Regulation of reactive species during ionizing radiation by peroxydisulfate for enhanced degradation of typical pollutants in coking wastewater.

[1]  Jianlong Wang,et al.  Removal of bisphenol a from wastewater by adsorption and membrane separation: Performances and mechanisms , 2024, Chemical Engineering Journal.

[2]  Jianlong Wang,et al.  Decolorization and degradation of various dyes and dye-containing wastewater treatment by electron beam radiation technology: An overview. , 2024, Chemosphere.

[3]  Shizong Wang,et al.  Advanced treatment of coking wastewater: Recent advances and prospects. , 2023, Chemosphere.

[4]  G. Almisned,et al.  Energy deposition responses, transmission factors, and radiation interaction properties of some antibiotics: A critical assessment for substantial molecular alterations as a function of radiation exposure , 2023, Radiation Physics and Chemistry.

[5]  Xiaoxuan Huang,et al.  Radiation-induced degradation of sulfonamide and quinolone antibiotics: A brief review , 2023, Radiation Physics and Chemistry.

[6]  Beibei Yan,et al.  A critical review on correlating active sites, oxidative species and degradation routes with persulfate-based antibiotics oxidation. , 2023, Water research.

[7]  Hai-yang Shao,et al.  Electron beam degradation of the cardiovascular drug salbutamol: Mechanisms and degradation pathways. , 2023, Chemosphere.

[8]  M. Menkiti,et al.  Technologies for removing pharmaceuticals and personal care products (PPCPs) from aqueous solutions: Recent advances, performances, challenges and recommendations for improvements , 2022, Journal of Molecular Liquids.

[9]  Yanqiu Wang,et al.  Study on preparation of a novel needle coke heterogeneous electro-Fenton cathode for coking wastewater treatment , 2022, Chemical Engineering Journal.

[10]  Shizong Wang,et al.  Treatment of hospital wastewater by electron beam technology: Removal of COD, pathogenic bacteria and viruses , 2022, Chemosphere.

[11]  Zhengqian Liu,et al.  Treatment of contaminants by a cathode/FeIII/peroxydisulfate process: Formation of suspended solid organic-polymers. , 2022, Water research.

[12]  Hai-yang Shao,et al.  The performance and pathway of benzothiazole degradation by electron beam irradiation. , 2022, Chemosphere.

[13]  Shizong Wang,et al.  Electron Beam Technology Coupled to Fenton Oxidation for Advanced Treatment of Dyeing Wastewater: from Laboratory to Full Application , 2022, ACS ES&T Water.

[14]  Youxue Zhang,et al.  First full-scale application of electron beam technology for treating dyeing wastewater (30,000 m3/d) in China , 2022, Radiation Physics and Chemistry.

[15]  Jianlong Wang,et al.  Advanced treatment of antibiotic wastewater by ionizing radiation combined with peroxymonosulfate/H2O2 oxidation , 2021, Journal of Cleaner Production.

[16]  Jianlong Wang,et al.  Treatment of pharmaceutical wastewater by ionizing radiation: Removal of antibiotics, antimicrobial resistance genes and antimicrobial activity. , 2021, Journal of hazardous materials.

[17]  Min Sik Kim,et al.  Occurrence of unknown reactive species in UV/H2O2 system leading to false interpretation of hydroxyl radical probe reactions. , 2021, Water research.

[18]  Shizong Wang,et al.  Effect of inorganic anions on the performance of advanced oxidation processes for degradation of organic contaminants , 2021 .

[19]  Lingli Wang,et al.  Uncertainty and misinterpretation over identification, quantification and transformation of reactive species generated in catalytic oxidation processes: A review. , 2020, Journal of hazardous materials.

[20]  Jianlong Wang,et al.  Degradation of sulfamethoxazole by ozonation combined with ionizing radiation. , 2020, Journal of hazardous materials.

[21]  Pin Hou,et al.  Catalytic ozonation of bio-treated coking wastewater in continuous pilot- and full-scale system: Efficiency, catalyst deactivation and in-situ regeneration. , 2020, Water research.

[22]  L. Wojnárovits,et al.  Application of coumarin and coumarin-3-carboxylic acid for the determination of hydroxyl radicals during different advanced oxidation processes , 2020 .

[23]  A. Ponomarev,et al.  The green method in water management: Electron beam treatment. , 2020, Environmental science & technology.

[24]  U. von Gunten,et al.  Persulfate-based Advanced Oxidation: Critical Assessment of Opportunities and Roadblocks. , 2020, Environmental science & technology.

