thanks for dividing the video into several parts and telling us every part down below the video . which helped me save time and skip to the part that i want.
Just a day ago, your video helped me a lot regarding fluid mechanics and now when I'm up to thermal engineering, it's amazing that you have video on this as awesome as the previous one. I must say, Sir, I've become a fan of you!
Hi Professor: I have not seen your Engineering TH-cam lately. You are a great professor. How are you doing? Without a doubt you are the best, commendable. Thanks 👏👏👏
Sir, I want to ask you to explain complex Mass and Energy Balance in multi stage compression and multi evaporator or Steam service before steam turbine in power plants? , And thank you for all previous works.
In a real-world steam plant, you would add an economizer to slightly raise the feed water temperature before it enters the boiler. Though he did say for this particular example it does not matter.
+Randall Manteufel To the end of the video you make an obvious statement - "RC cycle has lower efficiency than Carnot". But my question is,how do you calculate the Carnot efficiency, if (as you said) the pump work is equal to turbine work and the efficiency formula is " eff=(wturbine-wpump)/qboiler". Thx
Jaroslav Marina pump work would not be same at turbine work, unless you consider some extreme case like Pboil=Pcondenser which is like saying TL=TH. It may help to remember Carnot efficiency will always work out to be 1-TL/TH for power cycle.
Explained a month worth of lecture in 20mins. Lit
thanks for dividing the video into several parts and telling us every part down below the video . which helped me save time and skip to the part that i want.
you are welcome, but I didn't do it. A student volunteer did the work of adding time stamps.
thank you, got an A- in this course. half my class failed
Just a day ago, your video helped me a lot regarding fluid mechanics and now when I'm up to thermal engineering, it's amazing that you have video on this as awesome as the previous one. I must say, Sir, I've become a fan of you!
I thought you were just making these videos, I had no idea you were actually teaching while making this. Ridiculously good. Thank you!
This is a great explanation! And its not boring either. Thank you for the video. : )
agree !!!
Yes there's some way that he speaks that makes learning easy.
This video is brilliant, concise yet works on developing understand.
Many thanks, keep it up,
Chemical Engineering Student, Imperial College London.
Super concise video, explains it in easy, not boring way.
Thanks for the video sir! I've been studying this right now for our online classes and it was a great help!
Awesome explanation ,i didn't even bother to read books after watching this video
Hi Professor: I have not seen your Engineering TH-cam lately. You are a great professor. How are you doing? Without a doubt you are the best, commendable. Thanks
👏👏👏
This video is truly excellent
Thank You Sir, these videos are really helping a lott.
Thanks for the great explanation..
YASSS QUEEN CARNOT CYCLE REALNESS
confused but also pleased
u just made my final! Thank you men! great explanation!
very helpful as always! hitting the main points.
V Ling hello fellow socialist engineer 🤛😉
thank you so much, this is extremely helpful
lecture on point! precise and concise :) thank you :)
Also for the Wnet = qb-qc. Am i right?
Perfect....Thank you.
great explanation, Thanks
thank you sir.
@ 15:38 did you say deficiency or efficiency?
+Defense General efficiency, or maybe I should say "thermal efficiency"
Sir, I want to ask you to explain complex Mass and Energy Balance in multi stage compression and multi evaporator or Steam service before steam turbine in power plants?
, And thank you for all previous works.
Very helpful!
Awesome video master :)
GREAT SIR.......
Hey sir,
I wonder why did you place the state 4 in that place exactly i mean what are the critics to choose the place of state 4 ?
In a real-world steam plant, you would add an economizer to slightly raise the feed water temperature before it enters the boiler.
Though he did say for this particular example it does not matter.
superb video!thank you
Seriously ...very helpful 👍
Thank you sir
bravo
thanks for this lesson
I thought that sup. vap. comes out from the boiler??
hi , when the it's seam, befor saturated steam or after , thnx a lot
Got anything on Superheated ideal rankine cycle? Nice video btw! :)
Without the reheat i ment, cant seem to find anything with just a superheated rankine cycle :/
+Alex Johansen , with the help of a student we tried to organize videos maybe look engineering.utsa.edu/~rmanteufel/thermo2Top.pdf .
+Randall Manteufel Thanks! can't seem to open the PDF documents though, but the video was awesome, and i got the answer to my problem :) Thanks again!
thaaaaaank youuuuuuu soooo much
thanks
this helps alot
Efficiency = wnet/qb. How come that Carnot has greater efficiency if wnet=wt-wp=0? THX for explanation and great vid!
+Jaroslav Marina if wnet=0 then efficiency=0% which is low. Sorry, but I don't understand your question. thanks for your positive feedback.
+Randall Manteufel To the end of the video you make an obvious statement - "RC cycle has lower efficiency than Carnot". But my question is,how do you calculate the Carnot efficiency, if (as you said) the pump work is equal to turbine work and the efficiency formula is " eff=(wturbine-wpump)/qboiler". Thx
Jaroslav Marina pump work would not be same at turbine work, unless you consider some extreme case like Pboil=Pcondenser which is like saying TL=TH. It may help to remember Carnot efficiency will always work out to be 1-TL/TH for power cycle.
Cool
thank you sir
awesome
greaaat sir
i thought state 4 of the rankine cycle is saturated liquid as compared with carnot's
+Olojo David state 3 of rankine cycle is sat. liq., state 4 of rankine is compressed liq. In comparision, state 4 of carnot vapor cycle is sat. liq.
Yep straight into the turban
I wanna be your student
Turbine