As always..simplicity at its best... so glad to revise the relation for finding out optimum # of stages for a given overall pressure ratio the way I learnt it in first place... Rightly said, T2, at the exit of first stage shall be limited by available heat load cooling capacity of inter cooler so that is one of the crucial limiting factor for number of stages.. [Yep last equation should be Temp ratio raised to (n/n-1)]
What a nice video. Clear
As always..simplicity at its best... so glad to revise the relation for finding out optimum # of stages for a given overall pressure ratio the way I learnt it in first place... Rightly said, T2, at the exit of first stage shall be limited by available heat load cooling capacity of inter cooler so that is one of the crucial limiting factor for number of stages.. [Yep last equation should be Temp ratio raised to (n/n-1)]
Great Work.I would like to know the pressure ratio relation can be used for Centrifugal Compressor also?
sir we found P2 in imperfect intercooling . which before intercooling or after intercooling ?
during intercooling pressure remains constant
From diagram p3=p2
confusing
your videos are really awesome sir keep making more videos thankyou
Thanks for this information.
Is there PDF for this information please
Nice work
Awesome
sirlast equation apne galt likha hai pressure and temperature relation in terms of n
Pl read as n/n-1
sunil mohod
Thank u very much sir. U teach uniquely. I ardently follow ur every lecture. Pls complete all other topics also sir. At least production.
Kuchh samzta nhi
hii placement hogya kya