I respect you, sir. I appreciate these videos immensely. As a hard working and inventive entrepreneur, I must say, you have created the path of least resistance to an extremely practical education, on this, and apparently other subjects for so many, and invariably many more to come. I am grateful to you, and regard you as a champion in mind, spirit and action. With that said, I'm sorry someone has apparently given you the absolute worst impression of Juggalos. Hell, maybe even several someones. However, the acts (there are many beyond ICP) associated with this fan-base are the sole guides responsible for countless people having survived extreme emotional stress and murderous or suicidal thoughts. These artists are heroic and brave in ways only ignorance can dismiss, and that is basically the whole point. I have nothing but love for you, and shall continue to subscribe and cherish these lectures. Thank you for all you do
Is the flowrate (Q) across a flow control valve proportional to the pressure difference (ΔP) across the valve or is the flowrate (Q) proportional to the square root of the pressure difference (√ΔP)? If instead it is a linear relationship, how do achieve this if in general, flowrate (Q) is proportional to square root of pressure difference (√ΔP).
Suppose I have a control valve whose upstream pressure is fixed. Now if I open the valve, flow increases, you restriction will decrease so pressure downstream will increase. Overall pressure drop will decrease. But how is the flow increasing despite of pressure drop decreasing.
hello sir, i really love your lesson. i dont know how to say it right. i hope you can include load cells including calibration.thank you and more power
Sir,It would have been much better if you mention the key characteristics or important informations in written form in the videos,its tough to catch all the informations you says....Btw the video is very helpful,thanks.
Agreed. This is one of my earlier videos and I've learned to include a better objectives summary. Additionally I've started producing free study guides. Check out some of the new ones for examples. Glad you're making use of this material!
very informative . Reducing flow by a valve is cheap and efficient , what if i reduce the speed of a motor by a vfd will i get the same resulting pressure ? thanks in advance.
Remember that pressure is a load induced phenomenon. As long as the load induced pressure is inside the range of the pump at the reduced rotational speed it should work.
Normally flow control is achieved by reducing the cross section through which the oil is flowing. But continuity equation states that product of Area x velocity is constant through out the tube. So when area is reduced, velocity increases and flow should remain the same. Then how does reducing the cross section helps us in flow control?
There is not continuity. A relief path exists. Any flow not traveling through the flow control valve is bypassed to tank. That's really the fundamental takeaway about restriction style flow control valves. Also understand continuity assumes laminar flow. In reality you cannot expect to force 500gpm through a 1/4" diameter tube without it getting a little turbulent.
Hi Sir I want to ask a question, How the flow rate across the flow control valve increases by increasing the pressure difference across the valve, however when the pressure increases upstream the relief valve opens more and more fluid goes through ? the logic say when the pressure difference increase , less flow across the valve. Am i right or there is a false understanding in any part ?
I don`t understand , the positive displacement pump delivers a constant discharge say 2 gpm ,and after the flow control valve it becomes say 1 gpm ,where does the other gallon go ?? and many thanks for the video
I love the juggalo comparison. Fantastic.
I respect you, sir. I appreciate these videos immensely. As a hard working and inventive entrepreneur, I must say, you have created the path of least resistance to an extremely practical education, on this, and apparently other subjects for so many, and invariably many more to come. I am grateful to you, and regard you as a champion in mind, spirit and action. With that said, I'm sorry someone has apparently given you the absolute worst impression of Juggalos. Hell, maybe even several someones. However, the acts (there are many beyond ICP) associated with this fan-base are the sole guides responsible for countless people having survived extreme emotional stress and murderous or suicidal thoughts. These artists are heroic and brave in ways only ignorance can dismiss, and that is basically the whole point. I have nothing but love for you, and shall continue to subscribe and cherish these lectures. Thank you for all you do
I saw almost all hydraulic videos in this channel , they are good and useful. Also make a video on hydraulic fittings.
I just found you today!!! i have needed these videos for so long
Much appreciated
Very nice! Glad you’re making use this material, tell your friends!
