Электрохимические и адсорбционные методы удаления диклофенака, тетрациклина и карбамазепина из водных сред
Диссертация
В настоящее время интенсивно разрабатываются такие эффективные физико-химические методы очистки сточных вод от органических загрязнителей как электрохимическое окисление и адсорбция на углеродных адсорбентах. Для электрохимического окисления наиболее пе пективным материалом является алмазный электрод, допированный бором. На этом электроде при анодной поляризации удается достичь потенциалов… Читать ещё >
Список литературы
- Гетьман М.А., Наркевич И. А. Лекарственные средства в окружающей среде //
- Ремедиум. 2013. № 2. С. 50−54.
- Heberer Th. Occurrence, fate, and removal of pharmaceutical residues in the aquatic environment: a review of recent research data // Toxicol. Let. 2002. Vol. 131. P. 5−17.
- Daughton Ch.G., Ternes Th. A. Pharmaceuticals and personal care products in the environment: agents of subtle change // Environmental health perspectives. 1999. Vol. 107 (6). P. 907−938.
- Crane M., Watts C., Boucard T. Chronic aquatic environmental risks from exposure to human pharmaceuticals // Sci.Total.Environ. 2006. Vol. 367. P. 2341.
- Kapalka A., Foti G., Comninellis Ch. Investigation of electrochemical oxygen transfer reaction on boron-doped diamond electrodes // Electrochim. Acta. 2007. Vol. 53. C. 1954−1961.
- Toyoda M., Inagaki M. Heavy oil sorption using exfoliated graphite New application of exfoliated graphite to protect heavy oil pollution // Carbon. 2000. Vol. 38. P. 199−210.
- Аляутдин P.H. Фармакология. 2-е изд. M.: Гэотар-Мед, 2004. 591 с.
- Кукес В.Г., Стародубцев А. К. Клиническая фармакология и фармакотерапия. М: Гэотар-Мед, 2003. 640 с.
- Cleuvers М. Aquatic ecotoxicity of pharmaceuticals including the assessment of combination effects. //Toxicol. Lett. 2003. Vol. 142. P. 185−194.
- Hallare A.V., Kohler H.R., Triebskorn R. Developmental toxicity and stress protein responses in zebrafish embryos after exposure to diclofenac and its solvent, DMSO // Chemosphere. 2004. Vol. 56 (7). P. 659−666.
- Banks A.T., Zimmerman H.J., Ishak K.G., Harter J.G. Diclofenac-associated hepatotoxicity: analysis of 180 cases reported to the food and drug administration as adverse reactions // Hepatology. 1995. Vol.22 (3). P. 820−827.
- Bjorkman D. Nonsteroidal anti-inflammatory drugassociated toxicity of the liver, lower gastrointestinal tract, and esophagus. // Am. J. Med. 1998. Vol. 105 (5 Suppl. 1). P. 17S-21S.
- Luczkiewicz A., Jankowska K., Fudala-Ksia S., Olanczek-Neyman K. Antimicrobial resistance of fecal indicators in municipal wastewater treatment plant // Water research. 2010. Vol.44. P. 5089−5097.
- Tao R., Ying G.-G., Su H.-Ch., Zhou H.-W., P. S. Sidhu J. Detection of antibiotic resistance and tetracycline resistance genes in Enterobacteriaceae isolated from the Pearl rivers in South China // Envir. Pollution. 2010. Vol.158. P. 2101−2109.
- Yu D., Yi X., Ma Y., Yin B., Zhuo H., Li J., Huang Y. Effects of administration mode of antibiotics on antibiotic resistance of Enterococcus faecalis in aquatic ecosystems // Chemosphere. 2009. Vol. 76. P. 915−920.
- Thaker Pharmaceutical data elude researchers // Environ. Sci. Technol. 2005. Vol.139 (9). P. 193A-194A.
- Ternes Th. A., Meisenheimer M., Mcdowell D., Sacher F., Brauch H.-J., Haist-Gulde B., Preuss G., Wilme U., Zulei-Seibert N. Removal of Pharmaceuticals during Drinking Water Treatment // Environ. Sci. Technol. 2002. Vol. 36. P. 38 553 863.
- Buser H.-R., Polger T., Muller M.D. Occurrence and fate of the pharmaceutical drug diclofenac in surface waters: rapid photodegradation in a lake // Environ. Sci. Technol. 1998. Vol. 32. P. 3449−3456.
- Tixier C., Singer H.P., Oellers S., Muller S.R. Occurrence and Fate of Carbamazepine, Clofibric Acid, Diclofenac, Ibuprofen, Ketoprofen, and Naproxen in Surface Waters // Environ. Sci.Technol., 2003. Vol. 37. P. 1061−1068.
- Zhou J.L., Zhang Z.L., Banks E., Grovera D., Jiang J.Q. Pharmaceutical residues in wastewater treatment works effluents and their impact on receiving river water // J.Hazard.Mater. 2009. Vol. 166. P. 655−661.
- Spongberg A.L., Witter J.D. Pharmaceutical compounds in the wastewater process stream in Northwest Ohio // Sci. Total. Environ. 2008. Vol. 397. P. 148−157.
- Gomez M.J., Martfnez Bueno M.J., Lacorte S., Ferna’ndez-Alba A.R., Agu’era A. Pilot survey monitoring pharmaceuticals and related compounds in a sewage treatment plant located on the Mediterranean coast // Chemosphere. 2007. Vol. 66. P. 993−1002.
- Koutsouba V., Heberer Th., Fuhrmann B., Schmidt-Baumler K., Tsipi D., Hiskia A. Determination of polar pharmaceuticals in sewage water of Greece by gas chromatography-mass spectrometry // Chemosphere. 2003. Vol. 51. P. 69−75.
- Metcalf Ch. D., Koenig B. G., Bennie D.T., Servos M., Ternes Th. A., Hirch R. Occurrence of neutral and acidic drugs in the effluents of Canadian sewage treatment plants // Environ.Toxicol.Chem. 2003. Vol. 22. P. 2872−2880.
- Zhang Z., Hibberd A., Zhou J. L. Analysis of emerging contaminants in sewage effluent and river water: Comparison between spot and passive sampling // Anal.Chim.Acta. 2008. Vol. 607.P. 37−44.
- Al-Rifai J.H., Gabelish C.L., Scha’fer A.I. Occurrence of pharmaceutically active and non-steroidal estrogenic compounds in three different wastewater recycling schemes in Australia // Chemosphere. 2007. Vol. 69. P. 803−815.
