kmol is observed at a The following reaction rate, -r measured in units of particular conversion, X: m.hr m 0.2 0.4 0.6 Table 3.1. Raw data. X 0.0 kmol 78 m.hr 106 120 70 mol The molar feed rate to the reactor is 15 S FM as a function of (a) Based on the raw data shown in Table 3.1, construct the plot X Note: Use Excel to construct the plot. [5 Marks] (b) Start from the general mole balance equation and derive the equation that shows the area is equal to the CSTR volume. Clearly state all assumptions used in your derivation. [6 Marks] (c) Assuming these assumptions are all met, determine the CSTR volume to achieve a 60% conversion. [5 Marks] (d) If there is zero conversion at the entry to the CSTR and 60% at the exit; what is the reaction rate in the reactor? [1 Mark] (e) If we used two equal-sized CSTRs, ordered in series that give a desired conversion of 60%: X 1 2 X2 = 60% What would be the conversion exiting the first reactor, i.e., X ? [8 Marks]