Abstract
Soybean peroxidase is an enzyme extracted from soybean seed hulls. In the presence of hydrogen peroxide, the enzyme has the potential to catalyze the biodegradation of toxic substances like chlorophenols. For this reason, its use in wastewater treatment processes is environmentally friendly since the enzyme can be obtained from a renewable and abundant raw material. In this work, enzymatic biodegradation of 2,4,6-trichlorophenol performed by soybean peroxidase in a microreactor was studied experimentally and theoretically. The experimental data set was obtained with a volume of 250 μL by using different soybean peroxidase concentrations and different reaction times. The fluid dynamics of the microreactor was modeled as well, using ANSYS CFX. The simulations exhibited secondary flows, which enhanced mixing. Although the laminar flow was developed, it can be assumed to be a well-mixed medium. The kinetic data were evaluated through a mechanistic model, the modified bi-bi ping-pong model, which is adequate to represent the enzymatic degradation using peroxidases. The model was composed of an initial value problem for ordinary differential equations that were solved using MATLAB. Some kinetic constants were estimated using the least square function. The results of the model fit well the experimental data.
Highlights
After an indiscriminate use of finite natural resources, the human being has come to realize that limits must be imposed
The kinetic model used here was a system of initial value problem (IVP) for the differential-algebraic system of equations (DAEs)
In these equations ûi is the value predicted by the model, ui is the experimental data, ui is the average experimental data, n is the number of points, and p is the number of model parameters
Summary
After an indiscriminate use of finite natural resources, the human being has come to realize that limits must be imposed. The goal of this present work is to study the enzymatic degradation of TCP in a microreactor using SBP as a catalyst. The results presented here increase the current knowledge and demonstrate the possibility of efficient TCP degradation performed by an abundant and low-cost enzyme, contributing to the future development of cost-effective industrial processes for the treatment of wastewaters containing recalcitrant toxic pollutants. It is an innovative, environmentally friendly wastewater treatment method
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