Uncertainty Analysis in Real-Time Flood Forecasting; a Case Study of Dender River Flooding,
November – 2010, Belgium.
Presented byMd. Ariful islam
Date: September 21, 2018
SWAT International Conference 2018
ContentIntroduction
- General
- Study Area
- Objectives
- Dender River Flood November, 2010
Literature Review
Materials and Methodology
Results and discussions
Conclusions
Recommendations
Introduction Flood is the most devastating natural hazard
It Causes of human sufferings and losses of properties
Flood is an uncertain phenomenon,
Flood forecasting model has involved different uncertainties
(Input, Model parameters and structures)
Uncertainty due to forecasted rainfall is the main issue
Analysis of total uncertainty and part of uncertainty due to
forecasted rainfall is the main thesis question
Study Area Is a tributary basin of the international Schelde (Escaut) basin
Located at a mid distance between Brussels and Gent.
The total area of the Dender basin is 1384 km², only the
Flemish part (708 km²) is considered in this thesis.
Very flat in northern part, steep slope (up to 20%) in southern
part
The dominant Soil type is loam.
Topography is varying between 3 m to 112 m
Objectives
To analyze the uncertainties of real-time flood forecasting at Dender river basin
To analyze the part of total uncertainty due to uncertainty of forecasted rainfall in the same area
To use some statistical performance indices
To represent and communicate above uncertainties to water managers for application in flood forecasting model
Dender River Flood November, 2010
Due to the heavy rainfall, the river Dender had been floodedquite heavily.
Reached 46 cm above alarm level on Sunday, November 14,2010.
The river was burst its banks at several locations and over200 houses were evacuated.
The flow of water was estimated to be five times higher thannormal
Four death have been attributed to the flooding
Literature review Uncertainty is an expression of some information deficiency
The sources of uncertainties are model, input, parameters and natural & operational uncertainty.
Impact of these uncertainties on the forecast will depend on the lead time needed and the response time of the river
Rainfall uncertainty is the main concern to analyze the totaluncertainty
MIKE 11 hydrodynamic model is used, developed by DHI(Based on Saint Venant equations)
Materials and methodologyMaterials;
Water level data from the station of Overboelare for themonth of November, 2010 and January, 2011 (15 min
resolution)
Rainfall data from the stations of Ukkel, Dender belle andElst
An existing MIKE 11 (HD) model is used with forecastedand observed rainfall
MIKE 11 simulated results have been used (November2010 and January 2011).
Methodology
Methodology cont… Model simulations (November 2010 and January 2011)
- Observed and forecasted rainfall- Water level measuring station of Overboelare- Rainfall from the stations of Ukkel, Dender belle and Elst- Four days (2 days forecast and 2 days hindcast)
Calculation of Percentile of the Residuals- Residuals (Hsim-Hobs)- 100*)/)5.0( nip −=
Methodology cont… 95% confidence interval of residuals
- Different water levels (interval 0.5m)- Difference between 97.5% and 2.5% percentile
Percentile residuals (Hsim-Hobs) for the simulations ofobserved rainfall and forecasted rainfall
Cumulative catchment rainfall- For catchments no 400 and 430- For forecasted period
Confidence interval and bias correction with water level- Water level for January, 2011
Results and discussions2.5% percentile for observed rainfall at 16.5 to 17.0m WL
Hsim (m)
Time horizon (hrs)
1 2 3 4 5 6 7 8 9
0 - 3 3 - 9 9 - 15 15 - 21 21 - 27 27 - 33 33 - 39 39 - 45 45 - 48
16.5-17.0 -1.48 -1.40 -0.27 -0.33 -0.34 -0.84 -0.28 -0.33 -0.33
17.0-17.5 -0.16 -1.09 -0.96 -0.91 -0.89 -0.18 -0.06 0.08 0.04
17.5-18.0 0.17 0.35 0.15 0.32 18.0-18.5 0.20 0.13 0.11 -0.07 -0.19 -0.37 -0.42
18.5-19.0 0.51 0.15 0.02 -0.07 -0.09 0.67 0.73 0.57 0.58
19.0-19.5 0.93 0.69 0.46 0.90 0.61 0.61 19.5-20.0 1.25 1.12 0.92 0.99 20.0-20.5 1.39 1.67 1.57
Results and discussions cont..Comparison of percentile and residual in different water level
Results and discussions cont…Comparison of 95% confidence interval
Results and discussions cont…Comparison of percentile residuals (Hsim-Hobs)
Results and discussions cont..Comparison of cumulative catchment rainfall
Results and discussions cont…Comparison of width of confidence interval with
water level of January, 2011
Conclusions Total uncertainty and part of uncertainty due to forecasted
rainfall have been analyzed
Uncertainty is increasing with the increase of forecasted lead
time
Higher water level shows higher uncertainty
Uncertainty due to forecasted rainfall is significant
Communication to the water managers with uncertainty was not
enough (only graphical presentation)
Conclusions cont.. Some statistical analysis tools (WETSPRO, ECQ) are not
performed due to time series with one peak
Flood forecasting model had the uncertainty from different
sources but main uncertainty was rainfall forecast.
Perfect precipitation forecasting is the precondition for accurate
flood forecasting.
Recommendations Uncertainty analysis has been performed for considering
water level only it is necessary to consider discharge also. Uncertainty due to rainfall forecast has only been analyzed,
other sources of uncertainty in the HD model need toanalyze for further improvement of the flood forecastingsystem.
For better statistical analysis (WETSRPO, ECQ) need toconsider long time series
For further studies water level and rainfall data may beconsidered from more stations
It is needed to consider other HD model for bettercomparison
Communication to the water managers with uncertaintyanalysis need to be extended largely
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Thank you for your attention
Uncertainty Analysis in Real-Time Flood Forecasting; a Case Study of Dender River Flooding, November – 2010, Belgium.Content�Introduction�Study AreaObjectivesDender River Flood November, 2010Literature reviewMaterials and methodologyMethodology�Methodology cont…�Methodology cont…Results and discussionsResults and discussions cont..Results and discussions cont…Results and discussions cont…Results and discussions cont..Results and discussions cont…ConclusionsConclusions cont..RecommendationsThank you �for your attention