Potential Flood Risk Scenario and Its Effects on Landscape Composition Using Hydraulic Modeling (HEC-RAS) in Boğaçay Sub-Basin/Türkiye DOI Creative Commons
Serdar Selim, Emine KAHRAMAN, Ceren Selim

et al.

Applied Sciences, Journal Year: 2024, Volume and Issue: 15(1), P. 219 - 219

Published: Dec. 30, 2024

Flooding, one of the most destructive and recurrent natural catastrophes, causes severe loss life property. The effect floods has increased with climate change unplanned urbanization. To prevent this devastation find solutions to potential flooding, it is important improve engineering, ecological, hydrological, hydrogeological precautions, as well flood simulations. Using hydraulic models perform simulations a common successful approach globally. In study, HEC-RAS (1D) was used simulate three different scenarios on Boğaçay sub-basin in Antalya, tourism destination Türkiye. Flood were developed based data that occurred region 2003 2006, measured flow rates 1899.9 m3/s 1450 m3/s, respectively, maximum rate (2408 m3/s) determined by relevant ministry. Then, landscape composition at scale impacts around riverbed evaluated. results analysis show water height will increase, ranging from 1.4 m 3.6 m, be significantly affected increase scenarios. Especially part where river meets sea, 580.74 ha urban settlement estimated damaged according worst-case scenario. Finally, study guide decision-makers take necessary measures under

Language: Английский

Integrating LiDAR-derived DEM, rainfall radar data, and SAR imagery for 2D HEC-RAS modelling to assess the severity of pluvial flash floods induced by Storm Boris in SE Romania DOI Creative Commons
Alin Mihu‐Pintilie, Andrei Urzică, Cristian Constantin Stoleriu

et al.

Geomatics Natural Hazards and Risk, Journal Year: 2025, Volume and Issue: 16(1)

Published: April 7, 2025

Language: Английский

Citations

0
Potential Flood Risk Scenario and Its Effects on Landscape Composition Using Hydraulic Modeling (HEC-RAS) in Boğaçay Sub-Basin/Türkiye DOI Creative Commons
Serdar Selim, Emine KAHRAMAN, Ceren Selim

et al.

Applied Sciences, Journal Year: 2024, Volume and Issue: 15(1), P. 219 - 219

Published: Dec. 30, 2024

Flooding, one of the most destructive and recurrent natural catastrophes, causes severe loss life property. The effect floods has increased with climate change unplanned urbanization. To prevent this devastation find solutions to potential flooding, it is important improve engineering, ecological, hydrological, hydrogeological precautions, as well flood simulations. Using hydraulic models perform simulations a common successful approach globally. In study, HEC-RAS (1D) was used simulate three different scenarios on Boğaçay sub-basin in Antalya, tourism destination Türkiye. Flood were developed based data that occurred region 2003 2006, measured flow rates 1899.9 m3/s 1450 m3/s, respectively, maximum rate (2408 m3/s) determined by relevant ministry. Then, landscape composition at scale impacts around riverbed evaluated. results analysis show water height will increase, ranging from 1.4 m 3.6 m, be significantly affected increase scenarios. Especially part where river meets sea, 580.74 ha urban settlement estimated damaged according worst-case scenario. Finally, study guide decision-makers take necessary measures under

Language: Английский

Citations

0