Hydrodynamic system behaviour: Its analysis and implications for flood risk management

Karin M. De Bruijn; Ferdinand L.M. Diermanse; Marcel Van Der Doef; Frans Klijn

doi:10.1051/e3sconf/20160711001

Hydrodynamic system behaviour: Its analysis and implications for flood risk management

Karin M. De Bruijn^*, Ferdinand L.M. Diermanse, Marcel Van Der Doef, Frans Klijn

^*Corresponding author for this work

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Abstract

Knowledge on the different components of flood risk has much improved over the last decades, but research which fully takes into account not only the interactions between those components but also between different areas in a catchment or delta is still rare. Integrated analyses based on a complete system's approach at sufficiently large scale will improve our understanding of how flood risk systems with flood protection infrastructure in place behave under extreme conditions, it may help to develop sensible long-term strategies, and allows us to better prepare for flood events of all magnitudes. To illustrate the relevance of a hydrodynamic system's approach for flood risk management we analyse the effect of defence breaches on flood risks elsewhere along the lower Rhine River and discuss the use of this knowledge for flood risk management.

Original language	English
Article number	11001
Journal	E3S Web of Conferences
Volume	7
DOIs	https://doi.org/10.1051/e3sconf/20160711001
Publication status	Published - 2016
Event	3rd European Conference on Flood Risk Management, FLOODrisk 2016 - Lyon Convention Centre, Lyon, France Duration: 17 Oct 2016 → 21 Oct 2016 Conference number: 3 http://floodrisk2016.net/

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title = "Hydrodynamic system behaviour: Its analysis and implications for flood risk management",

abstract = "Knowledge on the different components of flood risk has much improved over the last decades, but research which fully takes into account not only the interactions between those components but also between different areas in a catchment or delta is still rare. Integrated analyses based on a complete system's approach at sufficiently large scale will improve our understanding of how flood risk systems with flood protection infrastructure in place behave under extreme conditions, it may help to develop sensible long-term strategies, and allows us to better prepare for flood events of all magnitudes. To illustrate the relevance of a hydrodynamic system's approach for flood risk management we analyse the effect of defence breaches on flood risks elsewhere along the lower Rhine River and discuss the use of this knowledge for flood risk management.",

author = "{De Bruijn}, {Karin M.} and Diermanse, {Ferdinand L.M.} and {Van Der Doef}, Marcel and Frans Klijn",

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AU - De Bruijn, Karin M.

AU - Diermanse, Ferdinand L.M.

AU - Van Der Doef, Marcel

AU - Klijn, Frans

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N2 - Knowledge on the different components of flood risk has much improved over the last decades, but research which fully takes into account not only the interactions between those components but also between different areas in a catchment or delta is still rare. Integrated analyses based on a complete system's approach at sufficiently large scale will improve our understanding of how flood risk systems with flood protection infrastructure in place behave under extreme conditions, it may help to develop sensible long-term strategies, and allows us to better prepare for flood events of all magnitudes. To illustrate the relevance of a hydrodynamic system's approach for flood risk management we analyse the effect of defence breaches on flood risks elsewhere along the lower Rhine River and discuss the use of this knowledge for flood risk management.

AB - Knowledge on the different components of flood risk has much improved over the last decades, but research which fully takes into account not only the interactions between those components but also between different areas in a catchment or delta is still rare. Integrated analyses based on a complete system's approach at sufficiently large scale will improve our understanding of how flood risk systems with flood protection infrastructure in place behave under extreme conditions, it may help to develop sensible long-term strategies, and allows us to better prepare for flood events of all magnitudes. To illustrate the relevance of a hydrodynamic system's approach for flood risk management we analyse the effect of defence breaches on flood risks elsewhere along the lower Rhine River and discuss the use of this knowledge for flood risk management.

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DO - 10.1051/e3sconf/20160711001

M3 - Conference article

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JO - E3S Web of Conferences

JF - E3S Web of Conferences

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Y2 - 17 October 2016 through 21 October 2016

ER -

Hydrodynamic system behaviour: Its analysis and implications for flood risk management

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