QUESTION

1. Find the temperature and pressure would be to achieve 57.6% conversion of reactants. Please note that the reactants initially are in equimolar ratio and time required to achieve 57.6% conversion is 4 min.

2. Using the same temperature as in part (a), find the space time required for 75.4% conversion of ?4?6 if the reaction is carried out isothermally.

3. By using the temperature and pressure obtained in part (a), further study is done in plug flow reactor (PFR) with the gaseous mixture feed of 75% C2H4 and 25% C4H6 for variable volume of flow system to achieve higher conversion of ?2?4 up to 85% for 10 minutes. The reactor consists of 200 tubes with inner diameter of 1.5-inch. The reaction is second order with respect to C2H4. Prepare a detailed design calculation and estimate the production rate (kg/day) of C6H10. State all the assumptions made. If the result from the investigation is flawed by any chance, determine the reaction time at the conversion of 85%. (if this question too lengthy, i'll post it again for next question)

please explain in details, i want to understand the steps on how to solve this kind of question. Thank you

Transcribed Image Text:

For the gas phase reaction C2H4 + C4H6 → C6H10 which is carried out isothermally in constant volume batch reactor. The rate law of the reaction is; 115,000, -TC2H, = 3.0 x 10' exp[- RT Additional information; R=8.314 J. K-'mol1. Rate of disappearance of C2H4 = 8 x 10-3 mol L-'s-1