Thermodynamics: Steady Flow Energy Balance (1st Law), Turbine
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- เผยแพร่เมื่อ 4 ก.ค. 2024
- Solution to the following problem (Thermodynamics: An Engineering Approach, CBK, 8th Edition, 5-46)
Steam flows steadily through an adiabatic turbine. The inlet conditions of the steam are 4 MPa, 500 C, and 80 m/s, and the exit conditions are 30 kPa, 92 percent quality, and 50 m/s. The mass flow rate of the steam is 12 kg/s. Determine (a) the change in kinetic energy, (b) the power output, and (c) the turbine inlet area.
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Listening at 1.5x makes this one of the best review videos I have ever watched
just would like to say that I graduated in 2022 thanks to you! I am back to say thanks as now I am on my way for the PE license! Thanks for your videos! Thanks so much!!
man you just save me from my exam. keep uploading some videos thank you!
Great video! Excellent structure for solving these types of problems.
Very well explained! i happened to have this question for homework today.Thanks and great job!.
Thank you I love you for making this videos.
Very good explanation . Thank you.
Well explained, I guess I'm ready for that thermo test now lol
Thank you! sisira sir ta wada oya godak hodai
Great content. Am subscribing now
Is there a solution for Question 5-55 anywhere on youtube ? (from the same textbook)
great video, keep up the good work subscribed , although i would advise compacting the lessons to 10-20 minutes if your goal is more views but if not it is perfect for classroom aid for sure.
Thank you! My goal was as a classroom aid and to help really understand how to set up these problems.
But yeah agree that they should be shorter to maximize views.
Good job indeed
Thank you very much.... ❤️
Thank you so much
Thanks a lot
slightly off topic, but what digital note software are you writing this in? Might want to use it to teach my engineering class.
onenote
Thank you ❤️
Madam from which book did you extracted these problems???
Hi Mrs İ have a question please answer it.Velocity is always going to deacrease at the outlet point?
Thank you for the question. The velocity won’t always decrease. It depends on what kind of turbine you have.
Thank you so muccchhh❤
How did you get the temperature at 4000 KPA? One of the steam tables?
yes, I got it from the superheated vapor table
i have the exact same book University of Sherbrooke
how do you get the enthalpy using temperature and pressure pls explain I'm stuck
By using steam table
Steam table will there in any thermodynamics book
steam tables. you should have it provided.
Why is KE not equal to KE= 1/2 m v2? seems wrong since KE is proportional to the mass?
is your answer per unit of mass? Would that be the reason?
video is very very long
You talk a lot. More solving less talking about irrelevant things all over and over again