I am very impressed. I love the way you explain this and your voice is conducive for effective teaching. Thank you. Anastasia
@roberthopkins79843 жыл бұрын
Thank you for your invaluable tuition. I have learnt a lot in a short time. I am currently learning to drive excavators, and rather than just drive them I with to have a better understanding of how they operate. And I have also done engineering many years ago at college, and watching these videos has helped answer a few questions; not just in hydraulics but in electronics also.
@coolkid97704 жыл бұрын
The clearest demonstration ive come across, thank you!
@snazakat9211 Жыл бұрын
I’ve only learned from this channel of nice devoted engineers. Seen these videos several times. Thank you thank you
@bertusvandewetering30153 жыл бұрын
Very cool video with a great explanation of the concept! Does anyone know any open-source software that is able to create circuits similar to those in these videos, where you can play around with fluid flow, resistances, tube sizing and other potential circuit components? Thanks in advance!
@hatimosman896 Жыл бұрын
Thank you guys your vidoes are the best realy great explanation and informative way of represnting that system wish you all the best and keep up the good work me as a fresh mechanical engineer find these videos so helpful just please dont ever stop
@troubledsole91042 жыл бұрын
I had a system with parallel circuits for cooling. I added throttle valves for each leg to balance the flow in the branches.
@KevinNguyen793 жыл бұрын
Great example! In the case where the tube was undersized for the pump, which allowed a circuit pressure to open the 200 psi check, is there a heat concern in those applications? Is there a way to calculate the amount of heat that would be created due to the extra friction?
@hydengineersmz34757 жыл бұрын
Thank u very much . They said fluid power is not complicated but sophisticated Eng. salim from Iraq. Baghdad
@lovrorb7 жыл бұрын
In real life system you usually have a main valve (electro-proportional directional direct acting or pilot operated) with several sections. On every section max flow can be adjusted by means of precise pressure drop adjustment which limits out the flow on maximal spool displacement (biggest orifice opening) by pressure drop to flow equation. That way, flow can be varied by differeny current signal to the solenoid. If total maximum flow of all movents is lower than maximum flow that pump can give, all movements can be operated at max speed simultaneously. If not, what I usually do is implementation of MULTI OPEARATION function in the PLC which limits some current signals and/or prioritazing some movements. Otherwise, flow will go to movement that reqires most pressure first...and so on, total chaos :) Of course, it's not that simple, you must account for pressure drops generated only by flow through the component itself, like hydraulic motor, which completely unloaded spends more pressure on higher flow/speeds. If the pump is LS compensated variable displaced, idle pressure setting (the one which it'll maintain when no movements are initiated, and/or add up to the highest combined LS signal from "heaviest" movement) must be set higher than flow adjustment valve. Different flow rates can be acquired in many ways, depending on the producer, another way would be different/unevenly machined orifices
@lunchboxsessions7 жыл бұрын
Wow that's a super fantastic explanation. Thanks for sharing Lovro.
@lovrorb7 жыл бұрын
And thank you Carl (I guess) for this great animations. I've seen most of your videos, and although I understand the topic quite well already, I enjoy in this visualizations. As a electrical/controll engineer starting to work as a commissioning engineer for complex offshore cranes about a year ago, I didn't know anything about hydraulics and I had to learn a lot the hard way. If only I found this channel sooner :) However, there is is still one more (basic) thing that is bugging me, I found it important for understanding, not really for practice. I'm sure that the explanation is simple though. I would be very thankful if you could give me an answer, or even better, if you make a video about it. I will c/p the question I made some time ago on one forum. There was a huge interest in topic, I got a lot of people to think, but nobody could give me an actual answer! I'm sure many people here would be interested as well :) Here's the c/p "Hi everyone, I have some uncertainties in understanding the orifice pressure drop equation. First of all, I perfectly understand why do we have a certain pressure drop across the orifice, speed increases on the cost of the pressure drop according to formula (In ideal situations with no turbulence/viscosity factor Cd would be 1), but after the normal flow area is restored and velocity returns to original value, shouldn't the pressure increase (at the cost of kinematic energy) and end up restored by the very same formula again? (In ideal conditions, I understand there are certain losses). Does the pressure restore after it passes the orifice, and if not, why not? I'm sure I'm missing something here. I try to google for this but didn't find the info I need. Is the only pressure drop here related to losses? If so, I don't see the formula formulated in that way, it is based on pressure drop across the orifice because of gain in speed. Following that logic, after the speed is back to pre-orifice one, shouldn't the pressure be restored (minus the losses)? What would be the formula if the system is ideal (no losses)? p1=p2? Again, there must be some simple thing I'm missing here but if someone could give me an explanation of this, it would be great :) p.s. the source I found mentioning this pressure restoration, but then not including it or saying anything about it in their formulas! neutrium.net/fluid_flow/calculation-of-flow-through-nozzles-and-orifices/ Thanks in advance, L"
@lunchboxsessions7 жыл бұрын
Well this is a deep subject. I'll just tackle a little bit of your question for now. After the orifice, one in a series of resistances is now behind the flowing hydraulic fluid molecules. The fluid is on it's way back to tank (atmospheric pressure usually, and also a low potential), and so maximum circuit pressure (potential energy) is highest at the pump outlet (for many/most systems, when functioning normally) and all other orifices are pressure drops, as fluid moves back towards the tank. This is very much the same as for voltage. Potential energy (voltage) in an electrical circuit is highest before electrons flow through a resistance on their way to the neutral/ground pole. Energy losses are permanent in a hydraulic system if heat was created/radiated outward, due to friction. The only time that I am aware of, that pressure is the same after an orifice as before, is when no flow is occurring (Pascal's law). I am speaking in general terms around your complex question. So I will give it more thought yet, especially where you are comparing only pressure to speed.
