№6|2016

DRINKING WATER SUPPLY

bbk 000000

UDC 628.16

Fomina V. F., Fomin A. V.

Upgrade of horizontal sedimentation tanks with the use  of dissolved-air flotation

Summary

The analysis of the efficiency of low turbidity colored water of the Vychegda River purification at the water treatment facilities of Syktyvkar in horizontal sedimentation tanks operating in the mode of coagulation at 2–3 times lowered hydraulic loading is presented. The necessity of upgrading the sedimentation tanks by redesigning their exit sections into flotation chambers is substantiated. The enhancement of the sedimentation tank operation by equipping with a flotation chamber provides for meeting the regulatory requirements to the drinking water quality under the conditions of significant seasonal fluctuations of the raw water quality indicators and temperature. Enhanced clarification of the water being coagulated is ensured before the filtration stage; at that the flow rate of backwash water decreases 3 times, the number of filter washes per day decreases to 0.5 times and less (filter run increases to 2 days and more). Backwash water purification together with raw water provides for streamlining the process flow scheme and chemical facilities (the number of chemical injection and dosing points decreases); facilitating the operation of the facilities, 8% operational expenses saving and plant demand decreasing to 3%. The upgrade of horizontal sedimentation tanks with the use of dissolved air flotation is more economically and environmentally feasible than the reconstruction of the two-stage filtration facilities. It provides for doubling the sedimentation facilities output, decreasing the amount of wash water and combined with raw water handling.

Key words

, , , , , ,

The further text is accessible on a paid subscription.
For authorisation enter the login/password.
Or subscribe

REFERENCES

  1. Fomina V. F., Fomin A. V. [Development of efficient Vychegda River water purification technology (by the 30th anniversary of studies of dissolved air flotation efficiency at the water treatment facilities in Syktyvkar, Komi Republic)]. Voda Magazine, 2008, no. 10, pp. 40–48. (In Russian).
  2. Draginskii V. L., Alekseeva L. P., Getmantsev S. V. Koaguliatsiia v tekhnologii ochistki prirodnykh vod [Coagulation in natural water purification technology. Moscow, Nauka Publ., 2005, 576 p.].
  3. Latyshev N. S. Effektivnost’ reagentnoi obrabotki vysokotsvetnykh i malomutnykh vod v zavisimosti ot prirody organicheskikh zagriaznenii [Efficiency of chemical treatment of high colored and low turbidity water depending on the origin of organic pollutants. Ph. D. thesis in Engineering Science. Moscow, VNII VODGEO Publ., 2010, 144 p.].
  4. Fomina V. F., Fomin V. P. [Pat. 2549420, RF. IPC C 02 F 1/00, C 02 F 9/00. Method of natural water purification]. Izobreteniia. Poleznye Modeli, 2015, no. 12. (In Russian).
  5. Babaev A. V., Podkovyrov V. P., Domozhakov D. I., Arutiunova I. Iu., Iagunkov S. Iu. [Reusing supernatant water generated in the course of water sludge treatment]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2010, no. 10, part. 1, pp. 20–26. (In Russian).

vstmag engfree 200x100 2

mvkniipr ru