If a direction changing flow is associated with a high velocity, it always leads to energy losses. So it is clever to covert the dynamic part to static to minimize such losses.
witch 1 is ur 2nd video? could've/should've put it in the description or name the 2nd vid the same with 2/2! Spellcheckers are free; every browser has free add-ons for languages, spelling, text-2-speach that record MP3s. We engineers are the brains of factories, and can't allow any shortcomings!
Assuming steady-state operation, mass flow rate does NOT increase within the pump. The impeller imparts energy to the fluid which generates a high velocity; this velocity energy is converted to pressure energy within the pump casing. The pressure reaches a maximum at the pump outlet where the conduit in the casing has largest diameter and is aligned axially with the outlet piping. Mass and volumetric flow rate remain constant throughout this process.
Please watch the second video on Centrifugal pumps. You can get pump performance curves from the manufacturer. After deciding your system curve, you can select proper impeller.
witch 1 is ur 2nd video? could've/should've put it in the description or name the 2nd vid the same with 2/2! We engineers are the brains of factories, and can't allow any shortcomings!
Nice video, but you have an incorrect representation of forward curved blades. Outlet angle is ok, but inlet angle should still stay less than 90° (you just made a mirror image, that is not how it should be). Also, backward curved impellers are not mostly used because of power curve, but because they are the most effecient ones. Your motor will not burn out unless you are operating out of the designed range
This may seem like a silly question but at 3:45 what do the variables 'h', 'g' and 'b' represent. I'm guessing 'h' is the change in pressure? but what about the other two?
in one of the other lectures they explained that the volute casing is of increasing area of cross-section because it reduces flow velocity as we move along the direction of flow which in turn increases pressure energy and thus helps in overcoming resistance now they are saying flow velocity remains almost constant ? can you explain which one is true?
dear "learn engineering'' I would like to ask you kindly to provide me with a written material for assembly and disassemble centrifugal pump. In addition, common problems for this kind of pump.
sir , How does the volute casing act as a diffuser ? ( and hence change kinetic head to static head ) . A diffuser should have only one inlet and outlet right ? ( Please correct me if im wrong ) But in this case the volute casing has multiple inlet points ( infinite maybe ) at all angular positions and only one outlet . Hence isnt the sole purpose of the volute casing to accomodate increase in mass flow rate ( coming in from different angles ) and hence to maintain constant flow velocity at all angular positions ?
witch 1 is ur 2nd video? could've/should've put it in the description or name the 2nd vid the same with 2/2! We engineers are the brains of factories, and can't allow any shortcomings!
Tiffany Edwards Cómo dicen los viejos mientras vivas bajo el mismo techo conmigo tendrás que obedecer y cumplir que cuando tengas tu casa o tu familia entonces si te tocará decir o exigir de como quieres que sea el comportamiento de tu familia en el hogar
i like your videos buy when you start with pump SUCK fluid from the eye on of the impeller, its just wrong and it misleads people whos looking for knowledge
Why is the mass flow bigger as the flow comes near the outlet? The same flow flows from starting point A to outlet B, how can the mass flow get bigger?
hello im wondering what is the effect of inlet head on the performance of the pump ? and what is the effect of change in kinetic energy of the fluid if the inlet and outlet pipe diameters changes from 25mm to 32mm? I need ur asistance asap please
1:26 to 1:30 -- "...along the length of casing mass flow rate increases..." Can anyone tell me why does the mass flow rate increase along the length of the casing?
Can anyone explain why tangential velocity at inlet = 0? How come he changed the angle of the fluid velocity at the inlet from some angle >90 to a right angle (3:16)?
If a direction changing flow is associated with a high velocity, it always leads to energy losses. So it is clever to covert the dynamic part to static to minimize such losses.
witch 1 is ur 2nd video? could've/should've put it in the description or name the 2nd vid the same with 2/2! Spellcheckers are free; every browser has free add-ons for languages, spelling, text-2-speach that record MP3s. We engineers are the brains of factories, and can't allow any shortcomings!
you have the voice of an angel.
'h' pressure head rise, 'g' is accelaration due to gravity, 'b' is width of impller blades.
Width being the axial dimension along the center of the impeller?
Assuming steady-state operation, mass flow rate does NOT increase within the pump. The impeller imparts energy to the fluid which generates a high velocity; this velocity energy is converted to pressure energy within the pump casing. The pressure reaches a maximum at the pump outlet where the conduit in the casing has largest diameter and is aligned axially with the outlet piping. Mass and volumetric flow rate remain constant throughout this process.
Thanks for uploading videos. Glad to hear more turbo machinery videos are on the way.
Love and respect from Bangladesh
Actors are starving. Please employ one for your narration.
Siri?
I think it's google translator's voice
L2farm
Usually reciprocating pumps are used for pumping concrete.
Please watch the second video on Centrifugal pumps. You can get pump performance curves from the manufacturer. After deciding your system curve, you can select proper impeller.
Ok
witch 1 is ur 2nd video? could've/should've put it in the description or name the 2nd vid the same with 2/2! We engineers are the brains of factories, and can't allow any shortcomings!
Nice video, but you have an incorrect representation of forward curved blades. Outlet angle is ok, but inlet angle should still stay less than 90° (you just made a mirror image, that is not how it should be).
Also, backward curved impellers are not mostly used because of power curve, but because they are the most effecient ones. Your motor will not burn out unless you are operating out of the designed range
Hi we couldn't find what is a parabolic flow pump. Could you please suggest some reference for this ?
great explanation
Great👍
This looks a lot like a Nautilus sea shell with a few mods. Nature as teacher.
