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Journal articles on the topic 'Water treatment'

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Published: 4 June 2021
Last updated: 7 July 2024

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1

Jena, Santosh Kumar. "Application of Silver Nanoparticles for Water Treatment." Journal of Advance Nanobiotechnology 2, no. 4 (August 30, 2018): 1–11. http://dx.doi.org/10.28921/jan.2018.02.21.

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2

Starchevsky, Volodymyr, Vоlоdymyr Kislenko, and Svyatoslove Ivanyshyn. "Starch Dispersion in Water under Ultrasonic Treatment." Chemistry & Chemical Technology 6, no. 2 (June 20, 2012): 183–88. http://dx.doi.org/10.23939/chcht06.02.183.

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3

Mandal, Pradip Chandra, and Mohamad Azmi Bin Alias. "Investigation of Asphaltene under Subcritical Water Treatment." International Journal of Materials, Mechanics and Manufacturing 5, no. 1 (February 2017): 11–15. http://dx.doi.org/10.18178/ijmmm.2017.5.1.279.

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4

Zhang, Rui, Yu Liu, MeiRong Sun, Honglian Zhang, Zhihui Zhao, Hui Du, Yan Liao, and QinHua Hou. "Offshore Polluted Water treatment by biocomposites flocculation." SDRP Journal of Earth Sciences & Environmental Studies 5, no. 1 (2020): 21–24. http://dx.doi.org/10.25177/jeses.5.1.ra.10609.

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5

Zabulonov, Yu L., V. M. Burtnyak, L. A. Odukalets, O. V. Alekseeva, and S. V. Petrov. "Plasmachemical Plant for NPP Drain Water Treatment." Science and innovation 14, no. 6 (December 3, 2018): 86–94. http://dx.doi.org/10.15407/scine14.06.086.

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6

Aoki, Hidemitsu, Masaharu Nakamori, Nahomi Aoto, and Eiji Ikawa. "Wafer Treatment Using Electrolysis-Ionized Water." Japanese Journal of Applied Physics 33, Part 1, No. 10 (October 15, 1994): 5686–89. http://dx.doi.org/10.1143/jjap.33.5686.

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7

Khayan, Khayan, Adi Heru Sutomo, Ashari Rasyid, Widyana Lakshmi Puspita, Didik Hariyadi, Taufik Anwar, Slamet Wardoyo, Raja Sahknan, and Alkausyari Aziz. "Integrated Water Treatment System for Peat Water Treatment." CLEAN – Soil, Air, Water 50, no. 2 (December 21, 2021): 2100404. http://dx.doi.org/10.1002/clen.202100404.

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8

Salih, Chro Kamil. "Selecting The Best Portable Water Treatment For Disinfection Drinking Water Using Factorial Experiment." Journal of Zankoy Sulaimani Part (B - for Humanities) 10, no. 2 (January 30, 2000): 89–100. http://dx.doi.org/10.17656/jzsb.10198.

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9

N.N., Mamatkulov. "Chemical Treatment Of Water In Ammophos Production Plants." American Journal of Agriculture and Biomedical Engineering 03, no. 06 (June 18, 2021): 1–5. http://dx.doi.org/10.37547/tajabe/volume03issue06-01.

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This paper presents purification methods for the analysis of effluents from an ammophos production plant. Chemical analysis of the waters shows that phosphorus slags and phosphogypsum contain harmful elements such as strontium, arsenic, cadmium, titanium and manganese. Theoretical work on the control of ammophos max wastewater. Wastewater was found to contain Ca, Mg, F, S, P, N2 and trace elements.
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10

Kumar Das, Chandan. "Bio-Detoxification Treatment of Waste Water Containing Cadmium." International Journal of Engineering and Technology 4, no. 1 (2012): 72–75. http://dx.doi.org/10.7763/ijet.2012.v4.321.

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11

Kyu Park, Young, Ju Suk An, Ji Young Kim, Chan Kyu Park, Hyun Je Oh, and Jae Roh Park. "Development of Appropriate Water Treatment Packages in Mongolia." International Journal of Engineering and Technology 7, no. 1 (February 2015): 36–39. http://dx.doi.org/10.7763/ijet.2015.v7.762.

