Acta Scientiarum Polonorum
seria Formatio Circumiectus – Kształtowanie Środowiska
PRACA ORYGINALNA
Influence of geometric domain on hydrodynamic modeling at estuary boundaries
1
Engineering and Architecture División, Juarez Autonomous University of Tabasco, Tabasco, Mexico
2
Basic Sciences Division, Juarez Autonomous University of Tabasco, Tabasco, Mexico
3
Institute of Engineering, National Autonomous University of Mexico, Coyoacan, Mexico
Data nadesłania: 07-10-2024
Data ostatniej rewizji: 05-12-2024
Data akceptacji: 06-12-2024
Data publikacji: 17-02-2025
Autor do korespondencji
Fabian Rivera-Trejo
Engineering and Architecture División, Juarez Autonomous University of Tabasco, Tabasco, Mexico
Engineering and Architecture División, Juarez Autonomous University of Tabasco, Tabasco, Mexico
Acta Sci. Pol. Formatio Circumiectus 2024;23(4):99-111
SŁOWA KLUCZOWE
DZIEDZINY
STRESZCZENIE
Aim of the study:
Numerical modeling of estuaries is a complex task due to the effect of the tide and its interaction between the estuary outlet and the sea. Therefore, the following question arises: Does the length and shape of the geometric domain at the downstream boundary of an estuary (interaction lagoon-mar) affect its hydrodynamic modeling?
Material and methods:
Two-dimensional (2D) numerical simulations were performed using HEC-RAS V6.3.1. Input data included a high-resolution digital model, a bathymetric survey of the study area, tidal data, and a field measurement campaign. Five geometric domains were tested as downstream boundary conditions: rectangular; large semi-circular; medium semi-circular; small semi-circular; and a cross-section. Additionally, two types (versions) of the solution equations were tested: simplified, considering only the diffusion terms, and with the full equations.
Results and conclusions:
Two profiles were selected to analyze the results: longitudinal and transversal over the estuary outlet (lagoon-sea interconnection channel). The water surface levels, hydraulic slope, and velocities were compared. We found little significant difference in the offshore-dominated conditions but a considerable difference in the cross-sectional condition. Also, as expected, significant differences were found when using the full versus simplified equations.
Numerical modeling of estuaries is a complex task due to the effect of the tide and its interaction between the estuary outlet and the sea. Therefore, the following question arises: Does the length and shape of the geometric domain at the downstream boundary of an estuary (interaction lagoon-mar) affect its hydrodynamic modeling?
Material and methods:
Two-dimensional (2D) numerical simulations were performed using HEC-RAS V6.3.1. Input data included a high-resolution digital model, a bathymetric survey of the study area, tidal data, and a field measurement campaign. Five geometric domains were tested as downstream boundary conditions: rectangular; large semi-circular; medium semi-circular; small semi-circular; and a cross-section. Additionally, two types (versions) of the solution equations were tested: simplified, considering only the diffusion terms, and with the full equations.
Results and conclusions:
Two profiles were selected to analyze the results: longitudinal and transversal over the estuary outlet (lagoon-sea interconnection channel). The water surface levels, hydraulic slope, and velocities were compared. We found little significant difference in the offshore-dominated conditions but a considerable difference in the cross-sectional condition. Also, as expected, significant differences were found when using the full versus simplified equations.
| ISSN: | 1644-0765 |
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