The liquid-phase reaction A+B ⎯⎯→ Cfollows an elementary rate law and is carried out isothermally in a flow system. The concentrations of the A and B feed streams are 2 M before mixing. The volumetric flow rate of each stream is 5 dm3/min, and the entering temperature is 300 K. The streams are mixed immediately before entering.Two reactors are available. One is a gray, 200.0-dm3CSTR that can be heated to 77oC or cooled to0oC, and the other is a white, 800.0-dm3PFR operated at 300 K that cannot be heated or cooled but can be painted red or black. Note that k=0.07 dm3/mol.min at 300 K and E=20 kcal/mol. Write a couple of sentences describing what you learned from the problem and what you believe to be the point of the problem.
The liquid-phase reaction
A+B ⎯⎯→ C
follows an elementary rate law and is carried out isothermally in a flow system. The concentrations of the A and B feed streams are 2 M before mixing. The volumetric flow rate of each stream is 5 dm3/min, and the entering temperature is 300 K. The streams are mixed immediately before entering.Two reactors are available. One is a gray, 200.0-dm3CSTR that can be heated to 77oC or cooled to0oC, and the other is a white, 800.0-dm3
PFR operated at 300 K that cannot be heated or cooled but can be painted red or black. Note that k=0.07 dm3/mol.min at 300 K and E=20 kcal/mol.
Write a couple of sentences describing what you learned from the problem and what you believe to be the point of the problem.
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