The elementary gas-phase reaction is carried out isothermally in CSTR. (CH3)3COOC(CH3)3→C2H6 +2CH3COCH3 The specific reaction rate at 50°C is 104 min' (from preciosity data) and the activation energy is 85 kJ/mol. Pure di-tert-butyl peroxide enters the reactor at 10 atm and 127 °C and a molar flow rate of 2.5 mol/min. Calculate the reactor volume and space time to achieve 90% conversion.

Introduction to Chemical Engineering Thermodynamics
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Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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The elementary gas-phase reaction is carried out isothermally in CSTR. (CH3)3COOC(CH3)3—C2Hs +2CH3COCH3 The specific reaction rate at 50°C is 10 min™ (from preciosity data) and the activation energy is 85 kJ/mol. Pure di-tert-butyl peroxide enters the reactor at 10 atm and 127 °C and a molar flow rate of 2.5 mol/min. Calculate the reactor volume and space time to achieve 90% conversion.
1- The elementary gas-phase reaction is carried out isothermally in CSTR.
(CH3)3COOC(CH3)3→C2H6 +2CH3COCH3
The specific reaction rate at 50°C is 104 min (from preciosity data) and the activation
energy is 85 kJ/mol. Pure di-tert-butyl peroxide enters the reactor at 10 atm and 127 °C and
a molar flow rate of 2.5 mol/min. Calculate the reactor volume and space time to achieve
90% conversion.
Transcribed Image Text:1- The elementary gas-phase reaction is carried out isothermally in CSTR. (CH3)3COOC(CH3)3→C2H6 +2CH3COCH3 The specific reaction rate at 50°C is 104 min (from preciosity data) and the activation energy is 85 kJ/mol. Pure di-tert-butyl peroxide enters the reactor at 10 atm and 127 °C and a molar flow rate of 2.5 mol/min. Calculate the reactor volume and space time to achieve 90% conversion.
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