- Verenitch S.S., Lowe Ch. J., Mazumder A. Determination of acidic drugs and caffeine in municipal wastewaters and receiving waters by gas chromatography-ion trap tandem mass spectrometry // J.Chromat.A. 2006. Vol. 1116. P. 193−203.
- Siemensa J., Huschek G., Siebe C., Kaupenjohann M. Concentrations and mobility of human pharmaceuticals in the world’s largest wastewater irrigation system, Mexico City-Mezquital Valley // Water research. 2008. Vol. 42. P. 2124 -2134.
- Stumpf M., Ternes Th. A., Wilken R.-D., Rodrigues S.V., Baumann W. Polar drug residues in sewage and natural waters in the state of Rio de Janeiro, Brazil // Sci.Total.Environ. 1999. Vol. 225. P. 135−141.
- Scheurell M., Franke S., Shah R.M., Huhnerfuss H. Occurrence of diclofenac and its metabolites in surface water and effluent samples from Karachi, Pakistan // Chemosphere. 2009. Vol. 77. P. 870−876.
- Vieno N.M., Harkki H., Tuhkanen T., Kronberg L. Occurrence of Pharmaceuticals in River Water and Their Elimination in a Pilot-Scale Drinking Water Treatment Plant // Environ.Sci.Technol. 2007. Vol. 41. P. 5077−5084.
- Vieno N.M., Harkki H., Tuhkanen T., Kronberg L. Using liquid chromatography-ion trap mass spectrometry to determine pharmaceutical residues in Taiwanese rivers and wastewaters // Chemosphere. 2008. Vol. 72. P. 863−869.
- Kimura K., Hara H., Watanabe Y. Elimination of selected acidic pharmaceuticals from municipal wastewater by an activated sludge system and membrane bioreactors // Environ.Sci.Technol. 2007. Vol. 41. P. 3708−3714.
- Brown J.N., Pax’eus N., F’orlin L., Joakim Larsson D.G. Variations in bioconcentration of human pharmaceuticals from sewage effluents into fish blood plasma // Environ.Toxicol.Pharmacol. 2007. Vol. 24. P. 267−274.
- Go’mez M.J., Martfnez Bueno M.J., Lacorte S., Ferna’ndez-Alba A.R., Agu’era A. Pilot survey monitoring pharmaceuticals and related compounds in a sewage treatment plant located on the Mediterranean coast // Chemosphere. 2007. Vol. 66. P. 993−1002.
- Zhang Z., Hibberd A., Zhou J.L. Analysis of emerging contaminants in sewage effluent and river water: Comparison between spot and passive sampling // Anal.chim.acta. 2008. Vol. 607. P. 37−44.
- Wei R., Ge F., Huang S., Chen M., Wang R. Occurrence of veterinary antibiotics in animal wastewater and surface water around farms in Jiangsu Province, China // Chemosphere. 2011. Vol. 82. P. 1408−1414.
- Miao X.-S., Bishay F., Chen M., Metcalfe C.D. Occurrence of antimicrobials in the final effluents of wastewater treatment plants in Canada // Environ. Sci. Technol. 2004. Vol. 38. P. 3533−3541.
- Plosz B.J., Leknes H., Liltved H., Thomas K.V. Diurnal variations in the occurrence and the fate of hormones and antibiotics in activated sludge wastewater treatment in Oslo, Norway // Sci.Total.Environ. 2010. Vol. 408. P. 1915−1924.
- Le-Minh N., Khan S.J., Drewes J.E., Stuetz R.M. Fate of antibiotics during municipal water recycling treatment processes // Water Research. 2010. Vol. 44. P. 4295−4323.
- Brandhof E.-J., Montforts M. Fish embryotoxicity of carbamazepine, diclofenac and metoprolol // Ecotoxicology and Environmental Safety. 2010. V. 73. C. 18 621 866.
- Malarvizhi A., Kavitha Ch., Saravanan M., Ramesh M. Fate of antibiotics during municipal water recycling treatment processes // Journal of King Saud University -Science. 2012. Vol. 24. P. 179−186.
- Ericsona H., Thorsen G., Kumblad L. Physiological effects of diclofenac, ibuprofen and propranolol on Baltic Sea blue mussels // Aquatic Toxicology. 2010. Vol. 99. P. 223−231.
- Hong H.N., Kim H.N., Park K.S., Lee S.-K., Gu M.B. Analysis of the effects diclofenac has on Japanese medaka (Oryzias latipes) using real-time PCR // Chemosphere. 2007. Vol. 67.P. 2115−2121.
- Browna J.N., Pax’eus N., F’orlin L., Joakim Larsson D.G. Variations in bioconcentration of human pharmaceuticals from sewage effluents into fish blood plasma // Environ. Toxicol.Pharmacol. 2007. Vol. 24. P. 267−274.
- Escher B.I., Baumgartner R., Koller M., Treyer K., Lienert J., McArdell Ch.S. Environmental toxicology and risk assessment of pharmaceuticals from hospital wastewater // Water Research. 2011. Vol. 45. P. 75−92.
- Fent K., Weston A.A., Caminada D. Ecotoxicology of human pharmaceuticals // Aquatic Toxicology. 2006. Vol. 76. P. 122−159.
- Haap T., Triebskorn R., Kohler H.-R. Acute effects of diclofenac and DMSO to Daphnia magna: Immobilisation and hsp70-induction // Chemosphere. 2008. Vol. 73. P. 353−359.
- Klavarioti M., Mantzavinos D., Kassinos D. Removal of residual pharmaceuticals from aqueous systems by advanced oxidation processes // Environment International. 2009. Vol. 35. P. 402−417.
- Mantzavinos D., Psillakis E. Enhancement of biodegradability of industrial wastewaters by chemical oxidation pre-treatment // J.Chem. Tech. Biotech. 2004. Vol. 79. P. 431−454.
- Comninellis Ch., Kapalka A., Malato S., Parsons S.A., Poulios I., Mantzavinos D. Advanced oxidation processes for water treatment: advances and trends for R&D // J.Chem. Technol. Biotechnol. 2008. Vol. 83. P. 769−776.
- Andreozzi R., Caprio V., Insola A., Marotta R. Advanced oxidation processes (AOP) for water purification and recovery // Catal. Today. 1999. Vol. 53. P. 51−59.
