Enhanced removal of benzothiazole in persulfate promoted wet air oxidation via degradation and synchronous polymerization

[1]  Sushma,et al.  Performance of various catalysts on treatment of refractory pollutants in industrial wastewater by catalytic wet air oxidation: A review. , 2018, Journal of environmental management.

[2]  Shaobin Wang,et al.  Persulfate Activation on Crystallographic Manganese Oxides: Mechanism of Singlet Oxygen Evolution for Nonradical Selective Degradation of Aqueous Contaminants. , 2018, Environmental science & technology.

[3]  D. Dionysiou,et al.  Mechanisms of Interaction between Persulfate and Soil Constituents: Activation, Free Radical Formation, Conversion, and Identification. , 2018, Environmental science & technology.

[4]  O. Boutin,et al.  Evaluation of degradation and kinetics parameters of acid orange 7 through wet air oxidation process , 2018 .

[5]  G. Zeng,et al.  Effective treatment of oily scum via catalytic wet persulfate oxidation process activated by Fe2. , 2018, Journal of environmental management.

[6]  J. Derco,et al.  Toxicity assessment of raw and ozonated benzothiazole synthetic wastewater , 2018, Chemical Papers.

[7]  Hongbin Cao,et al.  Reaction condition optimization and degradation pathway in wet oxidation of benzopyrazole revealed by computational and experimental approaches. , 2018, Journal of Hazardous Materials.

[8]  J. Khim,et al.  Hydrodynamic cavitation and activated persulfate oxidation for degradation of bisphenol A: Kinetics and mechanism , 2018 .

[9]  K. Linden,et al.  Critical review of the science and sustainability of persulphate advanced oxidation processes , 2018 .

[10]  H. Cao,et al.  Wet air oxidation of indole, benzopyrazole, and benzotriazole: Effects of operating conditions and reaction mechanisms , 2018 .

[11]  A. Pintar,et al.  Screening of catalytic activity of natural iron-bearing materials towards the Catalytic Wet Peroxide Oxidation of Orange II , 2018 .

[12]  Huase Ou,et al.  Degradation of 1H-benzotriazole using ultraviolet activating persulfate: Mechanisms, products and toxicological analysis , 2018 .

[13]  Hongbin Cao,et al.  Phenolic compounds removal by wet air oxidation based processes , 2018, Frontiers of Environmental Science & Engineering.

[14]  X. Tan,et al.  Nitrogen-doped bamboo-like carbon nanotubes with Ni encapsulation for persulfate activation to remove emerging contaminants with excellent catalytic stability , 2018 .

[15]  Jun Ma,et al.  Degradation of Bisphenol S by heat activated persulfate: Kinetics study, transformation pathways and influences of co-existing chemicals , 2017 .

[16]  Hongbin Cao,et al.  Fast Electron Transfer and •OH Formation: Key Features for High Activity in Visible-Light-Driven Ozonation with C3N4 Catalysts , 2017 .

[17]  Linda K. Weavers,et al.  Kinetics and Mechanism of Ultrasonic Activation of Persulfate: An in Situ EPR Spin Trapping Study. , 2017, Environmental science & technology.

[18]  Shaobin Wang,et al.  Activation of peroxymonosulfate by carbonaceous oxygen groups: experimental and density functional theory calculations , 2016 .

[19]  Junhe Lu,et al.  Degradation of trimethoprim by thermo-activated persulfate oxidation: Reaction kinetics and transformation mechanisms , 2016 .

[20]  Daniel Duprez,et al.  Impact of cerium-based support oxides in catalytic wet air oxidation: Conflicting role of redox and acid–base properties , 2015 .

[21]  Shaobin Wang,et al.  Insights into Heterogeneous Catalysis of Persulfate Activation on Dimensional-Structured Nanocarbons , 2015 .

[22]  C. Descorme,et al.  Catalytic wet air oxidation of succinic acid over Ru and Pt catalysts supported on CexZr1 − xO2 mixed oxides , 2015 .

[23]  Tinglin Huang,et al.  Study on enhanced ozonation degradation of para-chlorobenzoic acid by peroxymonosulfate in aqueous solution , 2015 .

[24]  J. Casas,et al.  Treatment of real winery wastewater by wet oxidation at mild temperature , 2014 .

[25]  J. Figueiredo,et al.  Catalytic performance of heteroatom-modified carbon nanotubes in advanced oxidation processes , 2014 .

