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A tubular reactor is to be designed for production of butadiene from butene by the gas phase reaction, C 4 H 8 C 4 H

A tubular reactor is to be designed for production of butadiene from butene by the gas phase reaction,
C4H8C4H6+H2
The composition of the feed is 10 moles of steam per mole of butene and no butadiene and hydrogen. The reactor operates at 2atm with an inlet temperature of 922K. The reaction follows the first order, irreversible equation for which the reaction rate constant as a function of temperature is
\table[[T,K,922,900,877,855,832],[k,h-1,11,4.9,2.04,0.85,0.32]]
The heat of reaction may be taken as constant and equal to HR=263.6calmol and iC=1.2calmol*K.
a) What would be the volume required to achieve 20% conversion if the reactor operated isothermally at 922K with a butene+steam feed rate of 22lbmolh.
b) Calculate the reactor volume to achieve 20% conversion of butene for adiabatic operation if the feed rate is 2 lbmol butene/h and 20lbmolsteamh.
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