Cellulase deactivation based kinetic modeling of enzymatic hydrolysis of steam-exploded wheat straw

Applying mass action law and quasi-steady-state theory, two cellulase kinetic models namely Eqs. (5) and (8) were developed on the basis of the first and second order reactions of enzyme deactivation, respectively. The two models are compared according to analysis of experimental data from enzymatic hydrolysis steam-exploded wheat straw. Both simulation and prediction results show Eq. (8) has much higher accuracy than Eq. (5). Analysis of initial hydrolysis rate is also in accordance with Eq. (8) and against Eq. (5). Fitted values of k2 (the rate constant of product formation), kde2 (the rate constant of enzyme deactivation) and Ke (the equilibrium constant) determined from Eq. (8) are 0.4732 h−1, 0.4011 L/(h g), and 16.8597 g/L, respectively. The higher the enzyme concentration is, the larger the deactivation rate.