Transforming Urban Resilience: Innovative Approaches to Stormwater Management


Authors : Munish Kumar; Raj Kumar Verma; Abhay Sharma

Volume/Issue : Volume 9 - 2024, Issue 6 - June


Google Scholar : https://tinyurl.com/4d4nppp7

Scribd : https://tinyurl.com/5bhfhych

DOI : https://doi.org/10.38124/ijisrt/IJISRT24JUN1634

Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.


Abstract : Metropolitan storm water for executive is a major problem aggravate by fast urbanization and environmental change. Conservative strategies usually miss the mark in care for to the expanded volume and infection of storm water spillover; require imaginative answers to upgrade urban strength. The assess digs into green framework stipulation, like green rooftops, porous asphalts, and bioswales, which duplicate regular cycles to ingest and channel storm water. additionally, it analyzes progressed representative procedures and savvy advancements, including incessant observing frameworks and prophetic assessment, which streamline storm water framework execution. Through a combine of related analyses and exploration discoveries, the paper evaluates the financial and ecological reward of these imaginative works by feature their part in decreasing flood chances, more developing water quality, and improving urban green spaces. By giving a far successsketch of cutting edge storm water the board rehearses, this paper expects to light upthe policymakers, urbanplanner, and civil engineer about powerful systems for building stronger and reasonable urban conditions.

Keywords : Storm Water; Bioswales; Financial; Frameworks; Ecological; Green Spaces; Spillover; Flood; Urbanization; Environmental.

References :

  1. Abdellatif, M., Atherton, W., Alkhaddar, R., & Osman, Y. (2015). Flood risk assessment for urban water system in a changing climate using artificial neural network. Natural Hazards, 79(2), 1059–1077.https://doi.org/10.1007/s11069-015-1892-6.
  2. Atmojo, P. S., &Sachro, S. S. (2017). Disaster Management: Selections of Evacuation Routes Due to Flood Disaster. In Procedia Engineering (Vol. 171, pp.14781485).https://doi.org/10.1016/j.proeng.2017.01.475
  3. Bakri, A.D., Rahman, S., and Bowling, L. (2008). Sources and management of urbanstormwater pollution in      rural catchments, Australia. Journal of Hydrology 299–311.
  4. Martin, C., Ruperd,Y., and Legret, M. (2007). Urban stormwater drainage management:The development of a multicriteria decision aid approach for best management prac-tices. European Journal of Operational Research 181.
  5. McGuckin, C.P. and Brown, R.D. (1995). A landscape ecological model for wildlifeenhancement of stormwater management practices in urban greenways. Landscape andUrban Planning 33.
  6. Gilbert, J.K. and Clausen, J.C. (2006). Stormwater runoff quality and quantity fromasphalt paver and crush stone driveway in Connecticut. Water Research 40.
  7. Research & Development studies on impact of urbanization, ground water quality, pollution and management of groundwater in Hussainsagar micro-basin, Musi sub-basin of Krishna river basin; September 2013, Purpose driven study, Hydrology Project II, 2013.
  8. Jasrotia, A.S., Majhi, A., Singh, S., 2009. Water Balance Approach for Rainwater Harvesting using Remote Sensing and GIS Techniques, Jammu Himalaya, India. Water Resour. Manag. 23, 3035–3055.doi:10.1007/s11269-009-9422-5.
  9. Sharma, D. (2008). Sustainable Drainage System (SuDs) for Stormwater Management : A Technological and Policy Intervention to Combat Diffuse Pollution. 11th International Conference on Urban Drainage, Edinburgh, Scotland, UK, 2008, 1–10.
  10. Shiau, J. T., Chen, C. N., & Tsai, C. T. (2012). Physiographic Drainage- Inundation Model Based Flooding Vulnerability Assessment. Water Resources Management,26(5),1307–1323. https://doi.org/10.1007/s11269-011-9960-5.
  11. Sundara Kumar, P., Santhi, T., ManojSrivatsav, P., Sreekanth Reddy, S. V., Anjaneya Prasad, M., & Praveen, T. V. (2015). Storm water drainage design (Case study Vijayawada). International Journal of Earth Sciences and Engineering, 8(2), 507–511.
  12. TahmasebiBirgani, Y., &Yazdandoost, F. (2014). A framework for evaluating the persistence of urban drainage risk management systems. Journal of Hydro-Environment Research, 8(4), 330–342.https://doi.org/10.1016/j.jher.2014.04.004
  13. Torgersen, G., Bjerkholt, J. T., &Lindholm, O. G. (2014). Addressing flooding and SuDS when improving drainage and sewerage systems-Acomparative study of selected Scandinavian cities.Water (Switzerland),6(4),839–857. https://doi.org/10.3390/w6040839.
  14. UNISDR. (2002). Guidelines for Reducing Flood Losses. United Nations -Headquarters (UN), Available on-Line at:Https://Www.Unisdr.Org/We/Inform/Publications/558, 79
  15. Wei, C. C., Hsu, N. S., & Huang, C. L. (2014). Two-Stage Pumping ControlModel for Flood Mitigation in Inundated Urban Drainage Basins.Water Resources Management, 28(2), 425–444.https://doi.org/10.1007/s11269-013-0491-0.
  16. Zhou, Q. (2014). A Review of Sustainable Urban Drainage SystemsConsidering the Climate Change and Urbanization Impacts. Water.6(4), 976–992. https://doi.org/10.3390/w6040976
  17. Zhou, W. (2007). Drainage and flooding in karst terranes. Environmental Geology, 51(6), 963–973. https://doi.org/10.1007/s00254-006-0365-3
  18. Ahern, J., 2013. Urban landscape sustainability and resilience: the promise and challenges of integrating ecology with urban planning and design. Landscape Ecology, 28 (6), 1203–1212.

Metropolitan storm water for executive is a major problem aggravate by fast urbanization and environmental change. Conservative strategies usually miss the mark in care for to the expanded volume and infection of storm water spillover; require imaginative answers to upgrade urban strength. The assess digs into green framework stipulation, like green rooftops, porous asphalts, and bioswales, which duplicate regular cycles to ingest and channel storm water. additionally, it analyzes progressed representative procedures and savvy advancements, including incessant observing frameworks and prophetic assessment, which streamline storm water framework execution. Through a combine of related analyses and exploration discoveries, the paper evaluates the financial and ecological reward of these imaginative works by feature their part in decreasing flood chances, more developing water quality, and improving urban green spaces. By giving a far successsketch of cutting edge storm water the board rehearses, this paper expects to light upthe policymakers, urbanplanner, and civil engineer about powerful systems for building stronger and reasonable urban conditions.

Keywords : Storm Water; Bioswales; Financial; Frameworks; Ecological; Green Spaces; Spillover; Flood; Urbanization; Environmental.

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