Abstract
This article discusses the results of experimental studies of electrocoagulation treatment of natural water on the example of the Northern Territories located in the Republic of Sakha (Yakutia). Various technologies have been compared allowing to treat the source water and achieve drinking quality. A non-convention electrochemical conditioning method was selected for drinking water treatment of surface waters of a certain river, which allows obtaining high-quality drinking water corresponding to the requirements of relevant standards without the need to apply chemical reagents. The effectiveness of electrochemical treatment of water systems of the Northern Territories with low mineral content has been confirmed experimentally. The optimal conditions for electrochemical conditioning of the studied water have been selected and substantiated. Installation components and their parameters were developed to implement the electrocoagulation method in the conditions of the Northern Territories, as well as separating the installation into separate modules with different characteristics.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Similar content being viewed by others
References
Makarieva O, Nesterova N, Andrew Post D, Sherstyukov A, Lebedeva L (2019) Warming temperatures are impacting the hydrometeorological regime of Russian rivers in the zone of continuous permafrost. Cryosphere 13(6):1635–1659
Woo M-K, Thorne R, Brown L (2019) Comparison of runoff and river flow in two large northern basins. Hydrol Res 50(6):1609–1622
Pimneva LA, Zagorskaya AA (2021) The ion-exchange properties of kaolinite in the practice of natural water purification. Ecol Eng Environ Tech 22(2):87–91
Heffron J, McDermid B et al (2019) Mechanisms of virus mitigation and suitability of bacteriophages as surrogates in drinking water treatment by iron electrocoagulation. Water Res 163:114877
Vozhdaeva MYu, Kholova AR, Melnitskiy IA et al (2021) Monitoring and statistical analysis of formation of organochlorine and organobromine compounds in drinking water of different water intakes. Molecules 26(7):1852
Alekseenko VA, Shvydkaya NV, Bech J et al (2021) Trace element accumulation by soils and plants in the North Caucasian geochemical province. J Min Inst 247(1):141–153
Alekseev E, Shambina S (2021) Coagulation of waste water from the point of view of physic-chemical interactions. E3S Web Conf 263:04011
Kodura A (2016) An analysis of the impact of valve closure time on the course of water hammer. Arch Hydro-Eng Environ Mech 63(1):35–45
Jain H, Garg MC (2021) Fabrication of polymeric nanocomposite forward osmosis membranes for water desalination—a review. Environ Technol Innov 23:101561
Xue W, Jian M, Lin T et al (2020) A novel strategy to alleviate ultrafiltration membrane fouling by rotating membrane module. Chemosphere 260:127535
Nasir AM, Goh PS, Ismail AF (2019) Highly adsorptive polysulfone/hydrous iron-nickel-manganese (PSF/HINM) nanocomposite hollow fiber membrane for synergistic arsenic removal. Sep Purif Technol 213:162–175
Thomas N, Dionysiou DD, Pillai SC (2021) Heterogeneous Fenton catalysts: a review of recent advances. J Hazard Mater 404:124082
Pletneva IV, Gavrilov YA (2017) Highly active catalysts for oxidation of thiols. ChemChemTech 60(8):70–73
Dang TH, Rudakov OB, Khorokhordina EA et al (2020) Application of crushed shells Cristaria plicatato separation cadmium and chromium from polluted water by static sorption. Sorbtsionnye i Khromatograficheskie Protsessy 20(5):556–564
Aubakirova R, Daumova G, Seraya N, Afanasenkova I (2020) Sorption extraction of heavy metal ions from wastewater by natural and synthetic sorbents. Chem Eng Trans 81:343–348
Bebikhov YV, Semenov AS, Podkamenny YA (2021) Experimental studies of the electrochemical method of water purification in the subarctic territories. Ecol Ind Russia 25(11):24–29
Cai QQ, Lee BCY, Ong SL, Hu JY (2021) Fluidized-bed Fenton technologies for recalcitrant industrial wastewater treatment–recent advances, challenges and perspective. Water Res 190:116692
Kruse P (2018) Review on water quality sensors. J Phys D Appl Phys 51(20):203002
Haldar A, Gupta A (2020) Application of electrocoagulation: issues with community-level defluoridation. Int J Environ Sci Technol 17(2):789–798
Kim G, Kim T, Jang J, Akter J, Lee H (2019) Performance characteristics of phosphorus removal in sewage treatment using electrocoagulation and fiber filtration process. Desalin Water Treat 154:141–146
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2023 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this paper
Cite this paper
Bebikhov, Y., Semenov, A. (2023). Research on Purification of Natural Water to Drinking Quality by Electrocoagulation. In: Guda, A. (eds) Networked Control Systems for Connected and Automated Vehicles. NN 2022. Lecture Notes in Networks and Systems, vol 510. Springer, Cham. https://doi.org/10.1007/978-3-031-11051-1_153
Download citation
DOI: https://doi.org/10.1007/978-3-031-11051-1_153
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-031-11050-4
Online ISBN: 978-3-031-11051-1
eBook Packages: Intelligent Technologies and RoboticsIntelligent Technologies and Robotics (R0)