For the reactor (CSTR) shown below, the reaction is 2 A → B with reaction rate 2 -ra = k C where, k (rate constant) is mol ((min) a. Determine the transfer function that relates the exit concentration...


For the reactor (CSTR) shown below, the reaction is<br>2 A → B with reaction rate<br>2<br>-ra = k C where, k (rate constant) is<br>mol<br>((min)<br>a. Determine the transfer function that relates the exit concentration from the<br>reactor to changes in the feed concentration.<br>b. If we instantaneously double the feed concentration from 1 to 2 mol/L, what is<br>the new exiting concentration 1 min later?<br>c. What is the new steady-state reactor concentration?<br>6 L/min<br>CAi= 1 mol/L<br>6 L/min<br>CAo = 0.2 mol/L<br>V= 50 L<br>

Extracted text: For the reactor (CSTR) shown below, the reaction is 2 A → B with reaction rate 2 -ra = k C where, k (rate constant) is mol ((min) a. Determine the transfer function that relates the exit concentration from the reactor to changes in the feed concentration. b. If we instantaneously double the feed concentration from 1 to 2 mol/L, what is the new exiting concentration 1 min later? c. What is the new steady-state reactor concentration? 6 L/min CAi= 1 mol/L 6 L/min CAo = 0.2 mol/L V= 50 L

Jun 09, 2022
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