- Горшков В.И., Кузнецов И. А. Основы физической химии. 4 изд. М.: БИНОМ. Лаборатория знаний, 2011. 408 с.
- Doll Т.Е., Frimmel F.H. Fate of pharmaceuticals—photodegradation by simulated solar UV-light // Chemosphere. 2003. Vol. 52. P. 1757−1769.
- Felis E., Miksch K. Removal of analgesic drugs from the aquatic environment using photochemical methods // Water Sci. Technol. 2009. Vol. 60. P. 2253.
- Bartels P., Tumpling Jr. W. Solar radiation influence on the decomposition process of diclofenac in surface waters // Sci. Total. Envir. 2007. Vol. 374. P. 143 155.
- Jiao Sh., Zheng Sh., Yin D., Wang L., Chen L. Aqueous photolysis of tetracycline and toxicity of photolytic products to luminescent bacteria // Chemosphere. 2008. Vol. 73. P. 377−382.
- Dantas R.F., Canterino M., Marotta R., Sans C., Esplugas S., Andreozzi R. Bezafibrate removal by means of ozonation: Primary intermediates, kinetics, and toxicity assessment // Water research. 2007. Vol. 41. P. 2525−2532.
- Dantas R.F., Contreras S., Sans C., Esplugas S. Sulfamethoxazole abatement by means of ozonation//J. Hazard. Mater. 2008. Vol. 150. P. 790−794.
- Sotelo, J.L., Benitez, F.J., Beltran-Heredia, J. Ozone decomposition in water: kinetics study // Ind. Eng. Chem. Res. 1987. Vol. 26. P. 39−43.
- Huber M.M., Canonica S., Park G.-U., Gunten U.V. Oxidation of Pharmaceuticals during Ozonation and Advanced Oxidation Processes // Environ. Sci. Technol. 2003. Vol. 37. P. 1016−1024.
- Sein M.M., Zedda M.M. Oxidation of diclofenac with ozone in aqueous solution // Environ. Sci. Technol. 2008. Vol. 42. P. 6656−6662.
- Vogna D., Marotta R., Andreozzi R., Napolitano A., d’lschia M Kinetic and chemical assessment of the UV/H2O2 treatment of antiepileptic drug carbamazepine // Chemosphere. 2004. Vol. 54. P. 497−505.
- Vogna D., Marotta R., Napolitano A., Andreozzi R., d’lschia M Advanced oxidation of the pharmaceutical drug diclofenac with UV/H202 and ozone // Water research. 2004. Vol. 38. P. 414−422.
- Coelho A.D., Sans C., Aquera A., Gomez M.J., Espluqas S., Dezotti M. Effects of ozone pre-treatment on diclofenac: intermediates, biodegradability and toxicity assessment// Sci.Total.Environ. 2009. Vol. 407. P. 3572−3578.
- Dalmazio I., Almeida M.O., Augusti R., Alves T.M. Monitoring the Degradation of Tetracycline by Ozone in Aqueous Medium Via Atmospheric Pressure Ionization Mass Spectrometry // J Am Soc Mass Spectrom. 2007. Vol. 18. P. 679 687.
- Mcdowell D.C., Huber M.M., Wagner M., Gunten U.V., Ternes T.A. Ozone of carbamazepine in drinking water: identification and kinetic study of major oxidation products//Environ. Sci. Technol. 2005. Vol. 39. C. 8014−8022.
- Saritha P., Aparna C., Himabindu V., Anjaneyulu Y. Comparison of various advanced oxidation processes for the degradation of 4-chloro-2 nitrophenol // J. Hazard. Mater. 2007. Vol. 149. P. 609−614.
- Kajitvichyanukul P., Suntronvipart N. Evaluation of biodegradability and oxidation degree of hospital wastewater using photo-Fenton process as the pretreatment method//J.Hazard.Mater. 2006. Vol. 138. P. 384−391.
- Safarzadeh-Amiri A., Bolton J.R., CaterS.R. Ferrioxalate-mediated photodegradation of organic pollutants in contaminated water // Water Res. 1997. Vol.31. P. 787−798.
- Sires I., Brillas E. Remediation of water pollution caused by pharmaceutical residues based on electrochemical separation and degradation technologies: A review // Environment International. 2012. Vol. 40. P. 212−229.
- Homem V., Santos L. Degradation and removal methods of antibiotics from aqueous matrices e A review // Journal of Environmental Management. 2011. Vol. 92. P. 2304−2347.
- Ravina M., Campanella L., Kiwi J. Accelerated mineralization of the drug Diclofenac via Fenton reactions in a concentric photo-reactor // Water research. 2002. Vol. 36. P. 3553−3560.
- Perez-Estrada L.A., Maldonado M.I., Gernjak W., Aguera A., Fernandez-Alba A.R., Ballesteros M.M., Malato S. Decomposition of diclofenac by solar driven photocatalysis at pilot plant scale // Catalysis Today. 2005. Vol. 101. P. 219−226.
- Sun S.-P., Zeng X., Lemley A.T. Kinetics and mechanism of carbamazepine degradation by a modified Fenton-like reaction with ferric-nitrilotriacetate complexes // J. Hazard. Mater. 2013. Vol. 252−253. P. 155−165.
- Abella’n M.N., Bayarri B., Gime’nez J., Costa J. Photocatalytic degradation of sulfamethoxazole in aqueous suspension of TIO2 // Applied Catalysis B: Environmental. 2007. Vol. 74. P. 233−241.
- Calza P., Sakkas V.A., Medana C., Baiocchi C., Dimou A., Pelizzetti E., Albanis T. Photocatalytic degradation study of diclofenac over aqueous Ti02 suspensions // Applied Catalysis B: Environmental. 2006. Vol. 67. P. 197−205.
- Mendez-Arriaga F., Esplugas S., Gimenez J. Photocatalytic degradation of nonsteroidal anti-inflammatory drugs with ТЮ2 and simulated solar irradiation // Water research. 2008. Vol. 42. P. 585−594.
- Liu Y., Gan X., Zhou В., Xiong В., Li J., Dong Ch., Bai J., Cai W. Photoelectrocatalytic degradation of tetracycline by highly effective Ti02 nanopore arrays electrode // J.Hazard.Mater. 2009. Vol.171. P. 678−683.
- Maroga Mboula V., Hequet V., Gru Y., Colin R., Andres Y. Assessment of the efficiency of photocatalysis on tetracycline biodegradation // J.Hazard.Mater. 2012. Vol. 209. P. 355−364.
