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Regulation of surface runoff in urban areas with temporary delay by infiltration basins of rainwater in the places of their precipitation and with gradual drainage through the existing reservoirs of small diameters is the most appropriate under the conditions of intensive building development, wear and imperfection of surface drainage systems, especially combined sewerage. Evaluation of application conditions and basic parameters of infiltration basins in surface drainage regulation was carried out on the basis of own experimental studies of infiltration basin fragment with upper typical vegetation layer, numerical computer modeling of surface runoff formation in urban areas, its regulation using infiltration basins and analysis of previous studies. Its water absorption, filtration and clearing indicators were defined on the basis of experimental studies. The self-regenerative restoring function of a vegetative layer, working conditions under the flooded and not flooded conditions were established and defined. According to the amount of suspended solids, BOD, oxidation, pH and dissolved oxygen, the quality of rain runoff when filtering water through the upper vegetation layers of infiltration basins decreases to the normative values.
Czasopismo
Rocznik
Tom
Strony
191--195
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
autor
- National University of Water and Environmental Engineering, 33028 Soborna St., 11, Rivne, Ukraine
autor
- National University of Water and Environmental Engineering, 33028 Soborna St., 11, Rivne, Ukraine
autor
- National University of Water and Environmental Engineering, 33028 Soborna St., 11, Rivne, Ukraine
Bibliografia
- 1. Boshota V.V. 2013. Rehulyuvannya doshchovoho stoku z urbanizovanykh terytoriy z vykorystannyam filtratsiynykh transhey. (Ph.D’s) 05.23.04, Rivne, 20. [in Ukrainian]
- 2. DBN V.2.5-75:2013 2013. Sewerage. External networks and facilities. The main principles of the desig. Kyiv, Minrehionbud Ukrainy, 211. [in Ukrainian]
- 3. DSTU 8691:2016. Stichni vody. Nastanovy shchodo vstanovlennya tekhnolohichnykh normatyviv vidvedennya doshchovykh stichnykh vod u vodni obyekty. Kyiv: DP, UkrNDNTS, 28. [in Ukrainian]
- 4. DSTU-N B V.1.1-38:2016 2016. Nastanova shchodo inzhenernoho zakhystu terytoriy, budivel i sporud vid pidtoplennya ta zatoplennya. Kyiv: Minrehion Ukrainy, 204. [in Ukrainian]
- 5. Dziopak J. 2015. Stormwater Management and Retention in Urban Catchment. Storm Water Management: Examples from Czech Republic, Slovakia and Poland. Springer Switzerland, 43–66.
- 6. Fletcher T.D., Andrieu H., Hamel P. 2013. Understanding, management and modeling of urban hydrology and its consequences for receiving waters: а state of the art/Advances in Water Resources, Pergamon, 51, 261–279.
- 7. Kaźmierczak A. 2013. Innowacyjne metody wspierania tworzenia zielonej infrastruktury w miastach: współpraca władz lokalnych z inwestorami i właścicielami budynków. Zrównoważony Rozwój Zastosowania, 4, 98–109. [in Polish].
- 8. Low impact development stormwater management planning and design guide 2020. URL: https://cvc.ca/wp-content/uploads/2014/04/LID-SWM-Guide-v1.0_2010_1_no-appendices.pdf.
- 9. Lucke T., Nichols P.W.B. 2015. The pollution removal and stormwater reduction performance of streetside bioretention basins after ten years in operation. Science of The Total Environment, 536, 784–792. https://doi.org/10.1016/J.scitotenv.2015.07.142
- 10. Shevchuk O.V. 2017. Obgruntuvannya rozrakhunkovykh parametriv infiltratsiynykh maydanchykiv u miskykh systemakh doshchovoho vodovidvedennya. Ph.D’s thesis: 05.23.04. Rivne, 200. [in Ukrainian]
- 11. Tkachuk O.A., Yaruta Y.V. 2018. Osoblyvosti formuvannya doshchovoho stoku na miskykh terytoriyakh. Tekhnichni nauky: zb. nauk. prats. Rivne: NUWEE, 1(81), 63–74. [in Ukrainian]
- 12. Tkachuk O.A., Yaruta Y.V. 2019. Ochyshchennya doshchovoho stoku pry yoho rehulyuvanni za dopomohoyu infiltratsiynykh baseyniv. Naukovyy Visnyk Budivnytstva, 95(1), 204–211. [in Ukrainian]
- 13. Ukrainian Hydrometeorological Center: Climate system and factors determining the formation of climate 2021. URL: https://meteo.gov.ua/ua/33345/climate/climate/.
- 14. Yaruta Y.V. 2020. Udoskonalennya miskykh system doshchovoho vodovidvedennya z urakhuvannyam rehulyuvannya doshchovoho stoku. (Ph.D’s) 192, Construction and Civil Engineering, 247. [in Ukrainian]
- 15. Zhuk V.M., Kachmar I.Z. 2015. Teoretychnyy rozrakhunok nakopychennya doshchovoho stoku na poverkhni udoskonalenykh pokryttiv. Visnyk NU “Lvivska Politekhnika”. Teoriya i Praktyka Budivnytstva, 520, 122–128. [in Ukrainian]
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e2108106-bbaf-4753-b796-4835186cbde4