@@berkcanozturk655 it is saturated liquid at the inlet, but is it okay to assume its specific volume wont change throughout? I tried solving it by using w = m(h2-h1), since vdP=dh for isentropic process. When i equate the entropy at inlet and outlet, the value of s1 is way below to the sf at outlet. Is this wrong? Anyone tried solving it this way?
@@ken-cf7tf Well, it is been 4 months lol I have no clue right now. I passed the course like 2 months ago. I'm glad you figured out tho, good luck in the exams.
@@berkcanozturk655 thanks. good luck in your studies too. Btw, h2 is found in compressed liquid table by double interpolation. Just to add for those who may be confused as i did.
at 28:52 How can we know it is saturated water without check any table ?
it tells us in the question.
@@berkcanozturk655 it is saturated liquid at the inlet, but is it okay to assume its specific volume wont change throughout? I tried solving it by using w = m(h2-h1), since vdP=dh for isentropic process.
When i equate the entropy at inlet and outlet, the value of s1 is way below to the sf at outlet. Is this wrong? Anyone tried solving it this way?
okay nvm i got it
@@ken-cf7tf Well, it is been 4 months lol I have no clue right now. I passed the course like 2 months ago. I'm glad you figured out tho, good luck in the exams.
@@berkcanozturk655 thanks. good luck in your studies too.
Btw, h2 is found in compressed liquid table by double interpolation. Just to add for those who may be confused as i did.