3. The gas-phase reaction between methanol and acetic acid to form methyl acetate and water CH3OH + CH3COOH = CH3COOCH3 + H2O takes place in a batch reactor. When the reaction mixture comes to equilibrium, the mole fractions of the four reactive species are related by the reaction equilibrium constant YcH,cooCH, YH,0 Ку Үсн, он Үсн,соон = 4.87 a. If the feed to the reactor contains equimolar quantities of methanol and acetic acid and no other species, calculate the equilibrium fractional conversion. b. Suppose it is important to reduce the concentration of methanol by making its conversion at equilibrium as high as possible, say 99%. Again assuming the feed to the reactor contains only methanol and acetic acid and that it is desired to produce 70 mol of methyl acetate, determine the quantities of methanol and acetic acid that must be fed to the reactor.

Topic Material Balance on Single Unit with Reaction (Stoichiometry). Kindly show step by step solution. TY 

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Kindly provide the Process Flow Diagram, Basis, Find, Show Complete Solution 3. The gas-phase reaction between methanol and acetic acid to form methyl acetate and water CH3OH + CH;COOH = CH3COOCH3 + H2O takes place in a batch reactor. When the reaction mixture comes to equilibrium, the mole fractions of the four reactive species are related by the reaction equilibrium constant YCH;COOCH, YH,0 Ky Yсн, онҮсн, соон 4.87 a. If the feed to the reactor contains equimolar quantities of methanol and acetic acid and no other species, calculate the equilibrium fractional conversion. b. Suppose it is important to reduce the concentration of methanol by making its conversion at equilibrium as high as possible, say 99%. Again assuming the feed to the reactor contains only methanol and acetic acid and that it is desired to produce 70 mol of methyl acetate, determine the quantities of methanol and acetic acid that must be fed to the reactor.