Rapid Monitoring of River Hydrodynamics and Morphology using Acoustic Holography
Lead Research Organisation:
UNIVERSITY COLLEGE LONDON
Department Name: Civil Environmental and Geomatic Eng
Abstract
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Organisations
Publications
Xie Z
(2020)
A Cartesian cut-cell based multiphase flow model for large-eddy simulation of three-dimensional wave-structure interaction
in Computers & Fluids
Xie Z
(2022)
A conservative and consistent implicit Cartesian cut-cell method for moving geometries with reduced spurious pressure oscillations
in Journal of Computational Physics
Xie Z
(2020)
A control volume finite element method for three-dimensional three-phase flows
in International Journal for Numerical Methods in Fluids
Xie Z
(2020)
A three-dimensional Cartesian cut-cell/volume-of-fluid method for two-phase flows with moving bodies
in Journal of Computational Physics
Xie Z
(2022)
Eulerian and Lagrangian transport by shallow-water breaking waves
in Physics of Fluids
Jalalabadi R
(2021)
Free surface flow over square bars at different Reynolds numbers
in Journal of Hydro-environment Research
Luo Q
(2023)
Hydrodynamics and turbulence of free-surface flow over a backward-facing step
in Journal of Hydraulic Research
Jalalabadi R
(2023)
Large-eddy simulation of free-surface turbulent channel flow over square bars
in International Journal of Heat and Fluid Flow
Xie Z
(2021)
Large-eddy simulation of turbulent free surface flow over a gravel bed
in Journal of Hydraulic Research
Xie Z
(2021)
Numerical Investigation of Steep Focused Wave Interaction with a Vertical Cylinder Using a Cartesian Cut-cell Method
in International Journal of Offshore and Polar Engineering
| Description | Numerical simulations of turbulent flow over topographic roughness showed significant correlation between the turbulence structure and the water surface deformation. As a result of flow separation near the channel bed water surface waves occur and the wave frequency matches the frequency of the vortex shedding process of flow separation. As a secondary process, the small-scale turbulence of the flow deforms the water surface in more random patters. |
| Exploitation Route | These results can be taken forward to design river monitoring equipment that would record and quantify surface waves, which can provide detailed information of the type of roughness that is found near the bed and can eventually lead to better flow monitoring. |
| Sectors | Environment |
| Title | Research Code Enhancements |
| Description | The open-source code Hydro3D, based on the method of large-eddy simulation, was enahnced by a free-surface algorithm which was validated and applied to open-channel flow over a backward facing step. A Journal of Fluid Mechanics and a Journal of Hydraulic research paper document this development. |
| Type Of Material | Improvements to research infrastructure |
| Year Produced | 2021 |
| Provided To Others? | No |
| Impact | Several journal publications have resulted from this development. |
| Title | Level Set Method |
| Description | As describd in the Research Environment section, the open source code Hydro3D was enhanced with a Level Set Method algorithm. This method is now standard for all our open-channel flow simulations. |
| Type Of Technology | New/Improved Technique/Technology |
| Year Produced | 2021 |
| Impact | The new method resulted in a couple of fundamental research papers and will be used in future research. |