@lunchboxsessions7 жыл бұрын
- Carl
@lovrorb7 жыл бұрын
Thanks again! I get the general idea and I understand the concept in case you have only a pump and an orifice. You need some pressure/force to squeze the fluid through the small opening but on the orifice outlet you have tank connection. It gets a bit fuzzier when you have more complex system, like flow-metered directional valve and an actuator/load after it. Of course, it's understandable how the pressure drops are pressure losses, which translates to energy losses in form of heat. The funny thing is that I understand intuitivly these pressure drops accross the orifice (it makes sense), but the way most sources are explaining why do we have pressure drops is Bernoulli equation, and Bernoulli equation also mandates that after passing through the narrower are, the pressure will rise once again, but it doesn't, it is converted into heat. Simple question that kinda gets you thinking :) We have 2 full time hydraulic designers in our office. I asked them both the same question, and surprisingly, nobody could give me an answer. They told me I got them thinking now. When they were learning about this in their study days, they simply excepted the common explanation, without thinking too much deeper. Would be great if you could make a video about it one day!
@henrykraft36464 жыл бұрын
I'm interested in the dynamics of a unified lifting system of say, four parallel circuits. It seems that when a single load is evenly distributed amongst the four cylinders, the cylinders will act in unison. However, in real world circumstances, rarely are the loads equal. How do I lift an uneven load at a uniform rate? The "path of least resistance" doctrine seems to indicate that when using the parallel circuit from a common manifold, I will lift the lightest loads first. Imagine uniformly lifting a baseball bat laying horizontally using four cylinders spread somewhat equidistant. Thank you! This is a fascinating series.
@romanibukharst95178 жыл бұрын
Thank you. Really informative explained in a easy way.
@tankyouaa87144 жыл бұрын
thank you this is Hassan from Eritrea
@ΠΑΝΑΓΙΩΤΗΣΚΟΝΙΔΑΡΗΣ-ω5φ5 жыл бұрын
I have a question..if we install smaller diameter pipes, would not that mean that the velocity of the oil would be increased in order to maintain the flow?
@insideengineering24906 ай бұрын
Sir Can you guide me which software you are using to design hydraulic system
@mangie21784 жыл бұрын
Interested to see how this would change when regulating gas, rather than liquid
@oliverdiaz51222 жыл бұрын
Fuel lines going to the engine normally has inline filter with pressure gauges upstream and downstream. What does it indicate if both pressure readings are equal?
@VivekAnandJ3 жыл бұрын
Wonderful video. Thank you so much. I however have a doubt. When larger pump is used and 279 PSI pressure is in system what happens on the output side? Since both lines join at one junction, won't the output from 200 psi line build back pressure on the 100 psi one effectively shutting it? Or since path of least resistance is towards the tank both lines will merge?
@elouaer3abdallah8263 жыл бұрын
sir please with which program you create the hydraulic simulation
@mostafahemati53458 ай бұрын
Excellent
@cck07287 жыл бұрын
As usual excellent video. You are explaining complicated things in a very easy way . Thanks for your excellent work. I have two queries: 1) For the first case, Why the (200*300: 500) psi pressure is not reflected on the gauge as this pressure would be present on the junction of the two lines? 2) Is there any general formula to calculate for any pipe, @ which maximum flow the pipe will start choking/restricting the flow? Thanking you for sparing your valuable time.
@jamalasalat36603 ай бұрын
I have a question, if the psi were all the same and all open valves so nothing restricting the fluids flow, would the fluid flow thru all cylinders equally? Also assuming there were pistons at the end of each cylinder, would all three cylinders have the same output force?
@c.nagchowdhury64125 жыл бұрын
Nicely explained👍
@dakshsoni7 ай бұрын
I want to simulate circuits like this can you suggests some software
@imoath_s53022 жыл бұрын
Hello! What is the program used
@SampaioRoan3 жыл бұрын
i love technology, thank you sir
@vanillapapaya99382 жыл бұрын
What softwere do you use for simulation?
