Spent caustic oxidation using electro-generated Fenton's reagent in a batch reactor
Title:
Spent caustic oxidation using electro-generated Fenton's reagent in a batch reactor
Author:
Rodriguez, Nicolas Hansen, Henrik K. Nunez, Patricio Guzman, Jaime
Appeared in:
Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering
Paging:
Volume 43 (2008) nr. 8 pages 952-960
Year:
2008-01
Contents:
This work shows the results of four Electro-Fenton laboratory tests to reduce the chemical oxygen demand (COD) in spent caustic solutions. The treatment consisted of (i) a pH reduction followed by (ii) an Electro-Fenton process, which was analyzed in this work. The Fenton's reagent was produced in a specially designed reactor, where the waste stream flowed through a labyrinth made by ferrous plates. These plates acted as sacrificial anodes—releasing Fe2 + cations to the solution, where H2O2 was also added. The Electro-Fenton process was analyzed varying the ferrous ion concentration ([Fe+ 2]), the spent caustic's initial temperature and the initial pH. Close to 95% removal of COD (from 8800 mg L- 1) was achieved at a pH of 4, a temperature of 40°C and 100 mg L- 1 of Fe+ 2 (applying 1 A). Two models were considered to simulate the behavior of the reactor considering (i) axial dispersion and (ii) kinetic rate, respectively. The model that was based on kinetics, proved to be the slightly closest fit to the experimental values.