- Reyes C., Fernandez J., Freer J., Mondaca M.A., Zaror C., Malato S., Mansilla Fierro H.D. Degradation and inactivation of tetracycline by Ti02 photocatalysis // Journal of Photochemistry and Photobiology A: Chemistry. 2006. Vol. 184. P. 141−146.
- Hart E.J., Henglein A. Free radicals and free atom reactions in the sonolysis of aqueous iodide and formate solutions // J Phys Chem. 1985. Vol. 89. P. 4342−4347.
- Berberidou C., Poulios I., Xekoukoulotakis N.P., Mantzavinos D. Sonolytic, photocatalytic and sonophotocatalytic degradation of malachite green in aqueous solutions // Applied Catalysis B: Environmental. 2007. Vol. 74. P. 63−72.
- Serpone N., Terzian R. Ultrasonic Induced Dehalogenation and Oxidation of 2-, 3-, and 4-Chlorophenol in Air-Equilibrated Aqueous Media. Similarities with Irradiated Semiconductor Particulates // J Phys Chem. 1994. Vol. 98. P. 26 342 640.
- Гончарук В.В., Маляренко В. В., Яременко В. А. Использование ультразвука при очистке воды // Химия и технология воды. 2008. Vol. 30. С. 253−277.
- Hartmann J., Bartels P., Mau U., Witter M., Tumpling W.v., Hofmann J., Nietzschmann E. Degradation of the drug diclofenac in water by sonolysis in presence of catalysts // Chemosphere. 2008. Vol. 70. P. 453−461.
- Levee J., Pintar A. Catalytic wet-air oxidation processes: A review // Catalysis Today. 2007. Vol. 124. P. 172−184.
- Comninellis Ch., De Battisti A. Electrocatalysis in anodic oxidation of organics with simultaneous oxygen evolution // J.Chim.Phys. 1996. Vol. 93. P. 673−679.
- Comninellis Ch., Plattner E. Electrochemical wastewater treatment // Chimia. 1988. Vol. 42. P. 250−252.
- Comninellis Ch., Nerini A. Anodic oxidation of phenol in the presence of NaCI for wastewater treatment // J Appl. Electrochim. 1995. Vol. 25. P. 23−28.
- Rajeshwar K., de Tacconi N.R. Electrodeposition and characterization of nanocrystalline semiconductor films // Studies in Surface Science and Catalysis. 1997. Vol. 103. P. 321−351.
- Fierro S., Nagel T., Baltruschat H., Comninellis Ch. Investigation of the oxygen evolution reaction on Ti/Ir02 electrodes using isotope labelling and on-line mass spectrometry // Electrochemistry Communications. 2007. Vol. 9. P. 1969−1974.
- Marselli B., Garcia-Gomez J., Michaud P.-A., Rodrigo M. A., Comninellis Ch. Electrogeneration of Hydroxyl Radicals on Boron-Doped Diamond Electrodes // J. Electrochim. Soc. 2003. Vol.150. P. 79−83.
- Foti G., Gandini D., Comninellis Ch., Perret A., Haenni W. Oxidation of organics by intermediates of water discharge on Ir02 and synthetic diamond anodes // Electrochem Solid State Lett. 1999. Vol.2. P. 228−230.
- Krishtalik L.I. Kinetics and mechanism of anodic chlorine and oxygen evolution reactions on transition metal oxide electrodes // Electrochem. acta. 1981. Vol. 26. P. 329−337.
- Comninellis Ch. Electrocatalysis in the electrochemical conversion/combustion of organic pollutants for waste water treatment // Electrochemistry Communications. 1994. Vol. 39. P. 1857−1862.
- Wohlfahrt-Mehrens M., Heitbaum J. Oxygen evolution on Ru02 electrodes studied using isotope labelling and on-line mass spectrometry // J. Electroanal. Chem. 1987. Vol. 237. P. 251−260.
- Simond O., Schaller V., Comninellis Ch. Theoretical model for the anodic oxidation of organics on metal oxide electrodes // Electrochim. Acta. 1997. Vol. 42. P. 2009−2012.
- Foti G., Gandini D., Comninellis Ch. Anodi oxidation of organics on thermally prepared oxide electodes // Curr. Top. Electrochem. 1997. Vol. 5. P. 71−91.
- Плесков Ю.В. Синтетический алмаз в электрохимии // Успехи химии. 1999. № 5. С. 416−429.
- Kraft A. Doped Diamond: A Compact Review on a New, Versatile Electrode Material // Int. J. Electrochem. Sei. 2007. Vol. 2. P. 355 385.
- Peckova K., Musilova J., Barek J. Boron-Doped Diamond Film Electrodes—New Tool for Voltammetric Determination of Organic Substances // Critical Reviews in Anal. Chem. 2009. Vol. 39. P. 148−172.
- ПЗ.Выровец И. И., Грицына В. И., Дудник С. Ф., Опалев O.A., Решетняк E.H., Стрельницкий В. Е. Нанокристаллические алмазные CVD-пленки: структура, свойства и перспективы применения // ФИЛ. 2010. № 8. С. 4−19.
- Katsui N., Takahashi Е., Toyoda M., Kurosu T., Iida M., Wakita S., Nishiki Y., Shimamume T. J. Electrochem. Soc. 1998. Vol. 145. P. 2358.
- Michaud P-A., Panizza M., Ouattara L., Diaco T., Foti G., Comninellis Ch. Electrochemical oxidation of water on synthetic boron-doped diamond thin film anodes // J. Appl. Electrochem. 2003. Vol. 33. P. 151−154.
- Arihara K., Terashima Ch., Fujishima A. Application of Freestanding Perforated Diamond Electrodes for Efficient Ozone-Water Production Electrochemical Synthesis and Engineering // Electrochem. Solid-State Lett. 2006. Vol. 9. P. D17-D20.
- Kraft A., Stadelmann M., Wunsche M., Blaschke M. Electrochemical ozone production using diamond anodes and a solid polymer electrolyte // Electrochemistry Communications. 2006. Vol. 8. P. 883−886.
- Maeda Y., Sato K., Ramaraj R., Rao T.N., Tryk D.A., Fujishima A. The electrochemical response of highly boron-doped conductive diamond electrodes to Ce3+ ions in aqueous solution // Electrochim.Acta. 1999. Vol. 44. P. 3441−3449.
