References
- US EPA . 2006 . Ultraviolet Disinfection Guidance Manual for the Final Long Term 2 Enhanced Surface Water Treatment Rule. EPA 815-R-06-007 , Washington , DC : US EPA . Available at www.epa.gov/ogwdw/disinfection/lt2/pdfs/guide_lt2_uvguidance.pdf (accessed Jan 2013)
- Hijnen , W. A.M. , Beerendonk , E. F. and Medema , G. J. 2006 . Inactivation credit of UV radiation for viruses, bacteria and protozoan (oo)cysts in water: A review . Water Res. , 40 : 3 – 22 .
- Oppenländer , T. 2007 . Mercury-free sources of VUV-UV radiation: application of modern excimer lamps (excilamps) for water and air treatment . J. Environ. Eng. Sci. , 6 : 253 – 264 .
- Sosnin , E. A. , Oppenländer , T. and Tarasenko , F. V. 2006 . Applications of capacitive and barrier discharge excilamps in photoscience . J. Photochem. Photobiol. C , 7 : 145 – 163 .
- Avdeev , S. M. , Velichevskaya , K. Yu. , Sosnin , E. A. , Tarasenko , V. F. and Lavrenteva , L. V. 2008 . Analysis of germicidal action of UV radiation of excimer and exciplex lamps . Light Eng. , 16 : 32 – 38 .
- Tarasenko , V. F. , Sosnin , E. A. , Zhdanova , O. S. and Krasnozhenov , E. P. 2012 . “ Applications of excilamps in microbiological and medical investigations ” . In NATO Science for Peace and Security Series A: Chemistry and Biology, Plasma for Bio-Decontamination, Medicine and Food Security, Part 3 , Edited by: Machala , Z. , Hensel , K. and Akishev , Y. 251 – 263 . Springer Science+Business Media B.V.: Dordrecht, The Netherlands . Chap. 19
- Muranyi , P. , Wunderlich , J. and Heise , M. 2007 . Sterilization efficiency of a cascaded dielectric barrier discharge . J. Appl. Microbiol. , 103 : 1535 – 1544 .
- Christofi , N. , Misakyan , M. A. , Matafonova , G. G. , Barkhudarov , E. M. , Batoev , V. B. , Kossyi , I. A. and Sharp , J. 2008 . UV treatment of microorganisms on artificially-contaminated surfaces using excimer and microwave UV lamps . Chemosphere , 73 : 717 – 722 .
- Matafonova , G.G. , Batoev , V. B. , Astakhova , S. A. , Gomez , M. and Christofi , N. 2008 . Efficiency of KrCl excilamp (222 nm) for inactivation of bacteria in suspension . Lett. Appl. Microbiol. , 47 : 508 – 513 .
- Naunovic , Z. , Limb , S. , Ernest , R. and Blatchley , E. R. III . 2008 . Investigation of microbial inactivation efficiency of a UV disinfection system employing an excimer lamp . Water Res. , 42 : 4838 – 4846 .
- Guivan , M. M. , Kamikozawa , T. , Kurokawa , H. , Motomura , H. , Kadowaki , K. and Jinno , M. 2010 . Comparative inactivation of Bacillus subtilis spores using a DBD-driven xenon iodide excilamp and a conventional mercury lamp. IEEE Trans . Plasma Sci. , 38 ( 8 ) : 1972 – 1977 .
- Wang , D. , Oppenländer , T. , Gamal El-Din , M. and Bolton , J. R. 2010 . Comparison of the disinfection effects of vacuum-UV (VUV) and UV light on Bacillus subtilis spores in aqueous suspensions at 172, 222 and 254 nm . Photochem. Photobiol. , 86 : 176 – 181 .
- Rahmani , B. , Hafsa , C. , Rahmani , El R. , Kacem , M. , Harche , M. K. , Bhosle , S. , Aubes , M. and Zissis , G. 2010 . Photoinactivation of the Escherichia coli by the pulsed dielectric barrier discharge excilamp krypton chlorine emitted at 222 nm. IEEE Trans . Plasma Sci. , 38 ( 4 ) : 953 – 956 .
