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Advanced oxidation technology

Proceedings of the First International Conference on Advanced Oxidation Technologies, London, Ontario, Canada, June 25—July 1,1994. [Pg.405]

Speth, T.F. and Swanson, G.R., Demonstration of the HiPOx Advanced Oxidation Technology for the Treatment of MTBE-Contaminated Groundwater, EPA/600/R-02/098, U.S. EPA National Risk Management, Research Laboratory, United States Environmental Protection Agency, Cincinnati, OH. September 2002. [Pg.1054]

Huai, Hoffmann MR (1997) Optimization of ultrasonic irradiation as an advanced oxidation technology. Environ Sci Technol 31 2237-2243... [Pg.335]

Vogelpohl, A., Advanced oxidation technologies for industrial water reuse, Chapter 22 in Water recycling and resource recovery in industry Analysis, technologies and implementation, Edited by P.Lens et al., IWA publishing, 2002, ISBN 1 84339 005 1. [Pg.254]

Sato, M Sun, B Ohshima, T Sagi, Y. Characteristics of active species and removal of organic compounds by a pulsed corona discharge in water. Journal of Advanced Oxidation Technologies, 1999 4, 339-342. [Pg.77]

Kusic, H Koprivanac, N Petemel, I Locke BR. Hybrid gas/liquid electrical discharge reaetors with zeolites for colored wastewater degradation. Journal of Advanced Oxidation Technologies, 2005 8 (2), 172-181. [Pg.78]

The technology treats contaminants that are not effectively treated by advanced oxidation technologies. [Pg.392]

When the liquid corona technology was used to treat water contaminated with 40 parts per million (ppm) pentachlorophenol (PCP), the electrical costs ranged from 1.00 to 2.00. In comparison, the published costs for using the UV/hydrogen peroxide advanced oxidation technology to treat water contaminated with 10 ppm PCP ranged from 1.25 to 3.00 per 1000 gal of waste treated (D14691S, p. 1). [Pg.392]

C. S. Turchi, E. J. Wolfrum and R. A. Miller, Abstracrs for the First International Conference on Advanced Oxidation Technologies, p.125, London, Ontario. Canada (1994). [Pg.265]

K. Takeuchi, T. Ibusuki, S. Nishikata and T Nishimura, Proceedings of the 2nd International Symposium on Environmental Application of Advanced Oxidation Technologies, Report CR-107581, Electric Research Institute, pp.9-7C (1997). [Pg.265]

Minero, C., Pelizzetti, E., Pichat, P., Sega, M., and Vicenti, M., Formation of condensation products in advanced oxidation technologies the photocatalytic degradation of dichlorophenols on Ti02, Environ. Sci. Technol., 29, 2226, 1995. [Pg.391]

O3/UV/H2O2 AOTs, together with other processes treated in different chapters (such as Fenton oxidation), can be named ambient (temperature and pressure), advanced oxidation technologies, in contrast with other AOTs such as hydrothermal oxidation processes that require pressures and temperatures above 1 MPa and 150°C, respectively, and which are more suitable for the treatment of concentrated wastewaters. It is evident that appropriate ranges of concentrations for the different oxidation technologies cannot be exactly established but some recommended values have been reported [29]. Fig. 1 shows some possible recommended ranges of concentrations for these types of AOTs. [Pg.13]

Legube B, Karpel Yel Leitner N. Catalytic ozonation a promising advanced oxidation technology for water treatment. Catal Today 1999 53 61-72. [Pg.85]

Minero C, Pelizzetti E, Pichat P, Sega M, Vincenti M. Formation of condensation products in advanced oxidation technologies. The photocatalytic degradation of dichlorophenols over Ti02. Environ Sci Technol 1995 29 2226-2234. [Pg.125]

Several innovative, ultimate disposal technologies are currently being developed for the treatment of water. These advanced oxidation technologies act as sources of free radicals, principally hydroxyl radical ( OH), which... [Pg.311]

