QUESTIONS No. 8) – 13): The isothermal, irreversible, aqueous phase reaction, A + B - E at 100°F with k = 15; stirred tank reactor with a feed a feed of 2000 , what will be the outlet concentration of...


Please answer number 8 and 9. Thank you.


QUESTIONS No. 8) – 13): The isothermal, irreversible, aqueous phase reaction, A +<br>B - E at 100°F with k = 15;<br>stirred tank reactor with a feed a feed of 2000 , what will be the outlet concentration<br>of E if the inlet concentration A and B are both 0.25<br>8) What is the rate equation for a steady state, well mixed CSTR derived from the<br>GMBE as a function of concentration?<br>obeys the elementary rate law. Using 1000 ft<br>lbmole-hr<br>hr<br>lbmole<br>a) -

Extracted text: QUESTIONS No. 8) – 13): The isothermal, irreversible, aqueous phase reaction, A + B - E at 100°F with k = 15; stirred tank reactor with a feed a feed of 2000 , what will be the outlet concentration of E if the inlet concentration A and B are both 0.25 8) What is the rate equation for a steady state, well mixed CSTR derived from the GMBE as a function of concentration? obeys the elementary rate law. Using 1000 ft lbmole-hr hr lbmole a) -"A = vo[Cao - Ca b) -7, = [/v]SE^ [C) %3D d) -ra = Ao 9) What is the equation derived from the combined mole balance and rate law for a steady state, well-mixed CSTR, as a function of conversion? a) – In (1– x) b) t = c) w = d) [kCAo(1-x) 10)A substitution of the values given in the problems into equation derived from the combined mole balance and rate law for a steady state , well-mixed CSTR, as a function of conversion, results into equation: a) In(1 – x) = 1.875 b) d) In x = 2.875 11) The conversion of the reaction is: a) 0.533 b) 1- 2.5333X + x² = 0 C) 1= 0.533X + x b) 5.52 ) 0.4982 d) 0.1223

Jun 10, 2022
SOLUTION.PDF

Get Answer To This Question

Related Questions & Answers

More Questions »

Submit New Assignment

Copy and Paste Your Assignment Here