Peter Oberle scite author profile

Abstract. Currently, a shift from classical flood protection as engineering task towards integrated flood risk management concepts can be observed. In this context, a more consequent consideration of extreme events which exceed the design event of flood protection structures and failure scenarios such as dike breaches have to be investigated. Therefore, this study aims to enhance existing methods for hazard and risk assessment for extreme events and is divided into three parts. In the first part, a regionalization approach for flood peak discharges was further developed and substantiated, especially regarding recurrence intervals of 200 to 10 000 years and a large number of small ungauged catchments. Model comparisons show that more confidence in such flood estimates for ungauged areas and very long recurrence intervals may be given as implied by statistical analysis alone. The hydraulic simulation in the second part is oriented towards hazard mapping and risk analyses covering the whole spectrum of relevant flood events. As the hydrodynamic simulation is directly coupled with a GIS, the results can be easily processed as local inundation depths for spatial risk analyses. For this, a new GIS-based software tool was developed, being presented in the third part, which enables estimations of the direct flood damage to single buildings or areas based on different established stage-damage functions. Furthermore, a new multifactorial approach for damage estimation is presented, aiming at the improvement of damage estimation on local scale by considering factors like building quality, contamination and precautionary measures. The methods and results from this study form the base for comprehensive risk analyses and flood management strategies.

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Land use change in the Vietnamese Mekong Delta: New evidence from remote sensing

Tran

Schenk

et al. 2022

Science of The Total Environment

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Operational flood management under large-scale extreme conditions, using the example of the Middle Elbe

Kron¹,

Nestmann²,

Schlüter³

et al. 2010

Nat. Hazards Earth Syst. Sci.

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Abstract. In addition to precautionary or technical flood protection measures, short-term strategies of the operational management, i.e. the initiation and co-ordination of preventive measures during and/or before a flood event are crucially for the reduction of the flood damages. This applies especially for extreme flood events. These events are rare, but may cause a protection measure to be overtopped or even to fail and be destroyed. In such extreme cases, reliable decisions must be made and emergency measures need to be carried out to prevent even larger damages from occurring.Based on improved methods for meteorological and hydrological modelling a range of (physically based) extreme flood scenarios can be derived from historical events by modification of air temperature and humidity, shifting of weather fields and recombination of flood relevant event characteristics. By coupling the large scale models with hydraulic and geotechnical models, the whole flood-process-chain can be analysed right down to the local scale. With the developed GIS-based tools for hydraulic modelling FlowGIS and the Dike-Information-System, (IS-dikes) it is possible to quantify the endangering shortly before or even during a flood event, so the decision makers can evaluate possible options for action in operational mode.

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Adapted hydropower-driven water supply system: assessment of an underground application in an Indonesian karst area

et al. 2016

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Diskussionsbeitrag zur Fließwider-standsparametrisierung zur Simulation der Oberflächenabflüsse bei Starkregen

Oberle¹,

Kron²,

Kerlin³

et al. 2021

Wasserwirtsch

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Peter Oberle

Flood-risk mapping: contributions towards an enhanced assessment of extreme events and associated risks

Land use change in the Vietnamese Mekong Delta: New evidence from remote sensing

Operational flood management under large-scale extreme conditions, using the example of the Middle Elbe

Adapted hydropower-driven water supply system: assessment of an underground application in an Indonesian karst area

Diskussionsbeitrag zur Fließwider-standsparametrisierung zur Simulation der Oberflächenabflüsse bei Starkregen

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