Very nicely explained. Thank you so much...!
I fucking died during the juggalo reference 😂
pressure is speed....flow is force. thanks😎😎😎😎😎
Very good lesson indeed.
You are amazing, iv learned sooo much. Thank you thank you thank you
Awesome Content
Great job sir
good explanation
Great video thank you 🙏 very much ❤️
Great video! loved the detailed info.
Sooner or later thoes juggalos are going to see your video of you down talking them, and they will throw you in hell's pit!
Is the flowrate (Q) across a flow control valve proportional to the pressure difference (ΔP) across the valve or is the flowrate (Q) proportional to the square root of the pressure difference (√ΔP)? If instead it is a linear relationship, how do achieve this if in general, flowrate (Q) is proportional to square root of pressure difference (√ΔP).
How are you controlling the output pressure? By varying the valve opening?
good work. thanks a lot
Suppose I have a control valve whose upstream pressure is fixed. Now if I open the valve, flow increases, you restriction will decrease so pressure downstream will increase. Overall pressure drop will decrease. But how is the flow increasing despite of pressure drop decreasing.
Downstream pressure is a load induced phenomenon.
Thanks sir.
hello sir, i really love your lesson. i dont know how to say it right. i hope you can include load cells including calibration.thank you and more power
Thank you sir for your lessons, I'm upgraded through your lectures
Great, thanks a lot.
Sir,It would have been much better if you mention the key characteristics or important informations in written form in the videos,its tough to catch all the informations you says....Btw the video is very helpful,thanks.
Agreed. This is one of my earlier videos and I've learned to include a better objectives summary. Additionally I've started producing free study guides. Check out some of the new ones for examples. Glad you're making use of this material!
very informative . Reducing flow by a valve is cheap and efficient , what if i reduce the speed of a motor by a vfd will i get the same resulting pressure ? thanks in advance.
Remember that pressure is a load induced phenomenon. As long as the load induced pressure is inside the range of the pump at the reduced rotational speed it should work.
Normally flow control is achieved by reducing the cross section through which the oil is flowing. But continuity equation states that product of Area x velocity is constant through out the tube. So when area is reduced, velocity increases and flow should remain the same. Then how does reducing the cross section helps us in flow control?
There is not continuity. A relief path exists. Any flow not traveling through the flow control valve is bypassed to tank. That's really the fundamental takeaway about restriction style flow control valves. Also understand continuity assumes laminar flow. In reality you cannot expect to force 500gpm through a 1/4" diameter tube without it getting a little turbulent.
Got it sir.
VEry nice
Shouldn't the flow control be on the discharge side of the cylinder? Is either way acceptable? What are the advantages of each configuration?
+John Griffin Check out this lecture: th-cam.com/video/VFtRNAu3_wg/w-d-xo.html
it explains several common flow control methods
How does pressure drop reduces flow rate ?
Hi Sir
I want to ask a question, How the flow rate across the flow control valve increases by increasing the pressure difference across the valve, however when the pressure increases upstream the relief valve opens more and more fluid goes through ?
the logic say when the pressure difference increase , less flow across the valve.
Am i right or there is a false understanding in any part ?
th-cam.com/video/gWt_nkKKxEE/w-d-xo.html this might help you
I don`t understand , the positive displacement pump delivers a constant discharge say 2 gpm ,and after the flow control valve it becomes say 1 gpm ,where does the other gallon go ?? and many thanks for the video
The excess is diverted to tank through the pressure relief valve.
that is nice!
I have one question how you decided for 500psi input output will be 300psi
In this application we're just assuming the load induced pressure will be 300psi.
Thanks for quick reply.please can you tell how to design output pressure.this will help me a lot
Output pressure is dependent upon:
1) applied load
2) actuator dimensions
Check out the "Pascal's Law" lecture at: th-cam.com/video/YNoPs9kH7Ao/w-d-xo.html
I cant liston. your voice 😅