[25]  C. Feng,et al.  Structure and function of microbial community involved in a novel full-scale prefix oxic coking wastewater treatment O/H/O system. , 2019, Water research.

[26]  Jianlong Wang,et al.  Degradation of antibiotic cephalosporin C in aqueous solution and elimination of antimicrobial activity by gamma irradiation , 2019, Chemical Engineering Journal.

[27]  L. Wojnárovits,et al.  Rate constants of sulfate radical anion reactions with organic molecules: A review. , 2019, Chemosphere.

[28]  Shizong Wang,et al.  Oxidative removal of carbamazepine by peroxymonosulfate (PMS) combined to ionizing radiation: Degradation, mineralization and biological toxicity. , 2019, The Science of the total environment.

[29]  Jun Ma,et al.  Comparative study on degradation of propranolol and formation of oxidation products by UV/H2O2 and UV/persulfate (PDS). , 2019, Water research.

[30]  Jianlong Wang,et al.  The occurrence, distribution and degradation of antibiotics by ionizing radiation: An overview. , 2019, The Science of the total environment.

[31]  K. Linden,et al.  Low levels of iron enhance UV/H2O2 efficiency at neutral pH. , 2018, Water research.

[32]  Shizong Wang,et al.  Activation of persulfate (PS) and peroxymonosulfate (PMS) and application for the degradation of emerging contaminants , 2018 .

[33]  Sahidou O. B. Boukari,et al.  Gamma irradiation-induced complete degradation and mineralization of phenol in aqueous solution: Effects of reagent. , 2017, Journal of hazardous materials.

[34]  Z. Dong,et al.  Surface-active bismuth ferrite as superior peroxymonosulfate activator for aqueous sulfamethoxazole removal: Performance, mechanism and quantification of sulfate radical. , 2017, Journal of hazardous materials.

[35]  Jinping Tian,et al.  Gamma irradiation of 2-mercaptobenzothiazole aqueous solution in the presence of persulfate. , 2016, Journal of environmental sciences.

[36]  Jianlong Wang,et al.  Irradiation treatment of pharmaceutical and personal care products (PPCPs) in water and wastewater: An overview , 2016 .

[37]  Jing Xu,et al.  Iron oxychloride (FeOCl): an efficient Fenton-like catalyst for producing hydroxyl radicals in degradation of organic contaminants. , 2013, Journal of the American Chemical Society.

[38]  Jianlong Wang,et al.  Degradation of sulfamethazine by gamma irradiation in the presence of hydrogen peroxide. , 2013, Journal of hazardous materials.

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

[40]  N. K. Leitner,et al.  The influence of persulfate addition for the degradation of micropollutants by ionizing radiation , 2011 .

[41]  J. Rivera-Utrilla,et al.  Gamma irradiation of pharmaceutical compounds, nitroimidazoles, as a new alternative for water treatment. , 2009, Water research.

[42]  W. J. Cooper,et al.  Radiation induced decomposition of methyl tert-butyl ether in water in presence of chloroform: kinetic modelling. , 2005, Water research.

[43]  A. K. Pikaev Current status of the application of ionizing radiation to environmental protection: II. Wastewater and other liquid wastes (A review) , 2000 .

[44]  Z. Zuo,et al.  Radiolysis of aqueous solutions with pulsed helium ion beams—2. Yield of SO4− formed by scavenging hydrated electron as a function of S2O2−8 concentration , 1999 .

[45]  K. Mopper,et al.  Hydroxyl radical photoproduction in the sea and its potential impact on marine processes. , 1990, Science.

[46]  G. Buxton,et al.  Critical Review of rate constants for reactions of hydrated electrons, hydrogen atoms and hydroxyl radicals (⋅OH/⋅O− in Aqueous Solution , 1988 .

[47]  F. Dainton,et al.  The Effect of pH on the Radical Yields in the γ-Radiolysis of Aqueous Systems , 1962, Nature.

[48]  H. Wiener,et al.  Decomposition of Methane in an Electrical Discharge1 , 1953 .

[49]  N. K. Leitner,et al.  Reaction pathway of the degradation of the p-hydroxybenzoic acid by sulfate radical generated by ionizing radiations , 2015 .

[50]  B. Ershov,et al.  PRIMARY PRODUCTS OF THE RADIOLYSIS OF WATER AND THEIR REACTIVITY , 1967 .

[51]  T. Yang,et al.  Enriched photocatalysis-Fenton synergistic degradation of organic pollutants and coking wastewater via surface oxygen vacancies over Fe-BiOBr composites , 2022, Chemical Engineering Journal.