№9|2017

SURFACE RUNOFF TREATMENT

bbk 000000

UDC 628.212.2/.316

Vatin N. I., PANKOVA G. A., Leonov L. V., Probirsky M. D., Rublevskaya O. N., Chechevichkin A. V., Iakunin L. A.

Test operation of FOPS® filter with natural zeolite
for infiltrate polluted surface runoff treatment

Summary

Infiltration effluent often causes heavy pollution of surface runoff with heavy metal ions. The purpose of the present work was testing the operation in-situ of a cartridge filter with natural zeolite for surface runoff treatment polluted with heavy metals from infiltrate. The results of studying the level of pollution of storm runoff from industrial site are presented. As part of the study the following challenges were addressed: study of formation of surface runoff heavily polluted with infiltrate at the site and treatment options; implementation of sorption-filtration technology in a real project with the use of filters for surface runoff treatment (FOPS®) installed in sewer manholes; evaluation of the possible removal of heavy metal ions from real runoff with natural zeolite-clinoptololite. Possible purification of the studied runoff with the use of FOPS®-TS filter with natural zeolite was substantiated. It was shown that ultra high concentrations of aluminium, zinc and copper are formed in infiltrate entering the drainage system on site. Using FOPS®-TS filter provided for the high efficiency of aluminium, zinc, copper and iron removal during the test period (April – October).

