Steady Flow Systems - Nozzles and Diffusers | Thermodynamics | (Solved examples)

I hope you did well on your thermodynamics exam :)

Awesome :) Keep up the great work!

You're very welcome!

Thank you very much! Best wishes with your studies.

Thank you so much!

I use Illustrator to draw the graphics and After Effects to animate 👍

👍

Please provide timestamps so I know where you're referring to. That way, I can help you out better, thanks!

@@QuestionSolutions 4:13 for the Cp(T2-T1) and 5:30 for the Cp(T1-T2) . Thanks!

@@Jon-xu7jlAhh, I see, it should be h2-h1 corresponding to T2-T1. They correspond to each other. At 5:30, when we did the energy balance, we got h1-h2, which gives us the corresponding T1-T2.

So the question actually requires you to find the mass flow rate. Since you already found it, might as well use it :)

thank you sir i got it

I am not sure how to explain the "logic" behind this without going into proofs. But to increase pressure, the velocity needs to drop in a diffuser. For a nozzle, to increase the velocity, the pressure drops. In other words, when we reduce the cone at the right end, the velocity goes us, but the pressure starts to drop. Please see your textbook for proofs :)

They are at the back of your textbook. The textbook used is in the description if you need it :)

Velocity is decreased but it doesn't have to be zero 👍

@@QuestionSolutions so if the question stated that it is 0, then i can use it rght?

If the final velocity is zero, then you would have zero for velocity on the exit side.

You can solve these problems in many different ways. I showcase one method, but as long as you get to the same answer, the path you take doesn't necessarily matter much.

Please see this video (ruclips.net/video/rKbjRG4Y-HM/видео.html) on how to figure out if a substance is superheated, or a compressed liquid. Especially around 5:50 min mark, I go into how to figure it out.

I don't have a channel for strength, I also don't know any to recommend. Did you try googling it to see what comes up? There are so many really good, educational channels that teach pretty much anything you want :)

@@QuestionSolutions I know but they don't show as you do. I like this channel because thanks to you I can imagine what is going on in the problem :D Thank you tho

@@huseyingobut7950 I understand. :)

I don't know where you're referring to. Please use timestamps.

@@QuestionSolutions my question I believe is general, but for the sake of the video, it's on 5:40. I thought we can only use specific heat cp, if the pressure is constant, but it changes in diffusers and nozzles.

So this is just calculating enthalpy with the assumption that it's an ideal gas. For enthalpy, you use cp, and generally, you will find that the difference in pressure is minimal that it makes little difference. You can see a different problem solved here: pressbooks.bccampus.ca/thermo1/chapter/5-5-application-of-the-mass-and-energy-conservation-equations-in-steady-flow-devices/ check out example number 3 if you need further clarifications. @@itsyogurt9247

I will do my best :)

Working on turbines and compressors now. Probably won't get all of them done by next week, but I will do my best. 😔

@@QuestionSolutions Yeah Bro Please Cover It Fast Its A humble Request❣

@@duttyusman4636 👍

This process is called unity conversions. You can see a video of it here: ruclips.net/video/shXni5PxQ0w/видео.html
1 j/kg = m^2/s^2
If you know that, you can basically convert it whenever you want. Please make sure to understand unity conversions, it'll make your life a lot easier :)