TY - JOUR
T1 - Mathematical modelling of active chlorine based UV/Electro-Fenton-like process
T2 - Elucidation of reactor engineering implications to guide scaling-up
AU - Villalobos-Lara, A. Daniel
AU - Pacheco-Álvarez, Martín
AU - Garcia-Segura, Sergi
AU - Peralta-Hernández, Juan M.
AU - Uribe, Agustín R.
AU - Pérez, Tzayam
N1 - Publisher Copyright: © 2022 Institution of Chemical Engineers
PY - 2022/7
Y1 - 2022/7
N2 - Electrochemically-driven processes are emerging as competitive solution for environmental remediation. When considering scaling of processes accurate engineering modeling can aid on process engineering design for real application. This work defines step stones on electrochemical reactor engineering understanding and sets guidelines for UV/Electro-Fenton-like process modelling to ease scale-up to pilot plant. The UV/Electro-Fenton-like process considers the use of a flow-by cell with parallel plate electrodes to electrogenerated in situ active chlorine species. The turbulent convection-diffusion equation was solved for mass transport simulations considering for the first time a simplified kinetic model in recirculation mode of operation to remove a model contaminant. Tertiary current distribution was solved to simulate the electrochemical production of HClO. The theoretical analysis evidences a quasi-uniform current distribution in the working electrode, a continuous consumption of chloride, and sustained production of HClO for effective treatment at larger scale system level. Comparisons between numerical and experimental results evidence high predictability of the designed model that can be effectively translated for other electrochemically-driven processes.
AB - Electrochemically-driven processes are emerging as competitive solution for environmental remediation. When considering scaling of processes accurate engineering modeling can aid on process engineering design for real application. This work defines step stones on electrochemical reactor engineering understanding and sets guidelines for UV/Electro-Fenton-like process modelling to ease scale-up to pilot plant. The UV/Electro-Fenton-like process considers the use of a flow-by cell with parallel plate electrodes to electrogenerated in situ active chlorine species. The turbulent convection-diffusion equation was solved for mass transport simulations considering for the first time a simplified kinetic model in recirculation mode of operation to remove a model contaminant. Tertiary current distribution was solved to simulate the electrochemical production of HClO. The theoretical analysis evidences a quasi-uniform current distribution in the working electrode, a continuous consumption of chloride, and sustained production of HClO for effective treatment at larger scale system level. Comparisons between numerical and experimental results evidence high predictability of the designed model that can be effectively translated for other electrochemically-driven processes.
KW - CFD simulation
KW - Electrochemical advanced oxidation processes (EAOPs)
KW - Electrochemical water treatment
KW - Kinetic model
KW - Tertiary current distribution
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U2 - 10.1016/j.cherd.2022.02.035
DO - 10.1016/j.cherd.2022.02.035
M3 - Article
SN - 0263-8762
VL - 183
SP - 263
EP - 273
JO - Chemical Engineering Research and Design
JF - Chemical Engineering Research and Design
ER -