1. In a steady-state RAP, the gas phase reaction: 2A 3B is carried out adiabatically and the pressure drop through the reactor is considered negligible. Pure gas A enters the reactor at 60°C and 2.3 atm. The relationship between KA (second-1) and T (K): KA = 1,25 exp. The CPA and CpB values are 84 and 63 J/(gmol-°C, respectively), and the heat of reaction AHR = -4600J/gmol A. Calculate space time (t), space Velocity (s = 1/ t), and the 1/ t), and the temperature of the exit gas so that the remaining reactants are 32.5%

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1. In a steady-state RAP, the gas phase reaction: 2A → 3B is carried
out adiabatically and the pressure drop through the reactor is
considered negligible. Pure gas A enters the reactor at 60°C and 2.3
atm. The relationship between KA (second-) and T (K): KA = 1,25
[650
exp . The CpA and CpB values are 84 and 63 J/(gmol-°C,
respectively), and the heat of reaction AHR
-4600J/gmol A.
Calculate space time (t), space Velocity (s
1/ t), and the
=
temperature of the exit gas so that the remaining reactants are
32.5%
Transcribed Image Text:1. In a steady-state RAP, the gas phase reaction: 2A → 3B is carried out adiabatically and the pressure drop through the reactor is considered negligible. Pure gas A enters the reactor at 60°C and 2.3 atm. The relationship between KA (second-) and T (K): KA = 1,25 [650 exp . The CpA and CpB values are 84 and 63 J/(gmol-°C, respectively), and the heat of reaction AHR -4600J/gmol A. Calculate space time (t), space Velocity (s 1/ t), and the = temperature of the exit gas so that the remaining reactants are 32.5%
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