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PT 4 - CBA TA where TALD is p - tolualdehyde, PT is p - toluic acid, and 4 - CBA is 4 - carboxybenzaldehyde.

PT
4-CBA
TA
where TALD is p-tolualdehyde, PT is p-toluic acid, and 4-CBA is 4-carboxybenzaldehyde. The rate of
reaction i is ri=kiCini where ki is the rate constant, Ci is the concentration of species i, and ni is the
order of the reaction. Note that consumed oxygen and produced water are missing from the reaction
scheme above. At industrial conditions, 15 bar, all reactions are zero-order with respect to oxygen. The
kinetic parameters of reactions 1-4 at 195C are given below [2]:
A full design requires simultaneously solving a system of governing equations. We will use ChemCAD to
model the full reaction network, but first we will do some manual calculations using only reaction 1.
a) Using reaction 1 only, estimate the reactor volumes and residence times needed to achieve
conversion xPx=0.99 with a feed of CPx0=3.8M and FPx0=10 tonnes/hr for two CSTRs in series
of equal volume. The reactor temperature and pressure are T=195C and P=15 bar. The liquid
densities of p-xylene and acetic acid at this temperature are 691.5 and 834.4kgm3,
respectively.
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