Consider a reversible reaction

A+Bharr2C+D,\\\\Delta H_(ax)=-8.314k(J)/(m)olA

, and the equilibrium constant

(K_(eq))

at

400K

is 100 . The forward reaction rate is

r_(1)=k_(1)C_(A)C_(8)

.\ (a) (10 pts) If the temperature increases to

500K

, the value of

K_(eq )

would be than 100 , and the reaction rate would be less or greate (b) (10 pts) A higher conversion would bes act higher) temperature, because\ llower or\ (c) (10 pts) A higher conversion would be achieved if the reactor is operated at llower higher) pressure, because\ (d) (20 pts) If there is a side reaction

A+C->E

with reaction rate

r_(2)=k_(2)C_(A)^(2)

, which type of reacto be better in order to minimize the formation of byproduct E (PFR or CSTR)? Why?

1. Consider a reversible reaction A+B2C+D,Hax=8.314kJ/molA, and the equilibrium constant (Keq) at 400K is 100 . The forward reaction rate is r1=K1CACB. (a) (10 pts) If the temperature increases to 500K, the value of Keq would be than 100, and the reaction rate would be (less or greate (lower or higher) than at 400K. (b) (10 pts) A higher conversion would be achieved if the reactor is operated at higher) temperature, because (lower or (c) (10 pts) A higher conversion would be achieved if the reactor is operated at higher) pressure, because (lower o (d) (20 pts) If there is a side reaction A+CE with reaction rate r2=k2CA2, which type of reacto be better in order to minimize the formation of byproduct E (PFR or CSTR)? Why