The following elementary reaction is to be carried out in the liquid phase NaOH +CH3COOC2H5 ⎯⎯→ CH3COO– Na++C2H5OHThe initial concentrations are 0.2 M in NaOH and 0.25 M in CH3COOC2H5 with k = 5.2 × 10–5dm3/mol⋅s at 20°C with E = 42,810 J/mol. Design a set of operating conditions (e.g., v0, T, . . .) to produce 200 mol/day of ethanol in a semibatch reactor and not operate above 37°C and below a concentrationof NaOH of 0.02 molar.6 The semibatch reactor you have available is 1.5 m in diameter and 2.5 m tall. The reactor down time is (tc + te + tf) = 3h.
The following elementary reaction is to be carried out in the liquid phase NaOH +CH3COOC2H5 ⎯⎯→ CH3COO– Na++C2H5OHThe initial concentrations are 0.2 M in NaOH and 0.25 M in CH3COOC2H5 with k = 5.2 × 10–5dm3/mol⋅s at 20°C with E = 42,810 J/mol. Design a set of operating conditions (e.g., v0, T, . . .) to produce 200 mol/day of ethanol in a semibatch reactor and not operate above 37°C and below a concentrationof NaOH of 0.02 molar.6 The semibatch reactor you have available is 1.5 m in diameter and 2.5 m tall. The reactor down time is (tc + te + tf) = 3h.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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The following elementary reaction is to be carried out in the liquid phase
NaOH +CH3COOC2H5 ⎯⎯→ CH3COO– Na++C2H5OH
The initial concentrations are 0.2 M in NaOH and 0.25 M in CH3COOC2H5 with k = 5.2 × 10–5dm3/mol⋅s at 20°C with E = 42,810 J/mol. Design a set of operating conditions (e.g., v0, T, . . .) to produce 200 mol/day of ethanol in a semibatch reactor and not operate above 37°C and below a concentration
of NaOH of 0.02 molar.6 The semibatch reactor you have available is 1.5 m in diameter and 2.5 m tall. The reactor down time is (tc + te + tf) = 3h.
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