This may seem like a silly question but at 3:45 what do the variables 'h', 'g' and 'b' represent. I'm guessing 'h' is the change in pressure? but what about the other two?
nice explanation
it's so amazing and very interesting, very clear
fantastic one.. thanx for sharing
in one of the other lectures they explained that the volute casing is of increasing area of cross-section because it reduces flow velocity as we move along the direction of flow which in turn increases pressure energy and thus helps in overcoming resistance now they are saying flow velocity remains almost constant ? can you explain which one is true?
Good video...thanks
waa cashar muhiim ah
great video.
Nice vid. But is it good for pump oil at high RPM?
If you want pressure, the answer from the video is "no".
Its fucking sick to see so many complaints against such a great explanation.
Very interesting
สุดยอดมากครับ อิอิ
Nice video
superb
dear "learn engineering''
I would like to ask you kindly to provide me with a written material for assembly and disassemble centrifugal pump. In addition, common problems for this kind of pump.
Excellent work but for my opinion if a real person talks it will be batter then a computer.
sir ,
How does the volute casing act as a diffuser ? ( and hence change kinetic head to static head ) .
A diffuser should have only one inlet and outlet right ? ( Please correct me if im wrong )
But in this case the volute casing has multiple inlet points ( infinite maybe ) at all angular positions and only one outlet .
Hence isnt the sole purpose of the volute casing to accomodate increase in mass flow rate ( coming in from different angles ) and hence to maintain constant flow velocity at all angular positions ?
One pump rest at base level and second one rest at a height of 150/2 ft.
Check 2nd video on centrifugal pumps to know more about this.
witch 1 is ur 2nd video? could've/should've put it in the description or name the 2nd vid the same with 2/2! We engineers are the brains of factories, and can't allow any shortcomings!
nice video
sir plze upload video on different type of bearing and its application
Awesome explanation..thanks a lot :-)
great stuff
do you people have a problem with the word 'the'
Tiffany Edwards Cómo dicen los viejos mientras vivas bajo el mismo techo conmigo tendrás que obedecer y cumplir que cuando tengas tu casa o tu familia entonces si te tocará decir o exigir de como quieres que sea el comportamiento de tu familia en el hogar
i like your videos buy when you start with pump SUCK fluid from the eye on of the impeller, its just wrong and it misleads people whos looking for knowledge
I would like this video if the Robotic voice was actually understandable, it's a simple subject made difficult by the voice.
Do you know any book i could use to get all this info? Thanks mates!
It is for agricultural purpose
Thank you
Thanks a lot
good one
super video
Why the Radial Blades should be unbalanced?
I do not understand at all.
Why should we convert dynamic to static energy by using casing ? At all why are we interested in converting dynamic to static energy ?
Sir, can we use two centrifugal pumps to lift water at a height of 150ft.
Can I ask you why there is no involute case in vacuum cleaners? Thanks in advance
good
Why is the mass flow bigger as the flow comes near the outlet? The same flow flows from starting point A to outlet B, how can the mass flow get bigger?
please make videos in Indonesian or videos equipped with Indonesian subtitles
Thank you somuch😁
are the inelet and outlet velocity in same plane?
what is the width of impeller b2??
Please sir, what will a continues increase in the rpm result in. Pls respond. Urgent.
I'm a farmer.
pressure will raise until pump material failure
(impeller)
can this pump be used for pumping cement plaster? thanks for the reply
No
hello im wondering what is the effect of inlet head on the performance of the pump ?
and what is the effect of change in kinetic energy of the fluid if the inlet and outlet pipe diameters changes from 25mm to 32mm?
I need ur asistance asap please
Hello sir , are you still there 🧐
how to lower the booster pump pressure on the reverse osmosis system ?
nice vid
thanks!
what is the b2 that appear in the equations?
Perfect! Thanks guys :)
Do you know how blade geometry design?
1:26 to 1:30 -- "...along the length of casing mass flow rate increases..." Can anyone tell me why does the mass flow rate increase along the length of the casing?
Ruben Contreras I think as there is increase in area which is leading to accumulate more mass
Good explanation but the computer voice is awful.
THANK.
Dear sir
I need impeller for diesel mono set 1500 rpm. 12 m head at 16 /l.sec discharge can
you help me please
what do you mean by b2 in last equation?
i think it's the width of impeller blade.
Can anyone explain why tangential velocity at inlet = 0? How come he changed the angle of the fluid velocity at the inlet from some angle >90 to a right angle (3:16)?
dooshtoomun At the inlet, flow is entered radially. This makes the tangential velocity zero.
I see. Thanks LE.
how do you get from the h,Q to the P,Q diagramm? P=h*g*rho*Q ?
this is a radial pump, not centrifugal
Mis-ter Row-bot, ple-eeze tawk nor-mall-ee like you were ay hew-man or dew naught tawk at awl
Hmm... seems like they employed Stephen Hawking for some reason. Not sure why....
Hahaha nice comment
3:54
For a minute there I thought I was watching some odd Anonymous video or something.
not an great explanation need more
Это то же са...мое
Geeze, what's with the robotic voice?
Pink sheep's voice
Wow, that audio was bad; way too robotic and choppy. Could not watch it.
Sir please Hindi mai bataeye ha
Ajaypandey
Don't be lazy. Use your own voice.
tai lo
bacot
स
The voice is annoying.
this video not sufficient for understanding...really
good explanation
Thank you