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12

Khamidova, Azimakhon, and Giyosiddin Mamatisayev. "PROBLEMS OF ENVIRONMENTAL SAFETY OF WATER TREATMENT FACILITIES." International Journal of Advance Scientific Research 02, no. 12 (December 1, 2022): 85–93. http://dx.doi.org/10.37547/ijasr-02-12-13.

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The article justified the urgency of ensuring the environmental safety of water intake and treatment facilities in water supply systems by creating a complex of specialized protective equipment. The operation of water supply systems was analysed, as a result of which it was determined that the environmental safety of water intakes was insufficient. To solve this problem, the scientific justification of the ecologically sustainable operation of the natural-technical system of the specialized type "natural water environment - water management complex - agricultural water supply system" was carried out. The proposed systematic approach to solving the vital problems of ensuring the environmental safety of water intake facilities of water systems is to provide high-quality water to consumers in any operating conditions (mud, suspension) of agricultural water supply systems. At the same time, the complex of water and intake treatment facilities improves the river ecosystem.
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13

Sheth, Manas. "Nanomaterials for Water Treatment: Breakthroughs and Potential Applications." International Journal of Science and Research (IJSR) 12, no. 7 (July 5, 2023): 600–605. http://dx.doi.org/10.21275/sr23708001220.

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14

STRUTYNSKA, Lesya. "EVALUATION OF ECONOMIC EFFICIENCY OF INNOVATIVE WATER TREATMENT TECHNOLOGIES OF SWIMMING POOLS AND WATER PARKS." Herald of Khmelnytskyi National University. Economic sciences 308, no. 4 (July 28, 2022): 202–9. http://dx.doi.org/10.31891/2307-5740-2022-308-4-32.

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Typical processes of water purification and water treatment of water park pools are considered. The method of economic estimation of efficiency of their application is offered. The methodology is based on the introduction of a number of indicators of the quality of the water treatment process of calculating the coefficient of “efficiency criterion” of water treatment of swimming pools. The purpose of this study was to develop an innovative technology of electrolytic-cavitation water treatment for swimming pools and water parks and to create a method of comparative evaluation of the effectiveness of modern water treatment technologies. A new technological scheme of electrolytic-cavitation water purification of public water bodies is proposed. A mathematical dependence has been created, which allows to objectively assess the effectiveness of various methods of water treatment and purification using the proposed indicator called “efficiency criterion” It is established that the proposed method of electrolytic-cavitation water purification has the highest values of efficiency from the considered water purification processes. This method is based on an organic combination of the advantages of such physical methods as electrolytic and cavitation disinfection of organic and biological water pollutants. The degree of purification and disinfection provided by him reaches 97-98%.
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15

Warg, Per. "Retrofitting PureBallast Water Treatment Systems onboard Two Car Carriers." Journal of The Japan Institute of Marine Engineering 46, no. 4 (2011): 585–89. http://dx.doi.org/10.5988/jime.46.585.

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16

Magomedova, D. Sh, Z. M. Alimirzayeva, A. G. Magomedova, A. B. Isaev, and T. A. Kharlamova. "ELECTROCHEMICAL TREATMENT OF AIRPORT RUNOFF WATER CONTAINING ETHYLENE GLYCOL." Chemical Problems 20, no. 2 (2022): 109–15. http://dx.doi.org/10.32737/2221-8688-2022-2-109-115.

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Airports are one of the sources of environmental pollution with runoff water containing emerging contaminants. The process of electrochemical purification of model runoff water containing ethylene glycol and formed during the treatment of aircraft with anti-icing agents was studied. As an anode there was used PbO2 electrode. The structure and morphology of PbO2 electrode samples obtained by electrochemical deposition on the titanium plate surface was studied using scanning electron microscopy. It revealed that the use of PbO2 as an anode makes it possible to bring the COD value of the solution to the required standards. After electrolysis, the COD values for all studied ethylene glycol concentrations from 10 to 100 mg/l were in the range of 0.34-4.6 mgO2/l. The effect of current density, concentration of ethylene glycol and sodium chloride on the efficiency of electrochemical oxidation of ethylene glycol was analyzed.
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17

Abdixomidovich, Abjalov Alimardon. "THE SIGNIFICANCE OF AL'GOFLORA IN OPTIMIZING WATER TREATMENT PROCESSES." International Journal of Advance Scientific Research 4, no. 2 (February 1, 2024): 28–33. http://dx.doi.org/10.37547/ijasr-04-02-05.

