Highlighting the role of the model user and physical interpretation in urban flooding simulation

Technological evolution survey allowed the broad use of 2D mathematical models for flood simulation. However, it is possible that the answer required for a given problem does not need a 2D approximation or even does not configure a 2D surface solution. Urban flood simulations may fall in this second...

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Bibliographic Details
Published in:Journal of hydroinformatics 2022-09, Vol.24 (5), p.976-991
Main Authors: de Sousa, Matheus Martins, de Oliveira, Antonio Krishnamurti Beleño, Rezende, Osvaldo Moura, de Magalhães, Paula Morais Canedo, Pitzer Jacob, Ana Caroline, de Magalhães, Paulo Canedo, Miguez, Marcelo Gomes
Format: Article
Language:English
Subjects:
Approximation
Construction
flood diagnosis
Floods
Hypotheses
Mathematical models
modcel
Optimization
quasi-2d
Simulation
Topography
Two dimensional flow
Two dimensional models
Urban areas
urban floods
Urban structures
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Summary:Technological evolution survey allowed the broad use of 2D mathematical models for flood simulation. However, it is possible that the answer required for a given problem does not need a 2D approximation or even does not configure a 2D surface solution. Urban flood simulations may fall in this second case, since urban structures may interact with flood flows and introduce discontinuities in the surface solution. This study aims to highlight the discussion about the physical interpretation and the modeller role as key elements in the interpretation and representation of physical systems. To support this proposal, the MODCEL, a Quasi-2D flow-cell model, was used in two different ways: in a detailed raster approach, similarly to usual 2D model uses; and in an alternative conceptual and interpretive way, using larger cells representing homogeneous portions of the territory. The modelling results showed that equivalent responses can be obtained. Although other models can be used and could offer different absolute results, the relative analysis offered sufficient support to the research hypothesis that a physical-based process conducted by a conscient modeller is crucial for model reliability and optimization.
ISSN:1464-7141
1465-1734
DOI:10.2166/hydro.2022.174