Promising equipment for greenhouse wastewater treatment
DOI:
https://doi.org/10.15587/2312-8372.2014.25365Keywords:
greenhouse wastewater, treatment, hydrodynamic cavitation, ultra-violet radiationAbstract
The article presents the experimental results of greenhouse wastewater treatment by means of cavitation. It is noted that the use of ultrasonic cleaning has drawbacks. It is found that the use of hydrodynamic cavitation for wastewater treatment is a promising direction. It is noted that in effluents with residues of phenolic compounds, treatment is improved when using oxidizing agents such as hydrogen peroxide. A design of cavitation reactor for wastewater treatment using an ultrasonic radiation was proposed. The reactor was tested in an industrial environment and showed good treatment results. It was found that at simultaneous action of hydrodynamic cavitation and UV, the germicidal effect occurs. Due to this, pathogenic organisms are destructed. The article illustrates the experimental setup and cavitation reactor.
References
- Шевченко, М. А. Очистка природных и сточных вод от пестицидов [Текст]/ М. А. Шевченко, П. Н. Таран, В. В. Гончарук. – Л.: Химия, 1989. – 184 с.
- Орлов, В. А. Озонирование воды [Текст]/ В. А. Орлов. – М.: Стройиздат, 1984. – 89 с.
- Маргулис, М. А. Звукохимические реакции и сонолюминесценция [Текст]/ М. А. Маргулис. – М.: Химия, 1986. – 286 с.
- Федоткин, И. М. Использование кавитации в промышленности [Текст]/ И. М. Федоткин, И. С. Гулый, Н. И. Шаповалюк. – К.: Арктур-А, 1998. – 133 с.
- Litwinienko, A. Technologiczne zastosowanie kawitaciji hydrodynamichnej –doswiadczenie i perspektywy [Text]/ Aleksander Litwinienko, Aleksander Nekoz, Krzystof Lukasik. – Lublin: Lubielske Towarzystwo Naukowe, 2005. – 154 p.
- Gogate, P. R. A review and assessment of hydrodynamic cavitation as a technolody for the future [Text]/ P. R. Gogate, A. B. Pandit// Ultrason. Sonochem.– 2005. – Vol. 12, № 1-2. – Р. 21-27.
- Ilho, K. Performance of UV and UV/H2O2 process for the removal of pharmaceuticals detected in secondary effluent of a sewage treatment plant in Japan [Text]/ K. Ilho, N. Yamashita, H. Tanaka// J. Hazardous Mater. – 2009. – Vol. 166, № 2-3. – Р. 1134-1140.
- Николадзе, Г. И. Технология очистки природных вод [Текст]/ Г. И. Николадзе. – М.: Стройиздат, 1987. – 240 с.
- Литвиненко, О. А. Окислення фенолу в кавітаційному реакторі [Текст]/ О. А. Литвиненко, О. І. Некоз, З. Кондрат// Придніпровський науковий вісник. – 1998. – № 96(163). – С. 26-27.
- Патент 33931 UA, МПК6 B01J19/00 Кавітаційний реактор [Электронный ресурс]/ Литвиненко О. А., Некоз О. І., Некоз С. О.; заявник Укр. держ. у-т харчових технологій. – № 99042461; заявл. 29.04.1999; опубл. 15.02.2001, Бюл. № 1. – Режим доступа: www/ URL: http://uapatents.com/3-33931-kavitacijjnijj-reaktor.html
- Shevchenko, M. A., Taran, P. N., Goncharuk, V. V. (1989). Cieaning of the natural and waste waters from pesticides. Leningrad: Khimiya, 184.
- Orlov, V. A. (1989). Ozonation water. Moscow: Stroyizdat, 89.
- Margulis, M. A. (1986). Sonochemical reactions and sonoluminescence. Moscow: Khimiya, 286.
- Fedotkin, I. M., Guly, I. S., Shapovalyuk, N. I. (1998). Using cavitation in the industry. Kyiv: Arcturus-A, 133.
- Litwinienko, A., Nekoz, A., Lukasik, K. (2005). Technologiczne zastosowanie kawitaciji hydrodynamichnej –doswiadczenie i perspektywy. Lublin: Lubielske Towarzystwo Naukowe, 154.
- Gogate, P. R., Pandit A. B. (2005). A review and assessment of hydrodynamic cavitation as a technolody for the future. Ultrason. Sonochem., 12, No 1-2, 21-27.
- Ilho, K., Yamashita, N., Tanaka, H. (2009). Performance of UV and UV/H2O2 process for the removal of pharmaceuticals detected in secondary effluent of a sewage treatment plant in Japan. J. Hazardous Mater., 166, No 2-3, 1134-1140.
- Nikoladze, G. I. (1987). Natural water purification technology. Moscow: Stroyizdat, 240.
- Litvinenko, O. A., Nekoz, O. I. (1998). Phenol oxidation in cavitation reactor. Pridnіprovsky Sciences J., № 96(163), 26-27.
- Lytynenko, O. A., Nekoz, O. I., Nekoz, S. O.; Ukr. State University of Food Technologies. (15.02.2001). Patent 33931 UA, MPK6 B01 J 19/00 Cavitation reactor. № 99042461; appl. 29. 04. 1999; Bull. №1. Available: http://uapatents.com/3-33931-kavitacijjnijj-reaktor.html
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