It is being considered that the following gas-phase reaction be carried out in a ČSTR: A+ 2B → 4C The reactor will be operated isobarically and isothermally. The rate law for the reaction is given as:...


It is being considered that the following gas-phase reaction be carried<br>out in a ČSTR: A+ 2B → 4C<br>The reactor will be operated isobarically and isothermally. The rate<br>law for the reaction is given as: (-r^)=k · CA-CB<br>where, k = 8 L/mol-min at the operating temperature.<br>The total feed volumetric flow rate to the reactor at operating<br>temperature and pressure is 10 L/min. The feed consists of A, B and<br>an inert (I). The feed molar flow rates are FA0= FRO= 1 mol/s and<br>F10=2 mol/s.<br>B0<br>IO<br>Calculate the volume of reactor required to achieve 80% conversion<br>of the limiting reactant.<br>

Extracted text: It is being considered that the following gas-phase reaction be carried out in a ČSTR: A+ 2B → 4C The reactor will be operated isobarically and isothermally. The rate law for the reaction is given as: (-r^)=k · CA-CB where, k = 8 L/mol-min at the operating temperature. The total feed volumetric flow rate to the reactor at operating temperature and pressure is 10 L/min. The feed consists of A, B and an inert (I). The feed molar flow rates are FA0= FRO= 1 mol/s and F10=2 mol/s. B0 IO Calculate the volume of reactor required to achieve 80% conversion of the limiting reactant.

Jun 10, 2022
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