%0 Journal Article %T Implementation of Remote Sensing and GIS Techniques to Study the Flash Flood Risk at NEOM Mega-City, Saudi Arabia %A Ahmed A. Abdulalim %A Tarek A. El Damaty %J Advances in Remote Sensing %P 121-157 %@ 2169-2688 %D 2022 %I Scientific Research Publishing %R 10.4236/ars.2022.114008 %X Southern Red Sea flooding is common. Assessing flood-prone development risks helps decrease life and property threats. It tries to improve flood awareness and advocate property owner steps to lessen risk. DEMs and topography data were analyzed by RS and GIS. Fifth-through seventh-order rivers were studied. Morphometric analysis assessed the area¡¯s flash flood danger. NEOM has 14 catchments. We determined each catchment¡¯s area, perimeter, maximum length, total stream length, minimum and maximum elevations. It also uses remote sensing. It classifies Landsat 8 photos for land use and cover maps. Image categorization involves high-quality Landsat satellite images and secondary data, plus user experience and knowledge. This study used the wetness index, elevation, slope, stream power index, topographic roughness index, normalized difference vegetation index, sediment transport index, stream order, flow accumulation, and geological formation. Analytic hierarchy considered all earlier criteria (AHP). The geometric consistency index GCI (0.15) and the consistency ratio CR (4.3%) are calculated. The study showed five degrees of flooding risk for Wadi Zawhi and four for Wadi Surr, from very high to very low. 9.16% of Wadi Surr is vulnerable to very high flooding, 50% to high flooding, 40% to low flooding, and 0.3% to very low flooding. Wadi Zawhi¡¯s flood risk is 0.23% high, moderate, low, or extremely low. They¡¯re in Wadi Surr and Wadi Zawhi. Flood mapping helps prepare for emergencies. Flood-prone areas should prioritize resilience. %K Geographic Information System (GIS) %K Remote Sensing %K Flash Floods Hazard Assessment %K Analytic Hierarchy Process (AHP) %K Morphometric Analysis %K Hydrology Analysis %U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=121472