A gas phase reaction 2A + 4B → 2C which is first order in A and first order in B is to be carried out isothermally in a plug flow reactor. The entering volumetric flow rate is 2.5 lit/min and the feed is equimolar in A and B. The entering temperature and pressure are 727 C and 1013 kpa, respectively. The specific reaction rate at this temperature is 4.0 lit/gmol.min and the activation energy is 6.3 x 10* J/gmol. A+ 2B →C Given; -rA = KCACB Po T V = Vo(1+ eX) P To For isothermal and isobaric condition: V = Vo(1+eX) (a) Develop a stoichiometry table for this reaction (b) What is the volumetric flow rate when conversion is of A is 30%? (c) What is the rate of reaction at the entrance to the reactor? (d) What is the rate of reaction when conversion is 50%?

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A gas phase reaction 2A + 4B → 2C which is first order in A and first order in B is to be carried out isothermally in a plug flow reactor. The entering volumetric flow rate is 2.5 lit/min and the feed is equimolar in A and B. The entering temperature and pressure are 727 C and 1013 kpa, respectively. The specific reaction rate at this temperature is 4.0 lit/gmol.min and the activation energy is 6.3 x 10* J/gmol. A + 2B — С Given; -ra = KCĄCB Po T V = Vo(1+ɛX) P To For isothermal and isobaric condition: V = Vo(1+ eX) (a) Develop a stoichiometry table for this reaction (b) What is the volumetric flow rate when conversion is of A is 30%? (c) What is the rate of reaction at the entrance to the reactor? (d) What is the rate of reaction when conversion is 50%?