Investigating flood risk in an ungauged watershed using LiDAR, GIS, and HEC tools
LE3 .A278 2008
2008
Spooner, Ian Webster, Tim
Acadia University
Master of Science
Masters
Geology
Earth & Environmental Sciences
This study was initiated because there is a concern over the predication and recurrence of significant flooding in the town of Oxford, Nova Scotia. The Oxford watershed is ungauged and modelling parameters required for HEC-HMS were derived based on the analogous, gauged, River John watershed. Voronoi polygons were used to distribute precipitation within the watersheds and Soil Conservation Society curve numbers were calculated using LandSat ETM+ imagery and soil drainage data. Base flow was calculated using a ratio to peak of 0.11 and recession constant of 0.87. The constant rate of infiltration is 0.074m/hr. Recurrence intervals calculated for the Oxford watershed show that the September 1999 flood was a 1 in 23 year event and that 10, 25 and 100 year floods have flows of 156 m3/s, 197 m3/s and 258 m3/s respectively. Inundation was mapped for these events using HEC-RAS. New and repeatable techniques for simulating flooding events in rural Nova Scotia were developed by using LiDAR intensity and height data as an indicator of friction and selecting and analogous basin for use in the HEC-HMS modelling system. Sensitivity analysis shows that SCS curve number is by far the most important factor in watershed modelling and variations by 10% result in changes of recurrence interval peak flows of between 8% and 10%.
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https://scholar.acadiau.ca/islandora/object/theses:2999