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Water treatment facilities play a vital role in ensuring the availability of safe and clean water for human consumption and various industrial purposes. Among the innovative approaches in water treatment, the integration of Al'GOFLORA stands out as a promising method for optimizing the treatment process. Al'GOFLORA, a long water treatment facility utilizing algae and other flora, offers a sustainable and effective solution for water purification. This article explores the importance of Al'GOFLORA in optimizing water treatment processes, highlighting its benefits, mechanisms, and potential applications.
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18

Aziz, Edriyana A., Marlinda Abdul Malek, Syazwan N. Moni, Iqmal H. Hadi, and Nabil F. Zulkifli. "Water Supply Treatment Sustainability of Semambu Water Supply Treatment Process - Water Footprint Approach." IOP Conference Series: Materials Science and Engineering 318 (March 19, 2018): 012027. http://dx.doi.org/10.1088/1757-899x/318/1/012027.

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19

Aziz, Edriyana A., Marlinda Abdul Malek, Syazwan N. Moni, Nabil F. Zulkifli, and Iqmal H. Hadi. "Water Supply Treatment Sustainability of Panching Water Supply Treatment Process - Water Footprint Approach." IOP Conference Series: Materials Science and Engineering 318 (March 19, 2018): 012028. http://dx.doi.org/10.1088/1757-899x/318/1/012028.

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20

A.A.Deshmukh, A. A. Deshmukh, N. N. Bandela N.N. Bandela, J. R. Chavan J.R.Chavan, and P. M. Nalawade P.M.Nalawade. "Studies on Potential Use of Water Hyacinth, Pistia and Azolla for Municipal Waste Water Treatment." Indian Journal of Applied Research 3, no. 11 (October 1, 2011): 226–28. http://dx.doi.org/10.15373/2249555x/nov2013/72.

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21

Sathyanarayana Movva, Siva. "Analysis of Intelligent Water Management: Integration of IoT and AI in Water and Wastewater Treatment." International Journal of Science and Research (IJSR) 13, no. 3 (March 5, 2024): 1444–48. http://dx.doi.org/10.21275/sr24322073844.

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22

Dudley, J., G. Dillon, and L. C. Rietveld. "Water treatment simulators." Journal of Water Supply: Research and Technology-Aqua 57, no. 1 (February 2008): 13–21. http://dx.doi.org/10.2166/aqua.2008.096.

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23

Nagai, Mikio. "Water treatment system." Japan journal of water pollution research 10, no. 10 (1987): 599–602. http://dx.doi.org/10.2965/jswe1978.10.599.

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24

Coey, J. M. D., and Stephen Cass. "Magnetic water treatment." Journal of Magnetism and Magnetic Materials 209, no. 1-3 (February 2000): 71–74. http://dx.doi.org/10.1016/s0304-8853(99)00648-4.

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25

Linden, Karl G. "Water Treatment Revolution." Journal of Environmental Engineering 133, no. 2 (February 2007): 128–29. http://dx.doi.org/10.1061/(asce)0733-9372(2007)133:2(128).

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26

Wang, Lawrence, Mu Hao S Wang, and Chong Su Hwang. "Water treatment apparatus." Environment International 18, no. 4 (January 1992): I. http://dx.doi.org/10.1016/0160-4120(92)90096-m.

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27

Vieweg, W. V. R., and R. A. Leadbetter. "Water intoxication treatment." Biological Psychiatry 28, no. 9 (November 1990): 829. http://dx.doi.org/10.1016/0006-3223(90)90518-7.

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28

Szép, Angéla, and Robert Kohlheb. "Water treatment technology for produced water." Water Science and Technology 62, no. 10 (November 1, 2010): 2372–80. http://dx.doi.org/10.2166/wst.2010.524.

