Open Access
Issue |
E3S Web Conf.
Volume 264, 2021
International Scientific Conference “Construction Mechanics, Hydraulics and Water Resources Engineering” (CONMECHYDRO - 2021)
|
|
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Article Number | 01055 | |
Number of page(s) | 9 | |
Section | Ecology, Hydropower Engineering and Modeling of Physical Processes | |
DOI | https://doi.org/10.1051/e3sconf/202126401055 | |
Published online | 02 June 2021 |
- Abdurakhimov Kh., Ismailkhadzhaev B. Development of an integrated technology for purification of wastewater from cellulose production, p. 327, Tashkent, (2019) [Google Scholar]
- Aitmetova K.I. The role of corpus luteum and eichornia excellent in wastewater treatment of the Chirchik production association, Tashkent, Botanical Institute and Botanical Garden, pp. 144. (2016) [Google Scholar]
- Beideman I.N. Methods for studying the phenology of plants and plant communities. p. 153, Novosibirsk, (2014) [Google Scholar]
- Galkina N.B. Aquatic plants as industrial wastewater purifiers copper, zinc, lead Abstracts of reports of scientific and technical conference, On the use of wastewater in agriculture, p. 312, Tashkent, (2012) [Google Scholar]
- Golubovskaya E.K. Biological bases of water purification, p. 267, Moscow, High school, (2018) [Google Scholar]
- Grushko Y.M. Harmful organic compounds in industrial wastewater, A Handbook., p. 214, Chemistry, (2013) [Google Scholar]
- Gudkov A.G. Biological treatment of municipal wastewater, p. 127, Vologda, VOTSU, (2012) [Google Scholar]
- Dai Kuan-Yu, Yang-Dzhao, Chang Hen. Investigation of wastewater treatment from silver water hyacinth, Phytoecol Acts. et Geobot. Sci., 16(1), pp. 11–16. [Google Scholar]
- Dai Qianyu, Chen Yuangao, Kyo Yu, Zhang Han. Purification by water hyacinths silver of wastewater from the plant for the production of film, Acta. Sci Circumstantiae, JN” 3, pp. 362–370. (2015) [Google Scholar]
- Dikieva D.M., Petrova I.A. The chemical composition of macrophytes and factors determining the concentration of mineral substances in higher aquatic plants, Hydrobiological processes in voemakh, p. 213, Leningrad, Nauka, (2018) [Google Scholar]
- Ding Yanhua. Investigation of an exemplary project of a wastewater treatment system on humid lands with reed thickets, Khim. J. Environ Sci. N° 2, pp. 8–13. (2018) [Google Scholar]
- Direnko A.A., Knus A., Kotsar E.M. The use of higher aquatic plants in the practice of wastewater treatment and surface runoff, Sanitary engineering and water supplyö JN”o 5, p. 186, Moscow, (2016) [Google Scholar]
- Dmitrieva N.G., Einor L.O. The role of macrophytes in the conversion of phosphorus in water, Water. Resources, N° 5, p. 341. (2015) [Google Scholar]
- Ermakov A.I., Arasimovich V.V., Smirnova-Ikonnikova M.I., Yarosh N.P., Lukovnikova G.A. Biochemical research methods of plants, pp. 456. (2012) [Google Scholar]
- Zhumaniyazova G.I. Microorganisms of the breeze plant wastewater and their participation in biological treatment with the help of teloresis, p. 20, Tashkent, (2015) [Google Scholar]
- Zaitsev G.N. Mathematical statistics in experimental botany, p. 424, Moscow, (2011) [Google Scholar]
- Ilyaletdinov A.N., Alieva R.M. Microbiology and biotechnology of industrial water purification, Alma-Ata: Nauka, p. 224. (2014) [Google Scholar]
- Katanskaya V.M. Materials for studying the productivity of thickets of aquatic plants in the delta of the Amu Darya, Proceedings of the lab., Lake Scientist, Academy of Sciences, 10, pp. 249, (2017) [Google Scholar]
- Katanskaya V.M. Higher aquatic vegetation of the continental reservoirs of the USSR, pp. 187. (2018) [Google Scholar]
- Kalinina E.V. Decrease in the content of biogenic elements in the process of biological treatment of urban wastewater by higher aquatic plants, p. 26, Perm, (2017) [Google Scholar]
- Karimov Kh.K. Waste waters of primary treatment plants of kenaf, On the production culture of unicellular algae, p. 122, Tashkent, (2006) [Google Scholar]
- Keldibekov C. Flora and vegetation of fishponds in the Chirchik-Angren basin, p. 116, Tashkent, (2016) [Google Scholar]
- Kokin K.A. Ecology of higher aquatic plants, p. 160, Moscow, (2014) [Google Scholar]
- Mole Yu.G. The use of higher aquatic plants in biotechnologies for the purification of surface and wastewaters, Hydrobiological journal, 42 (1), pp. 191, (2016) [Google Scholar]
- Kuznetsov S.I., Kazarovets N.M., Margolina G.L. Determination of the intensity of the process of self-purification of water in reservoirs, Materials on biology and hydrobiology of the Volga reservoirs, Academy of Sciences of the USSR, p. 96. (2013) [Google Scholar]
- Kutliev J., Tashpulatov Zh.Zh., Shoyakubov U.R., Urinova A.A., Khushmuradova G.K. The use of microorganisms and macrophytes for wastewater treatment of JSC “Navoiazot” and biofuel production, Actual problems of algology, mycology and hydrobotany: Materials of the international scientific conference, p. 254, Tashkent, (2019) [Google Scholar]
- Lurie Y.Y. Unified methods for water analysis, p. 376, Moscow, (2013) [Google Scholar]
- Lurie Y.Y. Analytical chemistry of industrial wastewater, Industrial wastewater, p. 447 Moscow, (2012) [Google Scholar]
- Madalieva G.K. Flora and vegetation of wastewater bodies of the Tashkent oasis and their role in self-purification of waters, p. 31, Tashkent, (2017) [Google Scholar]
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