Un diagramme d'influence pour l'évaluation des risques d'inondations urbaines au travers des dangers de rejet pluvial dans des conditions non-stationaires

Helena Lisa Alexandra Åström; P. Friis Hansen; L. Garré; Karsten Arnbjerg-Nielsen

Un diagramme d'influence pour l'évaluation des risques d'inondations urbaines au travers des dangers de rejet pluvial dans des conditions non-stationaires

Authors:

Åström, Helena Lisa Alexandra ;
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Department of Environmental Engineering, Technical University of Denmark
Friis Hansen, P. ;
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Det Norske Veritas
Garré, L. ;
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Det Norske Veritas
Arnbjerg-Nielsen, Karsten
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0000-0002-6221-9505
Department of Environmental Engineering, Technical University of Denmark

Abstract:

Urban flooding introduces significant risk to society. Decision-makers need to agree on how to adapt urban areas to flooding. Non-stationarity leads to increased uncertainty and this is shown to be difficult to include into actual decision-making. Transparent methods are needed to facilitate the decision-making process. The primary objective of this study was to develop a risk assessment and decision support framework for pluvial urban flood risk under non-stationary conditions using an Influence diagram (ID) which is a Bayesian network (BN) extended with decision and utility nodes. Non-stationarity is considered to be the influence of climate change where extreme precipitation patterns change over time. The overall risk is quantified in monetary terms expressed as expected annual damage (EAD). The network is dynamic inasmuch as it assesses risk at different points in time to evaluate the non-stationarity in the urban system. The framework provides means for decision-makers to assess how different decisions on flood adaptation affect the risk now and in the future. For the development of the BN we used the HUGIN software. The result from the ID was extended with a cost-benefit analysis defining the net benefits for the investment plans. We tested our framework in a case study where the risk for flooding was assessed on a railway track in Risskov (Aarhus). Drainage system improvements are planned for the area and our case study presents how the developed ID illustrates the increase in risk over time and the decrease in risk due to the planned improvement.

Type:

Conference paper

Language:

French

Keywords:

Bayesian network; Climate change; Flood risk assessment; Influence diagram

Main Research Area:

Science/technology

Review type:

Peer Review

Conference:

8th International Conference on Planning and Technologies for Sustainable Urban Water Management, 2013

Submission year:

2013

Scientific Level:

Scientific

ID:

2389461453

Un diagramme d'influence pour l'évaluation des risques d'inondations urbaines au travers des dangers de rejet pluvial dans des conditions non-stationaires

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