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Large amounts of produced water are generated during oil and gas production. Produced water, as it is known in the oil industry, is briny fluid trapped in the rock of oil reservoirs. The objective of this study was to test produced waters from a Montana USA oilfield using a mobile station to design a plant to cost efficiently treat the produced water for agricultural irrigation. We used combined physical and chemical treatment of produced water in order to comply with reuse and discharge limits. This mobile station consists of three stages: pretreatments, membrane filtration and post treatment. Two spiral-wound membrane units were employed and the rejections of various constituents were examined. The performance of two membranes, 20 kDa weight cut-off (MWCO) ultrafiltration and a polyamide-composite reverse osmosis membrane was investigated. The mobile station effectively decreased conductivity by 98%, COD by 100% and the SAR by 2.15 mgeqv0.5 in the produced water tested in this study. Cost analysis showed that the treatment cost of produced water is less expensive than to dispose of it by injection and this treated water may be of great value in water-poor regions. We can conclude that the mobile station provided a viable and cost-effective result to beneficial use of produced water.
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29

Rittmann, Bruce E. "Aerobic biological treatment. Water treatment processes." Environmental Science & Technology 21, no. 2 (February 1987): 128–36. http://dx.doi.org/10.1021/es00156a002.

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30

Budianto, Heru, Tri Joko, and Nikie Astorina Yunita Dewanti. "Iron level reduction effectivity at Water treatment instalation in Purworejo." Journal of Public Health for Tropical and Coastal Region 3, no. 2 (October 6, 2020): 15–25. http://dx.doi.org/10.14710/jphtcr.v3i2.9052.

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The iron (Fe) content in drinking water is higher than the standard which can cause technical, physical and health problems. Initial inspection at the outlet of the Drinking Water Treatment Plant in Purworejo showed iron levels of 0.575 mg / lt, so it is necessary to investigate its effectiveness.This study aims to determine the effectiveness of iron reduction level (Fe) in the Drinking Water Treatment Plant (IPAM) in Purworejo. This study uses a descriptive observational method, where data is collected, compiled, interpreted and analyzed so that it provides a complete description of the existing problems and then compares them based on theory, literature review, literature, scientific articles and with applicable regulations..The results of measurements of iron (Fe) levels on an average of 0.976 mg / lt inlet, 0.470 mg / lt outlet and 51.76% effectiveness. Standard iron (Fe) content in Permenkes Number 492 / Menkes / Per / IV / 2010 is a maximum of 0.3 mg / lt. The standard of effectiveness according to the Ministry of Home Affairs Research and Development with a result of 40% - 59.99% is in the ineffective category. The effectiveness of Iron (Fe) reduction in the Drinking Water Treatment Plant in Purworejo is in the ineffective category..
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31

Budianto, Heru, Tri Joko, and Nikie Astorina Yunita Dewanti. "Iron level reduction effectivity at Water treatment instalation in Purworejo." Journal of Public Health for Tropical and Coastal Region 3, no. 2 (October 6, 2020): 15–25. http://dx.doi.org/10.14710/joph-tcr.v3i2.9052.

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The iron (Fe) content in drinking water is higher than the standard which can cause technical, physical and health problems. Initial inspection at the outlet of the Drinking Water Treatment Plant in Purworejo showed iron levels of 0.575 mg / lt, so it is necessary to investigate its effectiveness.This study aims to determine the effectiveness of iron reduction level (Fe) in the Drinking Water Treatment Plant (IPAM) in Purworejo. This study uses a descriptive observational method, where data is collected, compiled, interpreted and analyzed so that it provides a complete description of the existing problems and then compares them based on theory, literature review, literature, scientific articles and with applicable regulations..The results of measurements of iron (Fe) levels on an average of 0.976 mg / lt inlet, 0.470 mg / lt outlet and 51.76% effectiveness. Standard iron (Fe) content in Permenkes Number 492 / Menkes / Per / IV / 2010 is a maximum of 0.3 mg / lt. The standard of effectiveness according to the Ministry of Home Affairs Research and Development with a result of 40% - 59.99% is in the ineffective category. The effectiveness of Iron (Fe) reduction in the Drinking Water Treatment Plant in Purworejo is in the ineffective category..
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32