- Michaud P. A., Mahe E., Haenni W., Perret A., Comninellis Ch. Preparation of Peroxodisulfuric Acid Using Boron Doped Diamond Thin Film Electrodes // Electrochem. Solid-State Lett. 2000. Vol. 3. P. 77−79.
- Lehmann T., Stenner P., US Patent, US6503386, 2003.
- Comninellis Ch., Michaud P.A., Haenni W., Perret A., Fryda M. US Patent, US6855242, 2005
- Panizza M., Duo I., Michaud P. A., Cerisola G., Comnellis Ch. Electrochemical Generation of Silver (II) at Boron Doped Diamond Electrodes // Electrochem. Solid-State Lett. 2000. Vol. 3. P. 550.
- Saha M.S., Furuta T., Nishiki Y. Electrochemical Synthesis of Sodium Peroxycarbonate at Boron-Doped Diamond Electrodes // Electrochem. Solid-State Lett. 2003. Vol. 6. P. D5.
- Janssen L.J.J, Blijlevens M.H.A. Electrochemical oxidation of iodate to periodate // Electrochim. Acta. 2003. Vol. 48. P. 3959−3964.
- Canizares P., Larrondo F., Lobato J., Rodrigoz M. A., Saez C. Electrochemical Synthesis of Peroxodiphosphate Using Boron-Doped Diamond Anodes // J. Electrochem. Soc. 2005. Vol. 152. P. D191-D196.
- Lee J., Einagac Y., Fujishimad A., Park S.-M. Electrochemical Oxidation of Mn2 + on Boron-Doped Diamond Electrodes with Bi3+ Used as an Electron Transfer Mediator // J.Electrochem.Soc. 2004. Vol. 151. P. E265−270.
- Panizza M., Cerisola G. Application of diamond electrodes to electrochemical processes // Electrochim. acta. 2005. Vol. 51. P. 191−199.
- Panizza M., Brillas E., Comninellis Ch. Application of boron-doped diamond electrodes for wastewater treatment // J. Environ. Eng. Manage. 2008. Vol. 18. P. 139−153.
- Panizza M., Cerisola G. Direct and mediated anodic oxidation of organic pollutants // Chem. Rev. 2009. Vol. 109. P. 6541−6569.
- Murugananthan M., Yoshihara S., Rakuma T., Uehara N., Shirakashi T. Electrochemical degradation of 17p-estradiol (E2) at boron-doped diamond (Si/BDD) thin film electrode // Electrochim. Acta. 2007. Vol. 52. P. 3242−3249.
- Giannis A., Kalaitzakis M., Diamadopoulos E. Electrochemical treatment of olive mill wastewater // J Chem Technol Biotechnol. 2007. Vol. 82. P. 663−671.
- Manivannana A., Spataru N., Ariharac K., Fujishimad A. Electrochemical Deposition of Titanium Oxide on Boron-Doped Diamond Electrodes // Electrochem. Solid.-State Lett. 2005. Vol. 8. P. C138-C140.
- Bonne M.J., Helton M., Edler K., Marken F. Electro-deposition of thin cellulose films at boron-doped diamond substrates // Electrochem. Comm. 2007. Vol. 9. P. 42−48.
- Ivandini T.A., Sato R., Makide Y., Fujishima A., Einaga Y. Pt-implanted boron-doped diamond electrodes and the application for electrochemical detection of hydrogen peroxide // Diamond Relat. Mater. 2005. Vol. 14. P. 2133−2138.
- Gandini D., Mahe E., Michaud P.A., Haenni W., Perret A., Comninellis Ch. Oxidation of carboxylic acids at boron-doped diamond electrodes for wastewater treatment//J. Appl. Electrochem. 2000. Vol. 30. P. 1345−1350.
- Canizares P., Garcia-Gomez J., Lobato J., Rodrigo M.A. Electrochemical oxidation of aqueous carboxylic acid wastes using diamond thin-film electrodes. // J.Environ. Eng. Manage. 2003. Vol. 42. P. 956−962.
- Weiss E., Groenen-Serrano K., Savall A. Electrochemical degradation of sodium dodecylbenzene sulfonate on boron doped diamond and lead dioxide anodes // J. New Mat. Elect. Syst. 2006. Vol. 9. P. 249−256.
- Lissens G., Pieters J., Verhaege M., Pinoy L., Verstraete W. Electrochemical degradation of surfactants by intermediates of water discharge at carbon-based electrodes // Electrochim. Acta. 2003. Vol. 48. P. 1655−1663.
- Panizza M., Cerisola G. Influence of anode material on the electrochemical oxidation of 2- naphthol: Part 2. Bulk electrolysis experiments. // Electrochim. Acta. 2004. Vol. 49. P. 3221−3226.
- Polcaro A.M., Mascia M., Palmas S., Vacca A. Electrochemical degradation of diuron and dichloroaniline at BDD electrode // Electrochim. Acta. 2004. Vol. 49. P. 649−656.
- Polcaro A.M., Vacca A., Mascia M., Palmas S. Oxidation at boron doped diamond electrodes: an effective method to mineralise triazines. // Electrochim. Acta. 2005. Vol. 50. P. 1841−1847.
- Perret A., Haenni W., Skinner N., Tang X.-M., Gandini D., Comninellis Ch., Correa B., Foti G. Electrochemical advanced oxidation process for water treatment using DiaChem® electrodes // Diamond Relat. Mater. 1999. Vol.8. P. 820−823.
- Nasr B., Abdellatif G., Canizares P., Saez C., Lobato J., Rodrigo M.A. Electrochemical Oxidation of Hydroquinone, Resorcinol, and Catechol on Boron-Doped Diamond Anodes // Electrochim. Acta. 2005. Vol. 39. P. 7234−7239.
- Hagans P. L., Natishana P.M., Stoner B.R., O’Gradya W. E. Electrochemical Oxidation of Phenol Using Boron-Doped Diamond Electrodes // J.Electrochem. Soc. 2001. Vol. 148. P. E298-E301.
- Canizares P., Diaz M., Dominguez J. A., Garcia-Gomez J., Rodrigo M. A. Electrochemical Oxidation of Aqueous Phenol Wastes on Synthetic Diamond Thin-Film Electrodes // Ind.Eng.Chem.Res. 2002. Vol. 41. P. 4187−4194.
- Polcaro A.M., Vacca A., Palmas S., Mascia M. Electrochemical treatment of wastewater containing phenolic compounds: oxidation at boron-doped diamond electrodes//J.Appl.Electrochem. 2003. Vol. 33. P. 885−892.
