Part of UKCEH UKCEH logo
UKCEH website
Sambrook Smith, G.H.; Hardy, R.J.; Sinha, S.

Numerical model output data on the interaction of flow with a permeable bed and biofilms

Download data Supporting docs
Cite this dataset
Download/Access
PLEASE NOTE:

By accessing or using this dataset, you agree to the terms of the relevant licence agreement(s). You will ensure that this dataset is cited in any publication that describes research in which the data have been used.

© NERC

This dataset is made available under the terms of the Open Government Licence

Download the data
Bulk download options

You can use WGET to download data. For example
wget --user=YOUR_USERNAME --password=YOUR_PASSWORD --auth-no-challenge https://catalogue.ceh.ac.uk/datastore/eidchub/a1fbdde5-688d-4b48-9293-12ecf5563704

Further information and help »

https://doi.org/10.5285/a1fbdde5-688d-4b48-9293-12ecf5563704
The data contains numerical model simulations designed to assess the influence of a) a permeable bed on flow structures above and within the pore spaces of a bed and b) a biofilm streamer on the free flow structure.

For the former the data relates to a novel Computational Fluid Dynamics (CFD) model that is able to simulate flow both in the boundary layer flow and Brinkman layer. This allows simultaneous predictions of surface and subsurface flow in one numerical scheme. The analysis is applied to undertake a numerical sensitivity experiment to assess how bed permeability influences flow over bed forms typically found in river channels e.g. dunes.

For the latter the data simulates flow around biofilm-streamers in the laminar flow regime. Numerical simulations simulate the flapping motion of a single biofilm streamer. The major thrust of the study is to investigate the impact of changing Reynolds number on hydrodynamic characteristics of the ambient flow and the frequency of biofilm oscillation.
Publication date: 2021-03-15
1 citation
35 downloads *
729 views *

More information

View numbers valid from 01 June 2023 Download numbers valid from 20 June 2024 (information prior to this was not collected)

Format

DAT

Temporal information

Temporal extent
2014-01-01    to    2017-12-29

Provenance & quality

The numerical data was generated using computational fluid dynamics software. The permeable bed data was created using Phoenics and the biofilm streamer was created using OPENFOAM

Licensing and constraints

This dataset is made available under the terms of the Open Government Licence

Cite this dataset as:
Sambrook Smith, G.H.; Hardy, R.J.; Sinha, S. (2021). Numerical model output data on the interaction of flow with a permeable bed and biofilms. NERC Environmental Information Data Centre. https://doi.org/10.5285/a1fbdde5-688d-4b48-9293-12ecf5563704

BibTeX RIS

© NERC

Citations

Sinha, S., Hardy, R.J., Blois, G., Best, J.L. & Sambrook Smith, G.H. (2017). The influence of bed permeability on the structure of turbulent flow over bedforms: a numerical investigation. Water Resources Research, 53, 3067–3086. https://doi.org/10.1002/2016WR019662

Correspondence/contact details

Sambrook Smith, G.
University of Birmingham
School of Geography, Earth and Environmental Sciences
Birmingham
B15 2TT
UK
 g.smith.4@bham.ac.uk

Authors

Sambrook Smith, G.H.
University of Birmingham
Hardy, R.J.
Durham University
ORCID iD icon https://orcid.org/0000-0003-1031-0160
Sinha, S.
University of Leeds

Other contacts

Custodian
NERC EDS Environmental Information Data Centre
 info@eidc.ac.uk
Publisher
NERC Environmental Information Data Centre
 info@eidc.ac.uk

Additional metadata

Topic categories
environment
inlandWaters
Keywords
CFD , computational fluid dynamics , dunes , Hydrology , hyporheic flow
Funding
Natural Environment Research Council Award: NE/K012819/1
Last updated
07 April 2025 13:22