Tamara Shevchenko scite author profile

Tamara Shevchenko

5Publications

4Citation Statements Received

13Citation Statements Given

How they've been cited

How they cite others

Affiliations

O.M. Beketov National University of Urban Economy in Kharkiv, National Academy of Agrarian Sciences of Ukraine

Publications

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Applying a modified aluminum sulfate solution in the processes of drinking water preparation

Dushkin

Shevchenko

2020

EEJET

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This paper reports a study on the application of aluminum sulfate solution, modified by the magnetic field and electrocoagulation, in the processes of drinking water preparation. The modification of the coagulant solution makes it possible to intensify water purification processes, to reduce reagent consumption by 25-30 %. It has been found that a dose of the modified aluminum sulfate solution of 28-30 mg/dm 3 improves the efficiency of removal of suspended substances and coloration by 35-40 %. The dosage of the conventional reagent solution was 40 mg/dm 3 while reaching the same purification parameters. Modifying a solution of aluminum sulfate with the magne tic field and electrocoagulation increases the hydraulic size of the coagulated suspension. A change in the hydraulic size in the suspension has been studied at different periods of the year. In winter, when treating water with the modified aluminum sulfate solution, there a decrease in the suspension content whose hydraulic size is 0.1 mm/s and less, from 89 % to 22 %. In this case, the content of suspended substances at settling decreases from 8.5-12.5 mg/dm 3 to 5.6-8.3 mg/dm 3. In spring, when using the modified coagulant solution, the content of suspension whose size is 0.1 mm/s and less decreased from 55 % to 15 %. In summer, there is an increase in the content of suspension whose size is 0.3-0.5 mm, from 58 % (a conventional reagent solution) to 66 % (the modi fied reagent solution). This indicates an intensification of the coagulation of impurities and the clarification of water. The experimental data testify to an increase in the effectiveness of discoloration of natural low-turbid colored water to 63.3-63.9 % for the modified reagent solution at 45.5 % for a conventional reagent solution. A change in the bacteriological parameters has been determined:

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Improving the environmental safety of drinking water supply in kharkiv region (Ukraine)

Третьяков¹,

Shevchenko²,

Безсонний³

2015

EEJET

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Elaboration of Anaerobically Stabilized Sludges of Communal Cleaning Plants on the Chamber-Membrane Filter Press: Parameters and Efficiency of Work

Shevchenko¹,

Шевченко²,

Zlatkovskyi³

et al. 2019

Scientific notes of Taurida National V.I. Vernadsky University.

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Computer simulation of hydraulic flow in a mixing device with a diaphragm of special design installed in it

Shevchenkо¹,

Shevchenko

2017

EEJET

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Contact Clarifiers in the Preparation of Drinking Water

Dushkin

Благодарна

Shevchenko

2021

MEC

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The article discusses the problem of improving the technological process of clarifying water for drinking purposes using contact clarifiers, which allows to reduce the consumption of reagents, improve water quality, reduce capital and operating costs, and reduce the cost of water. The method of water treatment, based on the use of the phenomenon of contact coagulation, is called the method of contact clarification. This method is able to provide a high and stable effect under various physicochemical conditions of coagulation, changing according to the seasons of the year with lower doses of coagulant than in the usual scheme of water treatment with sedimentation and filtration. It was found that the contact coagulation of suspended and colloidal impurities of water on sand grains when water moves through granular filters is faster, more complete, more stable when the physicochemical conditions of coagulation change according to the seasons of the year. And, finally, at lower doses of coagulant than the usual coagulation of these impurities in the free volume of water in flocculation chambers and settling tanks. It is advisable to use contact clarifier in one-stage treatment schemes for low-turbid colored waters, when the total content of suspended solids in the water supplied to the contact clarifiers, including the suspension that is formed as a result of the introduction of reagents into the water, does not exceed 150 mg/dm3. With a higher suspension content in water, the water consumption for flushing contact clarifiers increases sharply. It was found that the zones of contact coagulation when using a conventional coagulant solution are slightly smaller than when treating water with a modified solution of aluminum sulfate (the latter takes place on the curves of contact coagulation of both low-turbid and turbid waters). The analysis of contact coagulation zones shows that when treating water using a modified coagulant solution, it makes it possible to reduce the calculated doses of coagulant by an average of 30-45% without deteriorating the quality of water clarification.

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