@KalShaen3 жыл бұрын
The spring loaded valves in the first two should be open when the pressure of the system exceeds their rating :p
@ابوحارثالهيتي2 жыл бұрын
i need any simulating program for hydraulic system,,, need a help
@engindeniz11753 жыл бұрын
What if we install shut off ball valve just before the 100psi c/v and not fully open it, but open it like %30. Would the system pressure increase? I am curious, if we do it for the initial scenario, would we reach higher pressures?
@islamtaha64146 жыл бұрын
Think you so much
@fionatirmizi44463 жыл бұрын
How do you connect in parallel when you want to operate multiple functions at once? a Crane for example. I want to lift and extend a boom at the same time. which valve will be used and how will the cnnections be made?
@msm82123 жыл бұрын
Thanks for your videos. @5.43, is the pressure reading is 279 or 379 PSI?
@odungbedavid11936 жыл бұрын
fantastic lecture
@akyl_tech4 жыл бұрын
such a good video material thanks a lot
@learnmechatronics25454 жыл бұрын
can i download lunchbox software ,if yes ,how ?
@dpbq7 жыл бұрын
what software do you use to simulate this? thanks!!
@lunchboxsessions7 жыл бұрын
Each simulation is built from scratch, using our own specialized tools built on standard web technologies (SVG and JavaScript). Our animators draw out all the shapes, and then write custom code to animate them. I hope that answers your question!
@scass1100 Жыл бұрын
Seeing these videos makes me release how shit my education was
@Ronak.Purohit2 жыл бұрын
What is the equation to determine the percentage of the flow sharing?
@ajinkyasutar53764 жыл бұрын
It's just amazing
@braveecologic20304 жыл бұрын
Hopefully someone will answer accurately: if I put a 600 resistance in the single line after the the 3 parallel loads, would that allow all loads to open? And the total supply pressure in the single line before the loads would be 1200? Further, if I put a restricter of 200 after the 100 load and a restricter of 100 after the 200 load, would that also give me flow through all lines? If so, is that more efficient or less efficient way than undersizing pipes?
@michaelfinck49944 жыл бұрын
To your first question, no. The 600 would be in series with the check valves above so would add to the upstream pressure. Ie with both taps open, pressure at gauge would be 700psi. With both taps closed, gauge would show 900. Second question, yes that would mean all valves open and flow splits evenly between the 3 lines.
@maxz38093 жыл бұрын
According to Bernoulli's principle, when you increase the pipe diamter, shouldn't the pressure increase instead of dropping??
@KalShaen3 жыл бұрын
That could be correct depending on the system, but generally no it's not correct unless your volumetric flow rate is increased by a larger amount than the ratio of your pressure to your flow in your equation... (not sure if I explained that well)
@multiforc2713 жыл бұрын
please fix the mic noise ! your content is amazing and useful, but the constant noise is killing me and won't let me focus !
@friraider46 жыл бұрын
Can aplicating in high pressure washer?
@dreamshop69163 жыл бұрын
Sir please explain wagon tippler ckt
@Mech.Masters6 жыл бұрын
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?
@mattw13935 жыл бұрын
Mech E no because there is no flow through the gauge.
@juseongseok80086 жыл бұрын
Many thanks keep it up.
@blmaan92996 жыл бұрын
Sir according to ypu is ni back press then pressure would be zero but if i cut pipe just after valve there would be pressure so how this is hapening. In daily use positive displacement pump after valve we still get pressure same like if wu squze the pipe we get more pressure outside????
@lettoalex13166 жыл бұрын
what software that you used for design that schematics ?
@lunchboxsessions6 жыл бұрын
See here: www.lunchboxsessions.com/help/what-software-do-you-use-to-make-the-simulations
@nageshalla58525 жыл бұрын
Can any one answer please From a compressed air tank 4 pipes all of different diameters are emerging and what will be the pressure ,flow rate ,velocity from each pipe
@midwest97575 жыл бұрын
It will be 5 12 9 and 33
@danielbuckner21674 жыл бұрын
@@midwest9757 😆
@santoshupashi18577 жыл бұрын
hi sir.. please explain one complete industrial applications
@michaelzajac52848 жыл бұрын
How to Download it? I want to study and I watch at your movie.
@lunchboxsessions8 жыл бұрын
Hi Michael. We don't have any way to download these videos, but there are lots of "youtube downloader" websites. Good luck!
@michaelzajac52848 жыл бұрын
Aw...
@shengjingbo87258 жыл бұрын
I am the first
@wijanarko_aydk46785 жыл бұрын
hexindo belum tidur
@mmb8114 жыл бұрын
drop the background NOISE (music) it makes the video almost UNWATCHABLE, hence the DOWN THUMB