International Journal of Chemical Engineering

Research Article

Carbon Dioxide Absorption Modeling for Off-Gas Treatment in the Nuclear Fuel Cycle

Table 3

Information used in solving the proposed reaction model.


Equation no. (reaction)	Forward rate (k_fi)	Equilibrium constant	Reverse rate (k_ri)

(B.1) (9)	k_1f = exp(24.4 − 6864/T_l) (Reference [22])	K₁ = K₂/(K₅K₆) (Reference [2])	k_1r = (k_1f)/K₁
(B.2) (10)	k_f2 = 0.024 (Reference [28])	K₂ = 1E6exp(231.465 − 12092.1/T_l − 36.782ln(T_l)) (Reference [29])	k_2r = (k_2f)/K₂
(B.3) (11)	k_3f = exp[31.396 − 6658/T_l]1E−3 (Reference [23])	K₃ = exp(31.396 − 6658/T_l)/1000 (Reference [2])	k_3r = (k_3f)/K₃
(B.4) (12)	k_4f = 2E − 5 (Reference [30])	K₄ = 9.234E19exp(0.0772T_l) (Reference [29])	k_4r = (k_4f)/K₄
(B.5) (13)	k_5f = 0.1 (Reference [2])	K₅ = 1E6exp(0.8−8094.8/T_l− 0.00748T_l) (Reference [29])	k_5r = (k_5f)/K₅
(B.6) (14)	k_6f = 0.1 (Reference [2])	K₆ = 2E5exp(1.283 − 3456.2/T_l) (Reference [29])	k_6r = (k_6f)/K₆
(B.7) (5)	k_7f = 2.5E − 3 exp(23.17 − 6894.8/T_l) (Reference [12])	K₇ = K₂/K₉ (Reference [12])	k_7r = (k_7f)/K₇
(B.8) (16)	K_8f = 0.1 (Reference [19])	K₈ = 1E6exp(0.8 − 8094.8/T_l− 0.00748T_l) (Reference [29])	k_8r = (k_8f)/K₈