- McCullagh , C. , Robertson , J. M.C. , Bahnemann , D. W. and Robertson , P. K.J. 2007 . The application of TiO2 photocatalysis for disinfection of water contaminated with pathogenic micro-organisms: A review . Res. Chem. Intermed. , 33 ( 3–5 ) : 359 – 375 .
- Chong , M. N. , Jin , B. , Chow , C. W.K. and Saint , C. 2010 . Recent developments in photocatalytic water treatment technology: A review . Water Res. , 44 : 2997 – 3027 .
- Salinaro , A. , Emeline , A. V. , Zhao , J. , Hidaka , H. , Ryabchuk , V. K. and Serpone , N. 1999 . Terminology, relative photonic efficiencies and quantum yields in heterogeneous photocatalysis. Part II: Experimental determination of quantum yields . Pure Appl. Chem. , 71 ( 2 ) : 321 – 335 .
- Oppenläder , T . 2003 . “ Photocatalysts ” . In Photochemical Purification of Water and Air. Advanced Oxidation Processes (AOPs): Principles, Reaction Mechanisms, Reactor Concepts 159 – 162 . Wiley-VCH Verlag GmbH KGaA: Weinheim , , Germany
- Mamane , H. , Ducoste , J. J. and Linden , K. G. 2006 . Effect of particles on ultraviolet light penetration in natural and engineered systems . Appl. Opt. , 45 : 1844 – 1856 .
- Mamane , H. and Linden , K. G. 2006 . Impact of particle aggregated microbes on UV disinfection. II: Proper absorbance measurement for UV fluence . J. Environ. Eng. , 132 ( 6 ) : 607 – 615 .
- Bolton , J. R. and Linden , K. G. 2003 . Standardization of methods for fluence (UV dose) determination in bench-scale UV experiments . J. Environ. Eng. , 129 : 209 – 215 .
- Christensen , J. and Linden , K. G. 2003 . How particles affect UV light in the UV disinfection of unfiltered drinking water . J. Am. Water Works Assoc. , 95 ( 4 ) : 179 – 189 .
- Cho , M. , Chung , H. , Choi , W. and Yoon , J. 2004 . Linear correlation between inactivation of E. coli and OH radical concentration in TiO2 photocatalytic disinfection . Water Res. , 38 : 1069 – 1077 .
- Mamane , H. , Shemer , H. and Linden , K. G. 2007 . Inactivation of E. coli, B. subtilis spores, and MS2, T4, and T7 phage using UV/H2O2 advanced oxidation . J. Hazard. Mater. , 146 : 479 – 486 .
- Elovitz , M. and von Gunten , U. 1999 . Hydroxyl radical/ozone ratios during the ozonation processes. I. The Rct Concept . Ozone Sci. Eng. , 221 : 239 – 260 .
- Benabbou , A. K. , Derriche , Z. , Felix , C. , Lejeune , P. and Guillard , C. 2007 . Photocatalytic inactivation of Escherichia coli: Effect of concentration of TiO2 and microorganism, nature, and intensity of UV irradiation . Appl. Catal. B–Environ. , 76 : 257 – 263 .
- Marugán , J. , van Grieken , R. , Sordo , C. and Cruz , C. 2008 . Kinetics of the photocatalytic disinfection of Escherichia coli suspensions . Appl. Catal. B–Environ. , 82 : 27 – 36 .
- Mamane , H. , Bohrerova , Z. and Linden , K. G. 2009 . Evaluation of Bacillus spore survival and surface morphology following chlorine and ultraviolet disinfection in water . J. Environ. Eng. , 135 ( 8 ) : 692 – 699 .
- Rincón , A.-G. and Pulgarin , C. 2004 . Bactericidal action of illuminated TiO2 on pure Escherichia coli and natural bacterial consortia: post-irradiation events in the dark and assessment of the effective disinfection time . Appl. Catal. B–Environ. , 49 : 99 – 112 .