Aggregated morphodynamic modelling of tidal inlets and estuaries

Zhengbing  Wang; Ian Townend; Marcel Stive

doi:10.1016/j.wse.2020.03.004

Aggregated morphodynamic modelling of tidal inlets and estuaries

Zhengbing Wang, Ian Townend, Marcel Stive

Coastal Engineering

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

Aggregation is used to represent the real world in a model at an appropriate level of abstraction. We used the convection-diffusion equation to
examine the implications of aggregation progressing from a three-dimensional (3D) spatial description to a model representing a system as a
single box that exchanges sediment with the adjacent environment. We highlight how all models depend on some forms of parametric closure,
which need to be chosen to suit the scale of aggregation adopted in the model. All such models are therefore aggregated and make use of some
empirical relationships to deal with sub-scale processes. One such appropriately aggregated model, the model for the aggregated scale
morphological interaction between tidal basin and adjacent coast (ASMITA), is examined in more detail and used to illustrate the insight that this
level of aggregation can bring to a problem by considering how tidal inlets and estuaries are impacted by sea level rise.

Original language	English
Pages (from-to)	1-13
Number of pages	13
Journal	Water Science and Engineering
Volume	13
Issue number	1
DOIs	https://doi.org/10.1016/j.wse.2020.03.004
Publication status	Published - 2020

Keywords

Aggregation
Morphodynamic modelling
Sea level rise
Sediment transport
Temporal and spatial scales
Tidal inlet and estuary

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10.1016/j.wse.2020.03.004

1-s2.0-S1674237020300181-mainFinal published version, 1.31 MBLicence: CC BY-NC-ND

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AU - Stive, Marcel

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AB - Aggregation is used to represent the real world in a model at an appropriate level of abstraction. We used the convection-diffusion equation toexamine the implications of aggregation progressing from a three-dimensional (3D) spatial description to a model representing a system as asingle box that exchanges sediment with the adjacent environment. We highlight how all models depend on some forms of parametric closure,which need to be chosen to suit the scale of aggregation adopted in the model. All such models are therefore aggregated and make use of someempirical relationships to deal with sub-scale processes. One such appropriately aggregated model, the model for the aggregated scalemorphological interaction between tidal basin and adjacent coast (ASMITA), is examined in more detail and used to illustrate the insight that thislevel of aggregation can bring to a problem by considering how tidal inlets and estuaries are impacted by sea level rise.

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Aggregated morphodynamic modelling of tidal inlets and estuaries

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Keywords

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