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Research of main analysis parameters of infiltration areas connecting to the storm drainage system

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Infiltration areas with permeable pavements are one of the most effective modern methods of stormwater management on urban areas that permit accumulation of rainfall directly at place of precipitation. The paper justifies the expediency of inclusion of infiltration areas in the storm drainage system to ensure the effective stormwater management on urban areas. Thus, the aim of this paper is to calculate infiltration areas’ basic parameters following the experimental and theoretical studies undertaken by authors. Based on these studies, a mathematical model of filling and emptying of base layer of infiltration areas by connecting them to the rain drainage systems is determined. As a result the formulae of calculation of the stormwater volume that detained on the infiltration areas, and the drainage discharges that came in the rain drainage system are received and verified. Moreover, obtained results permit to realize stormwater management on urban areas that depend on parameters of infiltration areas and pipe capacity of drainage system.
Rocznik
Strony
203--209
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
  • Department of UrbanPlanning and Development, National University of Water Management and Environmental Engineering, 11 Soborna str., 33028 Rivne, Ukraine
autor
  • Department of UrbanPlanning and Development, National University of Water Management and Environmental Engineering, 11 Soborna str., 33028 Rivne, Ukraine
Bibliografia
  • Abbot C., Comino-Mateos L. (2003). In-situ hydraulic performance of a permeable pavement sustainable urban drainage system. Water and Environmental Journal, Vol. 17, No. 3, 187-190.
  • Alekseev M., Kurhanov A. (2000) Orhanyzatsyia otvedenyia poverkhnostnoho (dozhdevoho y taloho) stoka s urbanyzyrovannykh terrytoryi [Organization of runoff (rainfall and snowmelt) disposal from urban areas]. Moscow: Publishing ASB; SPb.:SPbHASU (in Russian).
  • AMEC Earth and Environmental (2001). CWP Georgia Stormwater Management Manual. Technical Handbook. AMEC Earth and Environmental, Center for Watershed Protection, Atlanta.
  • Andersen C., Foster I., Pratt C. (1999). The role of urban surfaces (permeable pavements) in regulating drainage and evaporation: development of a laboratory simulation experiment. Hydrological Processes, Vol. 13, No. 4, 597-609.
  • Astebol S., Hvitved-Jacobsen T., Simonsena A. (2004). Sustainable storm water management at Fornebu - from an airport to an industrial and residential area of the City of Oslo, Norway. Science of the Total Environment, 2004; 334-335(Special Issue): 239-49.
  • Booth D., Leavitt J. (1999). Field evaluation of permeable pavement systems for improved storm water management. American Planning Association Journal, Vol. 65, No. 3, 314-325.
  • CDT (2013). Pervious Pavement Design Guidance. California Department of Transportation, Division of Design Office of Storm Water Management, Sacramento, California.
  • DBN V.2.5-75 (2013). Kanalizatsiia. Zovnishni merezhi ta sporudy. Osnovni polozhennia proektuvannia. [Sewerage. External networks and facilities. The main principles of the design]. Minrehionbud Ukrainy, Kyiv 2013 (in Ukrainian).
  • DDE (2013). Draft District of Columbia Stormwater Management Guidebook. District Department of the Environment, Washington D.C..
  • Dierkes C., Gobel P., Benze W., Wells J. (2002). Next generation water sensitive stormwater management techniques. In: Melbourne Water, editor. Proceedings of the 2nd National Conference on Water Sensitive Urban Design, 2-4 September 2000, Brisbane, Australia, 2002.
  • Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policy: OJL 327, 22 December 2000.
  • DWA German Association for Water (2005). DWA A 138 Planning, Construction and Operation of Facilities for the Percolation of Precipitation Water. DWA German Association for Water, Hennef. 2005.
  • Environmental Protection Agency (2011). Green Infrastructure: http://water.epa.gov/infrastructure/greeninfrastructure/index. cfm, United States Environmental Protection Agency.
  • Ihnatenko O., Zuzanska O. (2012). Derzhavna polityka shchodo system poverkhnevoho vodovidvedennia v Ukraiini [State policy of runnof drainage system in Ukraine], Problems of water supply, wastewater removal and hydraulics. Scientific and technical collection, Kyiv, KNUBA, Vol 19, 2012, 7-12 (in Ukrainian).
  • Ferguson B. (2005). Porous Pavement: Integrative studies in water management and land development. Boca Raton: CRC Press.
  • Montgomery D. (2001). Design and Analysis of Experiments. 5th Edition. John Wiley and Sons.
  • Pagotto C., Legret M., Le Cloirec P. (2000). Comparison of the hydraulic behaviour and the quality of highway runoff water according to the type of pavement. Water Research, Vol. 34, No. 18, 4446-4454.
  • Pratt C., Newman A., Bond P. (1999). Mineral oil biodegradation within a permeable pavement: long-term observations. Water Science and Technology, Vol. 39, No. 2, 109-130.
  • Scholz M. (2006). Wetland systems to control urban runoff. Elsevier, Amsterdam.
  • Scholz M., Grabowiecki P. (2007). Review of permeable pavement systems. Building and Environment, Vol. 42, 3830-3836.
  • Schreiter H., Kappis C. (2013). Effect and Function of Green Tracks. Network Management. IASP, Berlin.
  • Tkachuk O., Shevchuk O. (2015a). Model zatrymannia doshchovykh vod na infiltratsiinykh maidanchykakh [The model of stormwater detention on the infiltration areas] Bulletin NUWMNRU, Vol. 4, 485-497 (in Ukrainian).
  • Tkachuk O., Shevchuk O. (2015b). Doslidzhennia roboty infiltratsiinykh maidanchykiv dlia system doshchovoho vodovidvedennia [Reaserching of the infiltration areas function for the drainage system] Bulletin NUWMNRU, Vol. 3, 100-105 (in Ukrainian).
  • Tkachuk S., Zhuk V. (2012). Rehuliuvannia doshchovoho stoku v systemakh vodovidvedennia [Stormwater regulation on drainage systems] Lviv: Publishing Lviv Polytechnic (in Ukrainian).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2daaa254-b3db-4aa0-9ac8-55b15290fb5d
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