[26]  X. Liao,et al.  Effect and mechanism of persulfate activated by different methods for PAHs removal in soil. , 2013, Journal of hazardous materials.

[27]  Juan Gao,et al.  Activation of persulfate by quinones: free radical reactions and implication for the degradation of PCBs. , 2013, Environmental science & technology.

[28]  D. Dionysiou,et al.  Transformation of polychlorinated biphenyls by persulfate at ambient temperature. , 2013, Chemosphere.

[29]  G. Zeng,et al.  Potassium persulfate promoted catalytic wet oxidation of fulvic acid as a model organic compound in landfill leachate with activated carbon , 2012 .

[30]  A. Ghauch,et al.  Ibuprofen removal by heated persulfate in aqueous solution: A kinetics study , 2012 .

[31]  Jun Ma,et al.  Influence of pH on the formation of sulfate and hydroxyl radicals in the UV/peroxymonosulfate system. , 2011, Environmental science & technology.

[32]  Son-Ki Ihm,et al.  Heterogeneous catalytic wet air oxidation of refractory organic pollutants in industrial wastewaters: a review. , 2011, Journal of hazardous materials.

[33]  P. Gallezot,et al.  Supported noble metal catalysts in the catalytic wet air oxidation of industrial wastewaters and sewage sludges , 2010, Environmental technology.

[34]  S. Collado,et al.  Wet oxidation of salicylic acid solutions. , 2010, Environmental science & technology.

[35]  C. Descorme,et al.  Catalytic wet air oxidation of N,N-dimethylformamide aqueous solutions: Deactivation of TiO2 and ZrO2-supported noble metal catalysts , 2010 .

[36]  J. Casas,et al.  Hydrogen peroxide-promoted-CWAO of phenol with activated carbon , 2010 .

[37]  D. Dionysiou,et al.  Iron–cobalt mixed oxide nanocatalysts: Heterogeneous peroxymonosulfate activation, cobalt leaching, and ferromagnetic properties for environmental applications , 2009 .

[38]  D. Dionysiou,et al.  Effect of inorganic, synthetic and naturally occurring chelating agents on Fe(II) mediated advanced oxidation of chlorophenols. , 2009, Water research.

[39]  Xiang Li,et al.  Catalytic activity, stability and structure of multi-walled carbon nanotubes in the wet air oxidation of phenol , 2008 .

[40]  E. Zeng,et al.  Occurrence, phase distribution, and mass loadings of benzothiazoles in riverine runoff of the Pearl River Delta, China. , 2008, Environmental Science and Technology.

[41]  Paul G Tratnyek,et al.  Oxidation of chlorinated ethenes by heat-activated persulfate: kinetics and products. , 2007, Environmental science & technology.

[42]  Thorsten Reemtsma,et al.  Discharge of three benzotriazole corrosion inhibitors with municipal wastewater and improvements by membrane bioreactor treatment and ozonation. , 2006, Environmental science & technology.

[43]  Karl Foger,et al.  Wet Oxidation and Catalytic Wet Oxidation , 2006 .

[44]  F. Beltrán,et al.  Ozone-Enhanced Oxidation of Oxalic Acid in Water with Cobalt Catalysts. 2. Heterogeneous Catalytic Ozonation , 2003 .

[45]  雷乐成,et al.  Wet Oxidation of PVA-Containing Desizing Wastewater , 2000 .

[46]  Guohua Chen,et al.  Wet oxidation of high-concentration reactive dyes , 1999 .

[47]  S. Kolaczkowski,et al.  Development of a model for the wet air oxidation of phenol based on a free radical mechanism , 1998 .

[48]  E. Janzen,et al.  Spin trapping of inorganic radicals. , 1992, Free radical research communications.

[49]  J. Joshi,et al.  Kinetics of wet air oxidation of phenol and substituted phenols , 1991 .

[50]  D. A. House Kinetics and Mechanism of Oxidations by Peroxydisulfate. , 1962 .

[51]  I. Kolthoff,et al.  The Chemistry of Persulfate. I. The Kinetics and Mechanism of the Decomposition of the Persulfate Ion in Aqueous Medium1 , 1951 .

[52]  Indu Mehrotra,et al.  Treatment of phenol and cresols in upflow anaerobic sludge blanket (UASB) process: a review. , 2005, Water research.