Key words

, , ,

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

REFERENCES

  1. Chechevichkin V. N., Vatin N. I. [Specific composition and surface runoff treatment in big cities]. Inzhenerno-Stroitel’nyi Zhurnal, 2014, no. 6, pp. 67–74. (In Russian).
  2. Kim A. N., Davydova E. V., Polianskaia D. N. [Surface runoff removal and treatment in Astrakhan: current state and development prospects]. Vestnik SGASU. Gradostroitel’stvo i Arkhitektura, 2016, no. 2 (23), pp. 31–34. (In Russian).
  3. Shchukin I. S., Melekhin A. G. [Qualitative composition of surface runoff from the territory of Perm City]. Vestnik PNIPU. Urbanistika, 2012, no. 4, pp. 110–118. (In Russian).
  4. Kim A. N. [Advanced solutions of urban surface runoff problems]. Inzhenerno-Stroitel’nyi Vestnik Prikaspiia, 2015, no. 2 (12), pp. 45–50. (In Russian).
  5. Pshenin V. N., Kovalenko V. I. [Storm runoff from highways pollution]. Vestnik INZHEKONa, 2007, no. 6 (19), pp. 140–145. (In Russian).
  6. Leonov E. A., Mikhailova M. S. [Problems of treatment of surface runoff from highways through the example of Saint-Petersburg beltway]. Zhizn’ i Bezopasnost’, 2002, no. 3, pp. 280–286. (In Russian).
  7. Butianov M. S., Pshenin V. N. [Storm runoff from highways]. Dorozhnaia Derzhava, 2013, no. 48, pp. 72–75. (In Russian).
  8. Shilkova O. S., Sarbaev V. I., Dzhaniants A. V. [Surface runoff treatment at the points of Moscow beltway crossing water bodies]. Gornyi Informatsionno-Analiticheskii Biulleten’, 2000, no. 12, pp. 18–22. (In Russian).
  9. Venetsianov T. A. [Multilayer sorption filters on guard for water protection zones of highways from pollution]. Voda: Khimiia i Ekologiia, 2012, no. 12 (54), pp. 32–41. (In Russian).
  10. Mikhailov A. V., Kim A. N., Prodous O. A., Grafova E. O., Rublevskaia O. N. Vodootvedenie i ochistka poverkhnostnogo stoka na torfianykh fil’trakh [Wastewater disposal and surface runoff treatment in peat filters. St. Petersburg, Sborka Publ., 2014, 134 p.].
  11. Bul’skaia I. V., Kolbas A. P., Volchek A. A. [Sources of pollution of surface runoff from urban territories with some ions and oil products]. Ekologicheskii Vestnik, 2015, no. 2 (32), pp. 28–33. (In Russian).
  12. Volchek A. A., Bul’skaia I. V. [Runoff from urban territories and its treatment]. Vestnik Brestskogo GTU, 2013, no. 2, pp. 88–92. (In Russian).
  13. Korchevskaia A. M., Chechevichkin V. N. [Characteristics of a sorption module of the hydroengineering facilities for storm runoff treatment from cemeteries]. Inzhenerno-Stroitel’nyi Zhurnal, 2009, no. 2, pp. 43–45. (In Russian).
  14. Zhmakov G. N. [Development and implementation of Russian airports storm runoff treatment projects]. Nauchno-Tekhnicheskii Vestnik Povolzh’ia, 2014, no. 6, pp. 151–153. (In Russian).
  15. Ovdienko E. N., Derbisher E. V., Shipko I. V. [Problems of improving storm runoff treatment generated at industrial sites]. Sovremennye Naukoemkie Tekhnologii, 2007, no. 8, pp. 85–86. (In Russian).
  16. Chechevichkin V., Vatin N. Megacities land drainage and land runoff features and treatment. Applied Mechanics and Materials, 2014, v. 641–642, pp. 409–415.
  17. Metodika rascheta ob”emov organizovannogo i neorganizovannogo dozhdevogo, talogo i drenazhnogo stoka v sistemy kommunal’noi kanalizatsii [Method of calculating the amounts of controlled and uncontrolled rainfall, snowmelt and drainage runoff in public sewers. St. Petersburg, Ekologiia i Pravo Publ., 2000, 52 p.].
  18. Prognozy podtopleniia i raschet drenazhnykh sistem na zastraivaemykh i zastroennykh territoriiakh [Predictions of flooding and calculation of drainage systems on build-up and under construction territories. Reference Book under the editorship of I. A. Barinov. Moscow, Stroiizdat Publ., 1991, 272 p.].
  19. Kantsiber Iu. A., Shtykov V. I. [Evaluation of drainage water treatment from residential and industrial territories of the North-West of Russia]. Inzhenerno-Stroitel’nyi Zhurnal, 2012, no. 4, pp. 46–51. (In Russian).
  20. Iudina I. G. [Specificity of drainage water composition in Rostov-on-Don city]. Inzhenernyi Vestnik Dona, 2011, v. 17, no. 3, pp. 48–51. (In Russian).
  21. Mitrakhovich A. I., Kaz’miruk I. Ch. [Selection of drainage filters for amelioration systems]. Melioratsiia, 2015, no. 1 (73), pp. 54–67. (In Russian).
  22. Domashenko Iu. E., Vasil’ev S. M. [Modeling and evaluation of pollutants entering collector-drainage runoff]. Nauchnyi Zhurnal Rossiiskogo NII Problem Melioratsii, 2016, no. 2 (22), pp. 112–127. (In Russian).
  23. SNiP 3.05.04-85. Naruzhnye seti i sooruzheniia vodosnabzheniia i kanalizatsii [SNiP 3.05.04-85. Water supply and sewerage outdoor networks and structures. Moscow, TSITP Gosstroiia SSSR Publ., 1990, 48 p.].
  24. Dikarevskii V. S., Kurganov A. M., Nechaev A. P., Alekseev M. I. Otvedenie i ochistka poverkhnostnykh stochnykh vod [Surface runoff disposal and treatment. Leningrad, Stroiizdat Publ., 1990, 224 p.].
  25. Zonn S. V. Zhelezo v pochvakh [Iron in soils. Moscow, Nauka Publ., 1982, 206 p.].
  26. Chukhrov F. V., Gorshkov A. N., Drits V. A. Gipergennye okisly margantsa [Supergene manganese oxides. Moscow, Nauka Publ., 1989, 208 p.].
  27. Vodianitskii Iu. N., Vasil’ev A. A., Lesovaia S. N., Sataev E. F., Sivtsov A. V. [Formation of manganese oxides in soils]. Pochvovedenie, 2004, no. 6, pp. 663–675. (In Russian).
  28. Perelomov L. V., Pinskii D. L. [Mn, Pb and Zn forms in sulphur forest soils of the Central Russian Upland]. Pochvovedenie, 2003, no. 6, pp. 682–691. (In Russian).
  29. Vereshchagina L. M. [Calculation of the surface runoff treatment facilities capacity under the conditions of the environmental legislation reform]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2015, no. 1, pp. 4–8. (In Russian).
  30. Galkin S. M., Kan’kovskii A. A. [New solutions of storm runoff collection, treatment and discharge]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2010, no. 4, pp. 59–64. (In Russian).
  31. Il’in V. I. [Improving the efficiency of surface runoff treatment facilities operation]. Ekologiia Promyshlennogo Proizvodstva, 2011, no. 4, pp. 56–58. (In Russian).
  32. Variushina G. P. [Modern experience of surface runoff treatment facilities operation]. Vodoochistka, 2014, no. 1, pp. 24–28. (In Russian).
  33. Petrov E. G., Kirichevskii D. S. [Sorption technologies of industrial wastewater and surface storm water treatment]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2005, no. 6, pp. 34–36. (In Russian).
  34. Chechevichkin V. N., Vatin N. I. [Economically efficient surface runoff treatment in big cities]. Evrostroi-Profi, 2015, no. 78, pp. 48–52. (In Russian).
  35. Chechevichkin A. V. Proektirovanie i primenenie lokal’nykh ochistnykh sooruzhenii poverkhnostnogo stoka na osnove fil’trov FOPS® [Design and use of local surface runoff treatment facilities based on FOPS® filters. St. Petersburg, Liubavich Publ., 2017, 176 p.].
  36. Vatin N. I., Grekov M. A., Leonov L. V., Probirskii M. D., Rublevskaia O. N., Chechevichkin A. V., Iakunin L. A. [Results of the test operation of FOPS® filter for treatment of storm runoff from residential areas in Saint-Petersburg]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2017, no. 1, pp. 58–65. (In Russian).
  37. Nitskaia S. G., Vasil’ev V. I., Antonenko I. V., Surova N. V. [On the reconstruction of the facilities for industrial storm runoff treatment]. Vestnik IUUrGU. Stroitel’stvo i Arkhitektura, 2014, v. 14, no. 1, pp. 50–53. (In Russian).
  38. Misin V. M., Maiorov E. V. [Recovery of heavy metals from urban surface runoff with the use of filamentous chemisorption materials]. Voda: Khimiia i Ekologiia, 2012, no. 3, pp. 42–47. (In Russian).
  39. Ermakova L. S., Gonopol’skii A. M. [Binding free technology of solid waste compacting into large-sized blocks]. Khimicheskoe i Gazovoe Mashinostroenie, 2010, no. 11, pp. 18–20. (In Russian).
  40. Navosha Iu. Iu., Prokhorov S. G., Strigutskii V. P. [On the interaction of humic substances with metal ions]. Pochvovedenie, 1992, no. 1, pp. 109–113. (In Russian).

Журнал ВСТ включен в новый перечень ВАК

Шлафман В. В. Проектирование под заданную ценность, или достижимая эффективность технических решений – что это?

Banner Kofman 1