2) The following reversible gas-phase reaction is carried out isothermally in a CSTR reactor (P. = 1.00 atm). - A(g) = B

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2 The Following Reversible Gas Phase Reaction Is Carried Out Isothermally In A Cstr Reactor P 1 00 Atm A G B 1 (29.39 KiB) Viewed 26 times

2-1) calculate the equilibrium conversion of A at 500K
2) The following reversible gas-phase reaction is carried out isothermally in a CSTR reactor (P. = 1.00 atm). - A(g) = B(g) + C(g) This is an elementary reaction and the forward reaction rate constant (kg) at 500 K is 3.00 x 10-(s). The equilibrium constant(KP) at 500 K is 3 atm. The feed is composed mol of A and D, which is inert, and the molar flow rates of A and D are 5.00 and S 3.00 mol respectively. The equation of state for the ideal gas can be applied. (The S gas constant (R) = 8.314 J = 1.987 mol. K cal mol. K 2-1) Calculate the equilibrium conversion of A at 500 K.