Applicability of a coastal morphodynamic model for fluvial environments
The dominant processes of sediment transport and morphological changes are different
between rivers and coastal areas. In many situations rivers, estuaries and coasts need to be
modelled together in an integrated way. This paper investigates the capability of a freely
available, open source, coastal morphodynamic software (XBeach) to estimate sediment
transport and morphological changes in fluvial environments. Four benchmark tests were
designed to test code performance and included simple unidirectional flow cases, complex …
between rivers and coastal areas. In many situations rivers, estuaries and coasts need to be
modelled together in an integrated way. This paper investigates the capability of a freely
available, open source, coastal morphodynamic software (XBeach) to estimate sediment
transport and morphological changes in fluvial environments. Four benchmark tests were
designed to test code performance and included simple unidirectional flow cases, complex …
Abstract
The dominant processes of sediment transport and morphological changes are different between rivers and coastal areas. In many situations rivers, estuaries and coasts need to be modelled together in an integrated way. This paper investigates the capability of a freely available, open source, coastal morphodynamic software (XBeach) to estimate sediment transport and morphological changes in fluvial environments. Four benchmark tests were designed to test code performance and included simple unidirectional flow cases, complex topography, fluvial flood flows (hydrographs) and dam break scenarios (fast transient, supercritical flow fields). The results were compared to laboratory experimental results or simulations results from industry standard software. Analysis suggested that the coastal morphodynamic code is able to simulate sediment transport and morphological changes in a fluvial environment, but there are limitations to what can be modelled and the accuracy to which they are modelled. General morphological trends are replicated reasonably well by the code however specific bed forms and rapid erosive responses are less well modelled. Suggestions are made for applicability of the code, code improvement and future work.
Elsevier
以上显示的是最相近的搜索结果。 查看全部搜索结果