Zahari, Wan Ainaa Mardhiah Wan, Irwan Mohd Subri, Azman Ab Rahman, Mohd Hafez Mohd Isa, Ahmad Sanusi Azmie, Mahazan Abdul Mutalib, and Mohamad Adib Mohamad Salih. "Membrane Water Treatment: A Review in Islamic and Science Perspective." International Journal of Psychosocial Rehabilitation 24, no. 02 (February 12, 2020): 1678–88. http://dx.doi.org/10.37200/ijpr/v24i2/pr200469.

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33

Shabatura, Yuriy, Maryna Mikhalieva, Sergij Korolko, Liubomyra Odosii, Oleksiy Kuznietsov, and Vasyl Smychok. "Autonomous Cyberphysical System of Controlled Treatment and Water Composition Control." Advances in Cyber-Physical Systems 5, no. 1 (November 28, 2017): 23–29. http://dx.doi.org/10.23939/acps2020.01.023.

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An autonomous cyberphysical adaptive system of controlled purification and control of water composition has been considered. Theoretical analysis and experimental studies of the functioning of the components of the proposed system of controlled purification and control of water composition has been performed. The proposed installation is designed to implement the technology of self-regulating system. When using intelligent digital means, it becomes an autonomous cyberphysical adaptive system of controlled purification and control of water composition.
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34

Chatterjee, Deb Shankar, V. Saritha V.Saritha, and NV Srikanth Vuppala. "Modeling and Optimization of Natural Coagulant for Surface Water Treatment." International Journal of Scientific Research 3, no. 5 (June 1, 2012): 1–3. http://dx.doi.org/10.15373/22778179/may2014/201.

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35

Ali, Eman N., Sabreen R. Alfarra, Mashita Mohd Yusoff, and Md Lutfor Rahman. "Environmentally Friendly Biosorbent from Moringa Oleifera Leaves for Water Treatment." International Journal of Environmental Science and Development 6, no. 3 (2015): 165–69. http://dx.doi.org/10.7763/ijesd.2015.v6.582.

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36

Suk An, Ju, Young Kyu Park, Ji Young Kim, Hyun Je Oh, and Jae Roh Park. "Development of Cassette-Type Water Treatment Package System for Emergencies." International Journal of Engineering and Technology 7, no. 1 (February 2015): 17–20. http://dx.doi.org/10.7763/ijet.2015.v7.758.

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37

Terai, Mamoru, Takeo Ishibashi, Takuya Hagiwara, Tetsuro Hanna, Teruhiko Kumada, Yoko Takebe, Osamu Yokokoji, et al. "Novel Wafer Bevel Treatment for Water Immersion Lithography." Journal of Photopolymer Science and Technology 21, no. 5 (2008): 665–72. http://dx.doi.org/10.2494/photopolymer.21.665.

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38

Naumova, Olga Valerievna, Elena Vladimirovna Spiridonova, and Danila Sergeevich Katkov. "Device for water treatment and water purification." Agrarian Scientific Journal, no. 4 (April 20, 2022): 89–91. http://dx.doi.org/10.28983/asj.y2022i4pp89-91.

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The article is devoted to the problems of water purification and organization of water treatment for engineering systems. Well-known methods of water treatment, such as mechanical, electrophysical, chemical, are not always able to ensure the quality of water in heat supply systems. Modern trends in the development of industry are aimed at the modernization of technological equipment in terms of the implementation of new progressive technologies. For the efficient operation of water heaters and to reduce heat losses in the heating and water supply system of the building, it is necessary to minimize scale deposits on the inner surface of the pipes. The article describes the principle of operation of an energy-combined liquid treatment device that can intensify the process of activation, disinfection and water purification. It is possible to improve the water quality by using a combined system that includes the effect of a high-voltage discharge pulse, cavitation and a magnetic field. Exposure to the liquid by a discharge pulse leads to the death of pathogenic microorganisms, as well as to ensure the emancipation of impurity ingredients. During magnetic treatment, the calcium, silicon and magnesium ions dissolved in water lose their ability to salt formation, and the impurities in the water are present in a suspended state. The magnetic field combines the suspensions contained in the water, the process of coagulation of impurity inclusions is observed, which after processing do not settle on the surfaces of pipelines, heat exchangers and other equipment. It is worth noting the high efficiency in cleaning and filtering various particles of polluting impurities, despite the fact that in most cases these impurities consist of completely non-magnetic materials. The use of the proposed method is of great interest in obtaining water of a high degree of purification for the chemical, microbiological and electronic industries.
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39

