Pressure and Flow in a Hydraulic System and Their Basic Relationship
Вставка
- Опубліковано 3 кві 2019
- Website: klettetech.com/
Instagram: / klettetech
This video is about Relationship Between Pressure and Flow in a Hydraulic System. It discusses how pressure behaves with there is no flow and when flow is happening. I demonstrate this both on the board and on the transparent hydraulic trainer.
For more information on this and other fluid power topics please check out my book published by American Technical Publishers (ATP).
www.atplearning.com/product/10...
Instrgram: / klettetech - Наука та технологія
Absolutely phenomenal explanation of these concepts. Thank you so much!
Very good explanation..thanks
You are a wealth of information for me, I’m a new instructor in my trade school and your series has helped me tremendously. I can’t thank you enough
Great to hear! Where do you teach?
@@KletteTech nyc elevator union .
@@Tmrfe0962 Awesome. Check out the book I wrote for more info. The third addition is coming out next year.
www.atplearning.com/product/1028/fluid-power-systems
What a fantastic explanation, I wish I had this knowledge when I was doing fluid mechanics subject in uni.
thanks
Another great explanation. Keep up the great work.
Thanks Mike.
wow, such a beautiful scinece, I have just started to learn about hydraulic systems and by watching this video, i'm sure i'm gonna have so much fun leaning it, it's lovely.
Glad you enjoyed it!
Great, this video has helped me to understand conceptually.
Appreciated 👍
Me too. I cannot thank you enough either. You explain very well and succinctly. I have subscribed. I also am considering buying your book Fluid Power Systems.
Thanks for the comment and thank for considering buying the book. I like it haha.
This was very helpful. Thank you!
Glad it was helpful!
Hey KleteeTech, no body could have explained this better than you. thank you so much!
I have a question that i don't understand for some time.
1.the pressure in the house in the small pipes and the big pipes is identical?
2. In my house I have a pressure relief valve and it reduces pressure in my house system, how does it happen? the force that uses to lift the spring makes pressure loss ? -- the energy is being lost? therefore reducing pressure? after the relief valve?
Very educative
Thank you so much..there are very useful information in this video for me..
Glad it was helpful!
Thank you. Amazing and very helpful video.
thanks
Very knowledgeable. Thanks for sharing it.
So nice of you
Thanks for the clear explanation
Happy to help
Very nicely explained
Thank you so much 🙂
good explanation
Thanks
Excellent video
Thanks
Nice explanation.
Glad it was helpful!
Tks so so much man✌️
Your Welcome
Does high pressure increase the flow rate?
thank you very much
You are welcome
Very thanks Sir
Most welcome
Great video. One question, my 5th wheel slideout and landing legs are operated by the hydraulic system. There are no pressure gauges on the unit. Am I correct in thinking that there should be no pressure on the system if the pump is not operating? I had a hydraulic hose burst and the front landing legs were holding the trailer up because it was unhitched from the truck. I wondered if that meant the hydraulic system had to be pressurized anytime a landing leg was down or a slide-out was operated. Also how can I make sure that if I need to unscrew a hydraulic hose that their wouldn't be pressure behind it?
The point is, not only a pump creates a pressure in a system, but the gravity does also. So, you WILL have a pressure in the system ones your outriggers down and supporting your trailer.
@@sergeymariasov6845 Thanks for the answer. I am guessing with just gravity pressure there would not be much in this case.
👍
Really excellent video. If your pump has higher flow capacity than the piping system allows to fill the cylinder, the pressure in the upstream piping would be higher and the pressure regulating would have to operate? Is that correct? Thank you.
Sound right
Does anyone have the force vs displacement graph of a simple manual hydraulic jack ? I mean how the force changes when we use and press on the lever of a hydraulic jack ! I want to know the complete scenario : before pressing the lever , while pressing the lever and raising the object , after raising the object! I want to know how the force and pressure of fluid changes during the whole process!
Smart
you are awsome
Thanks
How to operate 8 cylider at differat preassere 8 Lpm capacity kindly explain
funny how this principle is similar to relation between voltage and current in electricity, thx for great videos and tutorials
That is exactly right. They are both used for the same thing. Transferring energy from one point to another. Different tech but same idea.
Thank you for a great video. I would like to construct a similar hydraulic circuit for instructional purposes. Where did you purchase the hydraulic equipment in the video?
The Transparent equipment is from SMC.
Where do you teach?
@@KletteTech Currently in Ireland 👍
you are actually very good, but one small clarification (sure you are aware of that): pump does not create pressure. Pump/EM creates flow. Pressure is created by obstacles in the hydraulic system; pipes and their resistance to flow, valves, pipe curves and (most notably) cylinders with their loads or hydraulic motors and their loads. Cheers, very nice lectures.
I understand what you are saying but I disagree. The pump will create just enough pressure to create flow. The resistant what to flow determines the pressure and the pump has to be able to "force" the oil to flow. That force is pressure. This is commonly mis understood. That is one of the main reasons pumps have a pressure rating
What will happen if we are accelerating the load? Will the pressure of oil increase?
No, speed or acceleration is not a factor.
Very interesting🙄
Glad you think so!
Hello sir I need your help in understanding the hydraulic scheme Is it possible to contact you?
Send me an e-mail
@@KletteTech Your emil please
@@sahraouioussama4747 pklette1319@gmail.com
Pressure is the resistance of flow.
not a bad explanation except pumps only create flow, not pressure. its resistance to flow that creates the pressure. also for there to be flow there must be a pressure differential.