- Morao A., Lopes A., Amorim M.T.P.D., Goncalves I.C. Degradation of mixturesof phenols using boron doped diamond electrodes for wastewater treatment. //
- Electrochim. Acta. 2004. Vol. 49. P. 1587−1595.129
- Gherardini P. A. Michaud, M. Panizza, Ch. Comninellis, and N. Vatistas Electrochemical Oxidation of 4-Chlorophenol for Wastewater Treatment: Definition of Normalized Current Efficiency // J.Electrochim.Soc. 2001. Vol. 148. P. D78-D82.
- Codognoto L., Machado S.A.S., Avaca L.A. Selective oxidation of pentachlorophenol on diamond electrodes // J.Appl.Electrochim. 2003. Vol. 33. P. 951−957.
- Canizares P., Garcia-Gomez J., Saez C., Rodrigo M.A. Electrochemical oxidation of several chlorophenols on diamond electrodes Part I. Reaction mechanism // J.Appl.Electrochim. 2003. Vol. 33. P. 917−927.
- Zhao G., Shen Sh., Li M., Wu M., Cao T., Li D. The mechanism and kinetics of ultrasound-enhanced electrochemical oxidation of phenol on boron-doped diamond and Pt electrodes // Chemosphere. 2008. Vol. 73. P. 1407−1413.
- Carey J.J., Christ C.S., Lowery S.N., US-Patent, US5399247, 1995.
- Kraft A., Stadelmann M., Wunsche M., Blaschke M. Electrochemical destruction of organic substances in deionized water using diamond anodes and a solid polymer electrolyte //Electrochem. Commun. 2006. Vol. 8. P. 155−158.
- Hattori S., Doi M., Takahashi E., Kurosu T., Nara M., Nakamatsu S., Nishiki Y., Furuta T., lida M. Electrolytic decomposition of amaranth dyestuff using diamond electrodes. //J. Appl. Electrochem. 2003. Vol. 33. P. 85−91.
- Ceron-Rivera M., Davila-Jimenez M.M., Elizalde-Gonzalez M.P. Degradation of the textile dyes Basic Yellow 28 and Reactive Black 5 using diamond and metal alloys electrodes // Chemosphere. 2004. Vol. 55. P. 1−10.
- Canizares P., Gadri A., Lobato J., Nasr B., Paz R., Rodrigo M.A., Saez C. Electrochemical oxidation of azoic dyes with conductive-diamond anodes. // Ind. Eng. Chem. Res. 2006. Vol. 45.P.3468−3473.
- Faouzi M.P., Canizares P., Gadri A., Lobato J., Nasr B., Paz R., Rodrigo M.A., Saez C. Advanced oxidation processes for the treatment of wastes polluted with azoic dyes // Electrochimica Acta. 2006. Vol. 52. P. 325−331.
- Saez C., Panizza M., Rodrigo M.A., Cerisola G. Electrochemical incineration of dyes using a boron-doped diamond anode // J. Chem. Technol. Biot. 2007. Vol. 82. P. 575−581.
- Chen X., Chen G. Anodic oxidation of Orange II on Ti/BDD electrode: Variable effects // Sep. Purif. Technol. 2006. Vol. 48. P. 45−49.
- Panizza M., Cerisola G. Electrocatalytic materials for the electrochemical oxidation of synthetic dyes // Applied Catalysis B: Environmental. 2007. Vol. 75. C. 95−101.
- Butron E., Juarez M.E., Solis M., Teutli M., Gonzalez I., Nava J.L. Electrochemical incineration of indigo textile dye in filter-press-type FM01-LC electrochemical cell using BDD electrodes // Electrochim. Acta. 2007. Vol. 52. P. 6888−6894.
- Brillas E., Sires I., Arias C., Cabot P.L., Centellas F., Rodriguez R.M., Garrido J.A. Mineralization of paracetamol in aqueous medium by anodic oxidation with a boron-doped diamond electrode // Chemosphere. 2005. Vol. 58. P. 399−406.
- Zhao X., Hou Y., Liu H., Qiang Zh., Qu J. Electro-oxidation of diclofenac at boron doped diamond: Kinetics and mechanism// Electrochimica Acta. 2009. Vol. 54. P. 4172.
- Brillas E., Garcia-Segura S., Skoumal M., Arias C. Electrochemical incineration of diclofenac in neutral aqueous medium by anodic oxidation using Pt and boron-doped diamond anodes // Chemosphere. 2010. Vol.79. P. 605−612.
- Brinzila C.I., Pacheco M.J., Ciriaco L., Ciobanu R.C., Lopes A. Electrodegradation of tetracycline on BDD anode // Chemical Engineering Journal. 2012. Vol. 209. P. 54−61.
- Domi’nguez J.R., GonzaTez T., Palo P., Sa’nchez-Marti'n J. Electrochemical Advanced Oxidation of Carbamazepine on Boron-Doped Diamond Anodes.1.fluence of Operating Variables // Ind. Eng. Chem. Res. 2010. Vol. 49.P. 83 538 359.
- Flox C., Cabot P.L., Centellas F., Garrido J.A., Rodriguez R.M., Arias C., Brillas E. Electrochemical combustion of herbicide mecoprop in aqueous medium using a flow reactor with a boron-doped diamond anode // Chemosphere. 2006. Vol. 64. P. 892−902.
- Sires I., Brillas E., Cerisola G., Panizza M. Comparative depollution of mecoprop aqueous solutions by electrochemical incineration using BDD and Pb02 as high oxidation power anodes // J. Electroanal. Chem. 2008. Vol. 613. P. 151−159.
- Kraft A., Stadelmann M., Blaschke M. Anodic oxidation with doped diamond electrodes: a new advanced oxidation process // J. Hazard. Mater. 2003. Vol. 103. P. 247−261.
- Смирнов А.Д. Сорбционная очистка воды. Д.: Химия, 1982. 168 с.
- Темкин М.И. Адсорбционное равновесие и кинетика процессов на неоднородных поверхностях // Журн. физ. химии. 1941. Т. 15. № З.С. 296 307.
- Курс физической химии, том 1 // Герасимов Я. И., Древинг В. П., Еремин Е. Н., Киселев А. В., Лебедев В. П., Панченков Г. М., Шлыгин А. И., под ред. Герасимова Я. И. М.: Химия, 1964. 624 с.