Naumova, Olga Valerievna, Elena Vladimirovna Spiridonova, and Danila Sergeevich Katkov. "Device for water treatment and water purification." Agrarian Scientific Journal, no. 4 (April 20, 2022): 89–91. http://dx.doi.org/10.28983/asj.y2022i4pp89-91.

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The article is devoted to the problems of water purification and organization of water treatment for engineering systems. Well-known methods of water treatment, such as mechanical, electrophysical, chemical, are not always able to ensure the quality of water in heat supply systems. Modern trends in the development of industry are aimed at the modernization of technological equipment in terms of the implementation of new progressive technologies. For the efficient operation of water heaters and to reduce heat losses in the heating and water supply system of the building, it is necessary to minimize scale deposits on the inner surface of the pipes. The article describes the principle of operation of an energy-combined liquid treatment device that can intensify the process of activation, disinfection and water purification. It is possible to improve the water quality by using a combined system that includes the effect of a high-voltage discharge pulse, cavitation and a magnetic field. Exposure to the liquid by a discharge pulse leads to the death of pathogenic microorganisms, as well as to ensure the emancipation of impurity ingredients. During magnetic treatment, the calcium, silicon and magnesium ions dissolved in water lose their ability to salt formation, and the impurities in the water are present in a suspended state. The magnetic field combines the suspensions contained in the water, the process of coagulation of impurity inclusions is observed, which after processing do not settle on the surfaces of pipelines, heat exchangers and other equipment. It is worth noting the high efficiency in cleaning and filtering various particles of polluting impurities, despite the fact that in most cases these impurities consist of completely non-magnetic materials. The use of the proposed method is of great interest in obtaining water of a high degree of purification for the chemical, microbiological and electronic industries.
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40

Oe, Taro. "Waste Water Treatment by Supercritical Water Oxidation." JAPAN TAPPI JOURNAL 52, no. 8 (1998): 1056–62. http://dx.doi.org/10.2524/jtappij.52.1056.

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41

Dachev, Yuriy, Miroslav Tsvetkov, and Valentin Zlatev. "Ship Ballast Water Treatment." WSEAS TRANSACTIONS ON ENVIRONMENT AND DEVELOPMENT 17 (February 2, 2021): 110–17. http://dx.doi.org/10.37394/232015.2021.17.11.

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Ships use ballast water to ensure their buoyancy and stability. A significant amount of them is transported in various water basins of the World Ocean. Thus, together with ballast water, many microorganisms, phytoplankton and zooplankton are transported. The constant increase in the number of ships in the World Merchant Navy increases the risk of the spread of these invasive species in the local aquatic environment. This led to the decision of the International Maritime Organization (IMO) to legalize the control and treatment of ships' ballast water in order to minimize the risks of the spread of these invasive species.. Their transfer through ballast water to a new water environment is estimated as one of the 4 largest treats for the World Ocean. The International Convention for the Control and Management of Ballast Water and Sediments plays an essential role in the control of ballasting and de-ballasting processes. It regulates the D-1 and D-2 standards, as well as various ballast water treatment systems. Improving the possibility of subsequent change in the application of invasive species, the only way to solve this problem, is to fully prepare for ballast water and to develop alternative methods to ensure the buoyancy and resilience of ships.
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42

NAKAMURA, Hiroshi. "Treatment of waste water." Jitsumu Hyomen Gijutsu 33, no. 8 (1986): 327–36. http://dx.doi.org/10.4139/sfj1970.33.327.

