4:15 you read (and listen): "With this measuring principle all liquids, gase or stea can be measured...." ¿How can I measure pressure of a gas with a venturi principle?
For just measuring the pressure of a gas or other fluid you would install a pressure sensor - no need to consider a venturi. A venturi element generates a pressure drop with flowing fluid which allows to measure the flowrate when measuring the pressure differential up- and downstream.
wow, what an amazing video, Thank you so much for the upload, 5/5*
Excellent!
great video!!
I don't know how to feel about a video explaining 10 pages worth of university documents in 4 minutes
Great video.
Very helpful msg
thANKS a LOT
Very cool.
Concept is good
Thank you so much
Thank you, this was interesting.
How does the sensor measure the diaphragm displacement?
+XyekiniX This depends on the type of diaphragma:
Ceramic process isolating diaphragm.
The ceramic measuring cell is based on the principle of a plate capacitor with an electrode on a meter body and a movable electrode on the interior of the diaphragm.
Silicone oil or mineral oil are used as the standard filling oils for this
measuring cell. A differential pressure (p1 ≠ p2) causes a corresponding deflection of both diaphragms. Both capacitance values are converted and are fed to the microprocessor of the transmitter as a digital signal.
Metal process isolating diaphragm.
The process isolating diaphragms are deflected on both sides by the acting pressures. A filling oil transfers the pressure to a resistance bridge (semi-conductor technology). The change in the bridge output voltage, which depends on the differential pressure, is measured and processed further.
very nice
what's the function of stand alone restriction orifice?