The addition of ozone before radiolysis thus produces an overwhelmingly oxidizing system. This is probably the most powerful oxidizing system produced by any of the advanced oxidation technologies currently proposed for water treatment [52],... [Pg.341]

Aguila, A. O Shea, E. Kamat, P. V. Radiolytic reduction and oxidation of diethyl benzylphosphonate. A pulse radiolysis study, Advance Oxidation Technology 1998, in press. [Pg.334]

Emilio CA, Jardim WF, Litter MI, Mansilla HD. EDTA destruction using the solar fer-rioxalate advanced oxidation technology (AOT). Comparison with solar photo-Fenton treatment. J Photochem Photobiol A Chem 2002 151 121-8. [Pg.372]

Anipsitakis, K. and D. Dionisiou (2002). Transition metal/UV-based advance oxidation technologies for water decontamination. Appl. Catal. B Environ. 54, 155-163. [Pg.243]

Keywords Photochemical Advanced Oxidation Technologies Vacuum ultraviolet Ozonation Direct photolysis Photo-Fenton Photo-ferrioxalate Photocatalysis... [Pg.326]

Table 1 Advanced Oxidation Technologies and other related processes ... Table 1 Advanced Oxidation Technologies and other related processes ...
Table 4 Regions of the UV-Vis electromagnetic spectrum and their application in Photochemical Advanced Oxidation Technologies for water treatment ... Table 4 Regions of the UV-Vis electromagnetic spectrum and their application in Photochemical Advanced Oxidation Technologies for water treatment ...
International conference Advanced Oxidation Technologies for Water and Air Remediation (AOTs) http //www.aotsconference.com... [Pg.7]

Fig. 1.4 The family of advanced oxidation technologies for water and air remediation. Fig. 1.4 The family of advanced oxidation technologies for water and air remediation.
Hua I, Hoeemann MR (1997) Optimization of Ultrasonic Irradiation as an Advanced Oxidation Technology, Environ. Sci. Technol. 31, No. 8 2237-2243. [Pg.16]

Bolton JR, Valladares JE, Zanin JP, Cooper WJ, Nickelson mg, Kajd DC, Waite TD, Kurucz CN (1998) Eig.s-of-Merit for Advanced Oxidation Technologies A Comparison of Homogeneous UV/H2O2, Heterogeneous UV/Ti02 and Electron Beam Processes,/ Adv. Oxid. Technol. 3, No. 2 174-181. [Pg.76]

Chemviron Carbon (1997) AOT Handbook, Advanced Oxidation Technologies, ref AOT/E-03, European Operating Unit of... [Pg.137]

Onstein P, Stefan MI, Bolton JR (1999) Competition Kinetics Method for the Determination of Rate Constants for the Reaction of Hydroxyl Radicals with Organic Pollutants Using the UV/H2O2 Advanced Oxidation Technology The Rate Constants for the tert-Butyl Formate Ester and 2,4-Di-nitrophenol,/. Adv. Oxid. Technol. 4, No. 2 231-236. [Pg.186]

Bolton JR, Bircher KG, Tumas W, Tolman CA (2001) Fig.s-of-Merit for the Technical Development and Application of Advanced Oxidation Technologies for both Electric-and Solar-Driven Systems, Pure Appl. Chem. 73, No. 4 627-637 also available on the web as pdf file via http // www.iupac.org/publications/pac/2001. [Pg.232]


See other pages where Advanced oxidation technology is mentioned: [Pg.20]    [Pg.433]    [Pg.8]    [Pg.58]    [Pg.473]    [Pg.499]    [Pg.11]    [Pg.12]    [Pg.270]    [Pg.325]    [Pg.325]    [Pg.326]    [Pg.326]    [Pg.327]    [Pg.330]    [Pg.341]    [Pg.4]    [Pg.11]    [Pg.165]   
See also in sourсe #XX -- [ Pg.5 ]

See also in sourсe #XX -- [ Pg.164 ]




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