№10|2022
DRINKING WATER SUPPLY
DOI 10.35776/VST.2022.10.04
UDC 544.77.052.22
Studying and selecting effective flocculants for the purification of the Kama River water
Summary
Using the Kama River water as an example, the advantage of using flocculants of various ionic activity in combination with a coagulant based on polyaluminum chloride is shown. The results of studies of the main physical and chemical indicators are presented that better characterize the specific features of the coagulation of the Kama River water. Under the experimental conditions all tested flocculants were comparable as for the effectiveness to the flocculant based on polydiallyldimethylammonium chloride currently used at the water unit of Nizhnekamskneftekhim PJSC. In the process of water clarification using a flocculant (sample No. 1) was proposed with a dose of 1–3 mg/dm3. It was shown that the combined use of polyaluminum chloride and the flocculant (sample No. 1) was more effective for extracting aluminum ions from water. The method of river water coagulation with the use of the flocculant (sample No. 1) differs from the existing one in higher cost-effectiveness and 50–60% reduction the of the chemical consumption.
Key words
clarification , flocculation , coagulant , flocculant , efficiency of treatment , river water , residual aluminium , chemical dosage , polyaluminum chloride , polydiallyldimethylammonium chloride , test coagulation
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REFERENCES
- Draginskii V. L., Alekseeva L. P. Koaguliatsiia v tekhnologii ochistki prirodnykh vod [Coagulation in the natural water treatment technology. Moscow, 2005, 91 p.].
- Gandurina L. V., Poliakov A. M. [Treatment of oily wastewater using disinfectant polymers]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2008, no. 1, pp. 28–32. (In Russian).
- Anderson F. Konkobo, Mamounata Diao, Paul W. Savadogo, Jean Diarra and Mamoudou H. Dicko. Comparative study of the effects of Herbal and chemical coagulants in the clarification of raw water. African Journal of Agricultural Research, 2021, v. 17, no. 4, pp. 532–541. DOI: 10.5897/AJAR2019.14554.
- Kliachko V. A., Apel’tsin I. E. Ochistka prirodnykh vod [Natural water treatment. Moscow, Stroiizdat Publ., 1971, p. 127].
- Rodrigo de Oliveira Marques, Sidney Seckler Ferreira Filho. Flocculation kinetics of low-turbidity raw water and the irreversible floc breakup process. Environmental Technology, 2016, no. 38, pp. 901–910. DOI: 10.1080/09593330.20161236149.
- Zapol’skii A. K., Baran A. A. Koagulianty i flokkulianty v protsessakh ochistki vody [Coagulants and flocculants in water treatment processes. Leningrad, Khimiia Publ., 1987, 122 p.].
- Gumen S. G., Darienko I. N. [The use of advanced chemicals for low turbid colored water]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2001, no. 3, pp. 12–15. (In Russian).
- Riabchikov B. E. Sovremennye metody podgotovki vody dlia promyshlennogo i bytovogo ispol’zovaniia [Advanced methods of water treatment for industrial and domestic use. Moscow, DeLi Print Publ., 2004, 97 p.].
- Kemmer F. N. Kniga NALKO o vode [NALKO book about water, McGraw-Hill Publ., 1989, 207 p.].
- Kul’skii L. A. Osnovy konditsionirovaniia vody [Fundamentals of water conditioning. Kiev, Academy of Sciences of the Ukrainian SSR Publ., 1963, 121 p.].
- Loredana Litu, Gabriela Clobanu, Sorin Mihai Cimpeanu, Olga Kotova, Ramona Clocinta, Daiel Bucur, Maria Harja. Comparative study between flocculation – coagulation processes in Wastewater loredana litu. Agrolife Scientific Journal, 2019, v. 8, no. 1, pp. 139–145.