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43

Goryunov, Aleksey G., Flavio Manenti, Kirill A. Kozin, Sergey A. Baydali, Igor S. Nadezhdin, and Roman V. Potemin. "Mobile Water Treatment Complex." Applied Mechanics and Materials 756 (April 2015): 565–70. http://dx.doi.org/10.4028/www.scientific.net/amm.756.565.

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This article is devoted to review of the existing mobile water treatment complex. Development of resource-efficient technology for water purification is examined by the change of process chart as a function of qualitative composition of a water source. Machine design variants are proposed on the terrain vehicle.
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44

Machado de Lima, João Pedro, and Silvio Luiz de Sousa Rollemberg. "Simplified Water Treatment Techniques." Revista Virtual de Química 12, no. 2 (2020): 447–60. http://dx.doi.org/10.21577/1984-6835.20200036.

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45

Maslov, I. Z., A. H. Danilian, N. B. Tiron-Vorobiova, O. R. Romanovska, and A. O. Babak. "Ballast water treatment plant." Ecological Sciences 2 (2019): 104–8. http://dx.doi.org/10.32846/2306-9716-2019-2-25-16.

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46

Murko, Elena, Vasily Murko, and Jurgen Kretchmann. "Sludge water stabilization treatment." E3S Web of Conferences 303 (2021): 01048. http://dx.doi.org/10.1051/e3sconf/202130301048.

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Technologically contaminated water, formed during processing of coal slurries, finds its application in modern technological cycles of coal enrichment. Limitation of use of untreated recycled water of coal concentration plants is caused by a high degree of its mineralization by various salts, presence of insoluble solid particles and presence of flotation reagents, coagulants and flocculants. Part of technical water purified from mineral and organic contaminants can be used in heating systems and heat exchange equipment of industrial enterprises, including the coal industry. For this purpose, it is necessary to reduce the scale-forming ability of service water (to reduce the content of soluble calcium and magnesium salts in water). One of the most effective and advanced methods is the stabilization treatment of water with an electric field. In addition, this method is environmentally safe, low-cost and simple. The article gives the foundation of the method of stabilization treatment of recycled water of concentrating plants by an electric field, a description of the methodology of the laboratory experiment for scaling reduction, and the analysis of the results.
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47

"Peat Water Treatment with Natural Inorganic Coagulant." International Journal of Science and Research (IJSR) 5, no. 8 (August 5, 2016): 389–94. http://dx.doi.org/10.21275/art2016833.

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48

Nurhidayanti, Nisa. "Study of Clean Water Management in Water Treatment Plant Grand Cikarang City." Engineering and Technology Journal 07, no. 06 (June 3, 2022). http://dx.doi.org/10.47191/etj/v7i6.02.

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ABSTRACT: In the last few months, residents of the North Cikarang GCC housing have complained that the water supplied by the PAPs is smelly, cloudy and unfit for bathing, washing dishes and clothes. This encourages the PAP developers to be able to improve the clean water treatment process so that it is suitable for residents to use. The purpose of this study is to analyze whether the management of the Grand Cikarang City WTP has met the quality standards of clean water quality in Indonesia. Clean water treatment process starting from intake, coagulation, flocculation, sedimentation, filtration, and reservoir. The results of the analysis at the Grand Cikarang City WTP, namely that the WTP has carried out procedural procedures in managing clean water treatment from the raw water stage, production to quality and distribution to consumers, namely residents of Grand Cikarang City housing and in providing chemicals such as alum and chlorine. WTP also pays attention to the maximum standard of chemical use, so as not to have an impact on consumer health, in order to meet quality standards before water is distributed to residents of housing as many as 7,643 housing units, but in the process of managing clean water in WTP there are problems, namely the quality of the results of WTP processing even though it is still enter the quality standard.
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49

"Water treatment." Fuel Cells Bulletin 3, no. 18 (March 2000): 16. http://dx.doi.org/10.1016/s1464-2859(00)87641-5.

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50

"Water treatment." Membrane Technology 1999, no. 113 (September 1999): 12. http://dx.doi.org/10.1016/s0958-2118(00)80025-7.

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