- Эткинс П. Физическая химия, том 2. М.: Мир, 1980. 584 с.
- Yu Z., Peldszus S., Huck P.W. Adsorption characteristics of selected pharmaceuticals and an endocrine disrupting compound Naproxen, carbamazepine and nonylphenol — on activated carbon// Water Research. 2008. Vol. 42. P. 2873−2882.
- Oleszczuk P., Pan В., Xing B. Adsorption and desorption of oxytetracycline and carbamazepine by multiwalled carbon nanotubes // Environ. Sci. Technol. 2009. Vol. 43. P.9167.
- Ji L., Chen W., Bi J. et.al. Adsorption of tetracycline on singl-walled and multiwalled carbon nanotubes as affected by aqueous solution chemistry// Environ. Toxicol. Chem. 2010. Vol. 29. № 12, P. 2713−2719.
- Wang G., Sun Q., Zhang Y. Sorption and regeneration of magnetic exfoliated graphite as a new sorbent for oil pollution // Desalination. 2010. Vol. 263. P. 183 188.
- Toyoda M., Inagaki M. Heavy oil sorption using exfoliated graphite New application of exfoliated graphite to protect heavy oil pollution // Carbon. 2000. Vol. 38. P. 199−210.
- Ion A.C., Alpatova A., Ion I. Study on phenol adsorption from aqueous solutions on exfoliated graphitic nanoplatelets // Mat. Sci. Eng. B. 2011.Vol. 176. P. 588 595.
- Мелешко А.И., Половников С. П. Углерод. Углеродные волокна. Углеродные композиты. М.: «САЙНС-ПРЕСС», 2007. 192 с. 184. http://www.sealur.ru/pdf/useful/reports/grafit.pdf проверено 2.08.2013.
- Сорокина Н.Е. Интеркалированные соединения графита с кислотами: синтез, свойства, применение: автореф. дис. д-р. хим. наук: 02.00.01. М., 2007. 246 с.
- Фиалков А.С. Углерод, межслоевые соединения и композиты на его основе. М.: Аспект-Пресс. 1997. 718 с.
- Wei Х.Н., Liu L., Zhang J.X., Shi J.L., Guo G.Q. The preparation and morphology characteristics of exfoliated graphite derived from HC104-graphite intercalation compounds // Mater. Lett. 2010. Vol. 64. P. 1007−1009.
- Yinga Z., Lina X., Qi Y., Luo J. Preparation and characterization of low-temperature expandable graphite // J.Mater. Res. Bull. 2008. Vol. 43. P. 26 772 686
- Kang F., Zheng Y.-P., Wang H.-N., Nishi Y., Inagaki M. Effect of preparation conditions on the characteristics of exfoliated graphite // Carbon. 2002. Vol. 40. P. 1575−1581.
- Rudorf W., Hoffman U. Uber graphitsaltse // Z.Anorg. Allg. Chem. 1938. Vol. 238, P. 1−50.
- Li J.H., Liu Q., Da H.F., Preparation of sulfur-free exfoliated graphite at a low exfoliation temperature // Mater. Lett. 2007. Vol. 61. P. 1832−1834.
- Li J.H., Da H.F., Liu Q., Liu S.F., Preparation of sulfur-free expanded graphite with 320 цт mesh of flake graphite // Mater. Lett. 2006. Vol. 60. P. 3927−3930.
- Тительман Г. И., Печкин C.B., Гельман B.H., Тесакова Г. Н., и др. Термическое расщепление продуктов разложения соединений внедрения графит-кислота в условиях ударного и линейного нагрева // ХТТ. 1991. № 4. С. 79−84.
- Hristea G., Budrugeac P. Characterization of exfoliated graphite for heavy oil sorption // J. Therm. Anal. Calorim. 2008. Vol. 98. P. 817−823.
- Vieira F., Cisneros I., Rosa N.G., Trindade G.M., Mohallem N.D.S. Influence of the natural flake graphite particle size on the textural characteristic of exfoliated graphite used for heavy oil sorption // Carbon. 2006. Vol. 44. P. 2590−2592.
- Tryba В., Morawski A.W., Kaleczuk R.J., Inagaki M. Exfoliated Graphite as a New Sorbent for Removal of Engine Oils from Wastewater // Spill. Sci. Technol. Bull. 2003. Vol. 8. P. 569−571.
- Li Sh., Tian Sh., Feng Y., Lei J., Wang P., Xiong Y. A comparative investigation on absorption performances of three expanded graphite-based complex materials for toluene // Journal of Hazardous Materials. 2010. Vol., 183. P. 506−511.
- Li X., Chen G. Surface modified graphite nanosheets used as adsorbent to remove 1,2-dichlorobenzene from water // Mater. Lett. 2009. Vol. 63. P. 930−932.
- Li J.T., Li M., Li H.J., Sun H.W. Decolorization of azo dye direct scarlet 4BS solution using exfoliated graphite under ultrasonic irradiation // Ultrason. Sonochem. 2007. Vol. 14. P. 241−245.
- Zhao M., Liu P. Adsorption of methylene blue from aqueous solutions by modified expanded graphite powder // Desalination. 2009. Vol. 249. P. 331−336.
- Sotelo J.L., Rodriguez A., Alvarez S., Garcia J. Removal of caffeine and diclofenac on activated carbon in fixed bed column // Chemical Engineering Research and Design. 2012. Vol. 90. P. 967−974.
- Baccar R., Sarra M., Bouzid J., Feki M., Blanquez P. Removal of pharmaceutical compounds by activated carbon prepared from agricultural by-product // Chemical Engineering Journal. 2012. Vol. 211−212. P. 310−317.
- Vadi M. Comparative Study of Adsorption Isotherms two Non-Steroidal Anti-Inflammatory Eye Drops, Indomethacin and Diclofenac on Carbon Nanotube // Chemical Engineering Research and Design. 2012. Vol. 28. P. 343−348.
- Xiong Z.-H., Wang L., Zhou J.-G., Liu J.-M. Thermodynamics and Kinetics of Adsorption of Diclofenac on Magnetic Multiwalled Carbon Nanotubes in an Aqueous Solution // Acta Phys. -Chim. Sin. 2010. Vol. 26. P. 2890−2898.
- Bajpai S.K., Bhowmik M. Adsorption of Diclofenac Sodium from Aqueous Solution Using Polyaniline as a Potential Sorbent. I. Kinetic Studies // Journal of Applied Polymer Science. 2010. Vol. 117. P. 3615−3622.
