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CO g ))+ H 2 O g)g)CO 2 g ))+ H 2(g Assume the reaction proceeds to equilibrium at a temperature T(k), and the mole
CO g ))+ H 2 O g)g)CO 2 g ))+ H 2(g Assume the reaction proceeds to equilibrium at a temperature T(k), and the mole fractions of the four reactive species satisfy the relationship CO2H2COH2O=() where K(T) is the reaction equilibrium constant. At T = 1105 K, K = 1:00. Suppose the feed to a reactor contains 1.5 mol of CO, 4.0 mol of H 2 O, and no CO 2 or H 2 , and the reaction mixture comes to equilibrium at 1105 K. Calculate the equilibrium composition and the fractional conversion of the limiting reactant.
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