Question

HELP!!!

Answer 1

This is the question and the diagram....

Answer 2

By the way I got the solution and it is a very interesting problem and easy is the same time, so I want you to be online in order to be able to discuss it directly!! @QuennLee

Answer 3

@3mar
8.2
Analyzing Vapor Power Systems—Rankine Cycle

I've been looking at the pdf on the Rankine cycle. It looks v interesting. Do you have a link to the source ?

Answer 4

Yes, do you want it, @osprey?

Answer 5

@3mar yup, I'd very much like to have a look at it Thermo/rankine etc is one of my "hobbyhorses" at the moment

Answer 6

I have the chapter of this book now,...
do you want the link here?

Answer 7

@3mar It would be a good start ... thanks

Answer 8

Ok

Give me 3 min, please!

Answer 9

@3mar
DON'T FLAP, FLY CONCORDE !
Is it a blockbuster ?

Answer 10

Here you are @osprey

Answer 11

Tell me if you got it, satisfied or not, @osprey..
I hope you got what you were looking for..

Answer 12

I'm up to my neck in water vapour and enthalpy.
@3mar Thanks very much for the sending of it !

Answer 13

Nothing man!

Helping out is a pleasure for me!

Did you make use of this?

If you need help in thermodynamics (my favorite master field), I will help you as much as I know and as I can.

Answer 14

@QuennLee
Do you still need help in that?

Answer 15

@3mar as it happens, I'm looking at water to steam and the like right now. I now tend to go right back to basics, so as 1 to understand it better, 2 not to make a pig's ear of it if I'm talking to people about it.
Latest elementary calculation being that of 1 gram of water but "expressed" as steam, if you follow me. In other words, should the water actually have "found a way" of becoming steam, but at the same volume (isochorically, in posh speak ?) what would be the pressure.
Reason is to get some handle on the sorts of forces and pressures involved in these once mighty "beasts".