Description
AeoLiS is a process-based model for simulating aeolian sediment transport in situations where supply-limiting factors are important, like in coastal environments. Supply-limitations currently supported are soil moisture contents, sediment sorting and armouring, bed slope effects, air humidity and roughness elements.
The maintenance and development is done by the AEOLIS developer team: Current members are: Bart van Westen at Deltares, Nick Cohn at U.S. Army Engineer Research and Development Center (ERDC), Sierd de Vries (founder) at Delft University of Technology, Christa van IJzendoorn at Delft University of Technology, Caroline Hallin at Delft University of Technology, Glenn Strypsteen at Katholieke Universiteit Leuven and Janelle Skaden at U.S. Army Engineer Research and Development Center (ERDC).
Previous members are: Bas Hoonhout (founder), Tom Pak, Pieter Rauwoens and Lisa Meijer
During a paper revision, a change was made to the transport.py file. This change is not included in the original AeoLiS v2.1.0 version (.tar.gz-file). Therefore, we have added a separate transport.py file that contains a, newly implemented, grain-size dependent Bagnold equation. This change will be included in future versions of AeoLis.
The maintenance and development is done by the AEOLIS developer team: Current members are: Bart van Westen at Deltares, Nick Cohn at U.S. Army Engineer Research and Development Center (ERDC), Sierd de Vries (founder) at Delft University of Technology, Christa van IJzendoorn at Delft University of Technology, Caroline Hallin at Delft University of Technology, Glenn Strypsteen at Katholieke Universiteit Leuven and Janelle Skaden at U.S. Army Engineer Research and Development Center (ERDC).
Previous members are: Bas Hoonhout (founder), Tom Pak, Pieter Rauwoens and Lisa Meijer
During a paper revision, a change was made to the transport.py file. This change is not included in the original AeoLiS v2.1.0 version (.tar.gz-file). Therefore, we have added a separate transport.py file that contains a, newly implemented, grain-size dependent Bagnold equation. This change will be included in future versions of AeoLis.
| Date made available | 3 Aug 2023 |
|---|---|
| Publisher | TU Delft - 4TU.ResearchData |
| Date of data production | 2023 |
Software license
- GPLv3
Datasets
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Data and scripts underlying the publication: AeoLiS: Numerical modelling of coastal dunes and aeolian landform development for real-world applicationsc
van Westen, B. (Creator), de Vries, S. (Creator), Cohn, N. (Creator), van IJzendoorn, C. (Creator), Strypsteen, G. (Creator) & Hallin, E. C. (Creator), TU Delft - 4TU.ResearchData, 2025
DOI: 10.4121/06DD1E90-281F-4735-9B13-50582C301822
Dataset/Software: Dataset
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Connecting Coastal Domains in Morphodynamic Modelling
van Westen, B., 2025, 193 p.Research output: Thesis › Dissertation (TU Delft)
Open AccessFile135 Downloads (Pure) -
AeoLiS: Numerical modelling of coastal dunes and aeolian landform development for real-world applications
van Westen, B., de Vries, S., Cohn, N., van IJzendoorn, C., Strypsteen, G. & Hallin, C., 2024, In: Environmental Modelling and Software. 179, 19 p., 106093.Research output: Contribution to journal › Article › Scientific › peer-review
Open AccessFile14 Link opens in a new tab Citations (Scopus)226 Downloads (Pure)
Cite this
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