- Suriyanon N., Punyapalakul P., Ngamcharussrivichai C. Mechanistic study of diclofenac and carbamazepine adsorption on functionalized silica-based porous materials // Chemical Engineering Journal. 2013. Vol. 214. P. 208−218.
- Yu Z., Peldszus S., Huck P.W. Adsorption characteristics of selected pharmaceuticals and an endocrine disrupting compound—Naproxen, carbamazepine and nonylphenol—on activated carbon // Water Research. 2008. Vol. 42. P. 2873−2882.
- Oleszczuk P., Pan В., Xing B. Adsorption and Desorption of Oxytetracycline and Carbamazepine by Multiwalled Carbon Nanotubes // Environ. Sci. Technol. 2009. Vol. 43. P. 9167−9173.
- Martucci A., Pasti L., Marchetti N., Cavazzini A., Dondi F., Alberti A. Adsorption of pharmaceuticals from aqueous solutions on synthetic zeolites // Microporous and Mesoporous Materials. 2012. Vol.148. P. 174−183.
- Dominguez J.R., Gonzalez Т., Palo P., Cuerda-Correa E.M. Removal of common pharmaceuticals present in surface waters by Amberlite XAD-7 acrylic-ester-resin: Influence of pH and presence of other drugs // Desalination. 2011. Vol. 269. P. 231−238.
- Zhang W., Ding Y., Boyd S.A., Teppen B.J., Li H. Sorption and desorption of carbamazepine from water by smectite clays // Chemosphere. 2010. Vol. 81. P. 954−960.
- Bui Т. X., Choi H. Adsorptive removal of selected pharmaceuticals by mesoporous silica SBA-15 // J. Hazard. Mater.. 2009. Vol. 168. P. 602−608.
- Changa P.-H., Li Zh., Yua T.-L., Munkhbayer S., Kuoa T.-H., Hunga Y.-C., Jeana J.-S., Lin K.-H. Sorptive removal of tetracycline from water by palygorskite // J. Hazard. Mater. 2009. Vol. 165. P. 148−155.
- Gao Y., Li Y., Zhang L., Huang H., Hua J., Shah S.M., Su X. Adsorption and removal of tetracycline antibiotics from aqueous solution by graphene oxide // Journal of Colloid and Interface Science. 2012. Vol. 368. P. 540−546.
- Волова Т.Г. Биотехнология. Новосибирск: CO РАН, 1999. 252 с.
- Yu J.T., Bouwer E.J., Coelhan M. Occurrence and biodegradability studies of selected pharmaceuticals and personal care products in sewage effluent // Agricultural water management. 2006. Vol.86. P. 72−80.
- Gonzalez S., Muller J., Petrovic M., Barcelo D., Knepper Th. P. Biodegradation studies of selected priority acidic pesticides and diclofenac in different bioreactors // Environmental Pollution. 2006. Vol.144. P. 926−932.
- Kimura K., Hara H., Watanabe Y. Elimination of Selected Acidic Pharmaceuticals from Municipal Wastewater by an Activated Sludge System and Membrane Bioreactors // Environ. Sci. Technol. 2007. Vol. 41. P. 3708−3714.
- Tiehm A., Scmidt N., Stieber M., Sacher F., Wolf L., Hoetzl H. Biodegradation of Pharmaceutical Compounds and their Occurrence in the Jordan Valley // Water Resour Manage. 2011. Vol.25. P. 1195−1203.
- Batt A.L., Kim S., Aga D.S. Comparison of the occurrence of antibiotics in four full-scale wastewater treatment plants with varying designs and operations // Chemosphere. 2007. Vol. 68. P. 428−435.
- Carballa M., Omil F., Ternes Th., Lema J.M. Fate of pharmaceutical and personal care products (PPCPs) during anaerobic digestion of sewage sludge // Water Research. 2007. Vol. 41. P. 2139−2150.
- Kaur S., Singh V. Visible light induced sonophotocatalytic degradation of Reactive Red dye 198 using dye sensitized Ti02 // Ultrasonics Sonochemistry. 2007. Vol. 14. P. 531−537.
- Khare U.K., Bose P., Vankar P. S. Impact of ozonation on subsequent treatment of azo dye solutions //J. Chem. Technol. Biotechnol. 2007. Vol. 82. P. 1012−1022.
- Oiler I., Malato S., Sanchez-Perez J.A. Combination of Advanced Oxidation Processes and biological treatments for wastewater decontamination—A review // S ci. Total Environ. 2011. Vol. 409. P. 4141- 4166.
- Yang X., Wang F., Hu Sh. Enhanced oxidation of diclofenac sodium at a nano-structured electrochemical sensing film constructed by multi-wall carbonnanotubes-surfactant composite// Materials Science and Engineering C. 2008. Vol. 28. P. 188−194.
- Goyal R. N., Chatterjee S., Rana A. R. S. the effect of modifying an edge-plane pyrolytic graphite electrode with singl-wall carbon nanotubes on its use for sensing diclofenac // Carbon. 2010. Vol. 48. P. 4136−4144.
- Bianco-Lopez M.C., Lobo-Castanon M.-J., Mirada-Ordieres A.J., Tunon-Blanco A.J. Voltammetric response of diclofenac-molecularly imprinted film modified carbon electrodes // Anal. Bioanal. Chem. 2003. Vol. 377. P. 257−261.
- Marco-Urrea E., Perez-Trujillo M., Cruz-Morato C. Degradation of the drug sodium diclofenac by Trametes versicolor pellets and identification of some intermediates by NMR//J. Hazard. Mater. 2010. Vol. 176. P. 836−842.
- Галюс. Теоретические основы электрохимического анализа. М. «МИР», 1974,
- Хенце Г. Полярография и вольтамперометрия. М. «БИНОМ. Лаборатория знаний», 2008, 284 с.
- Chatten L.G., Fleishhmann M., Pletcher D. The anodic oxidation of some tetracyclines // J. Electroanal. Chem., 1979. Vol. 102. P. 407.
- Belkheiri D., Fourcade F., Geneste F., Floner D., Ait-Amar H., Amrane A. Feasibility of an electrochemical pre-treatment prior to a biological treatment for tetracycline removal // Sep. Purif. Tech. 2011. Vol. 83. P. 151.
- Веденяпина М.Д., Еремичева Ю. Н., Павлов В. А., Веденяпин А. А., ЖПХ, 552 с.2008. № 81. С. 765.