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Volume 27 Issue 1
Feb 2016
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Journal of Earth Science  > 2016  >  27(1): 55-67.
Saskia van Vuren, Huib de Vriend, Hermjan Barneveld. A stochastic model approach for optimisation of lowland river restoration works. Journal of Earth Science, 2016, 27(1): 55-67. doi: 10.1007/s12583-016-0629-0
Citation: Saskia van Vuren, Huib de Vriend, Hermjan Barneveld. A stochastic model approach for optimisation of lowland river restoration works. Journal of Earth Science, 2016, 27(1): 55-67. doi: 10.1007/s12583-016-0629-0
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A stochastic model approach for optimisation of lowland river restoration works

doi: 10.1007/s12583-016-0629-0
  • 1.

    Section of Hydraulic Engineering, Delft University of Technology, 2600, AA, Delft, Netherlands

  • 2.

    HKV Consultants, Lelystad, Netherlands

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  • Corresponding author: Saskia van Vuren, s.vanvuren@hkv.nl
  • Received Date: 01 Aug 2014
  • Accepted Date: 19 Nov 2014
  • Publish Date: 01 Feb 2016
    Abstract
  • Over the course of centuries, river systems have been heavily trained for the purpose of safe discharge of water, sediment and ice, and improves navigation. Traditionally, dikes are used to be reinforced and heightened to protect countries from ever higher flood levels. Other types of solutions than technical engineering solutions, such as measures to increase the flood conveyance capacity (e.g., lowering of groynes and floodplains, setting back dikes) become more popular. These solutions may however increase the river bed dynamics and thus impact negatively navigation, maintenance dredging and flood safety. A variety of numerical models are available to predict the impact of river restoration works on river processes. Often little attention is paid to the assessment of uncertainties. In this paper, we show how we can make uncertainty explicit using a stochastic approach. This approach helps identifying uncertainty sources and assessing their contribution to the overall uncertainty in river processes. The approach gives engineers a better understanding of system behaviour and enables them to intervene with the river system, so as to avoid undesired situations. We illustrate the merits of this stochastic approach for optimising lowland river restoration works in the Rhine in the Netherlands.

     

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