"can you see this outlet diagram , no , such a big diagram you cannot see, letters i'l be writing , letters i'l be writing , but can you see this diagram ? , OK "...priceless :) , legend
right brother, i have the same doubt, due to suction water when reaches the inlet tip , attains radial velocity, otherwise these velocity diagrams at inlet and outlet will not be in same plane. Water enters axially but at inlet tip velocity are in same plane as outlet plane that is radially.
Prof. S.K Som, you are SOOOOOOOO knowledgeable it blows my mind. Thanks a lot for these lectures. God bless you
"can you see this outlet diagram , no , such a big diagram you cannot see, letters i'l be writing , letters i'l be writing , but can you see this diagram ? , OK "...priceless :) , legend
Its adding me knowledge through watching this video 🤝🤝
You are a revolutionary teacher S K Som Sir.👌
this lecture is of immense help to all the students, thanks a lot.
Thank u so much for explaining centrifugal pump concept very clearly sir...
Are manometric and hydraulic efficiencies the same?
Dhanyawad Sir
18:29
the fluid enters radially not 'axially'. please clarify .
Sumit Narayan 👍
fluid is flowing radially from eye.
fluid ENTERS the eye axially and exits the impeller blade radially IF you have a radial flow impeller
Thank u sir .. the content was really good and u explained it well.. it proved helpful :)
Is centrifugal head and mechanical head of impeller are equal ( physically and mathematically)?
if water enters axially at blade inlet then these velocity diagrams at inlet and outlet are not in same plane?
Great lecture thanks a lot .
Very nice 👌 sir
Sir one question?
How we draw velocity triangles
Please explain, how it to be drawn
great explanation!
the fluid enter radially
right brother, i have the same doubt, due to suction water when reaches the inlet tip , attains radial velocity, otherwise these velocity diagrams at inlet and outlet will not be in same plane. Water enters axially but at inlet tip velocity are in same plane as outlet plane that is radially.
Fluid enter axially, leaves radially
overall efficiency = mano effi× mech effi × volumetric effi. @27:44
well explained!
Thanks alot
to what year of study this course is prepared?
thanks in advance
ibrahim osamaa 2nd Year (4TH semester) or 3rd Year. Could be either. But I guess its most probably a 3rd year course.
I'm currently second year 4th semester but we only focused on non-compressible flow
+tashrique karriem its in 3rd year 5th semester for me
i like this vedio
Huttho