Saved in:
Bibliographic Details
Main Authors: Franze, Sarah, Mariegaard, Jesper Sandvig
Format: Recurso digital
Language:English
Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.18323823
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866901809614815232
author Franze, Sarah
Mariegaard, Jesper Sandvig
author_facet Franze, Sarah
Mariegaard, Jesper Sandvig
contents <div><strong>MIKE SHE</strong> is an integrated hydrological modeling system that emerged in the 1980s to represent the physical processes of water flow through the hydrological cycle in a modular way and with relevant scale. The available process modules - evapotranspiration, overland flow, unsaturated zone flow, groundwater flow, channel flow - are each governed by their relevant partial differential equations describing the movement of water through their system. This repository contains an example model setup, inputs, outputs and observation data for a MIKE SHE Integrated Hydrological Model of the Skjern River catchment located on the west coast of Jutland, Denmark. This model is a subset of the DK-model developed by <strong>GEUS </strong>(see <a href="https://www.geus.dk/vandressourcer/vandets-kredsloeb/den-nationale-hydrologiske-model">DK-model</a>).</div> <div> </div> <div>This dataset is part of the <strong>WaterBench </strong>series by DHI, supporting open research on water-related challenges. It is intended for <strong>educational and research purposes only</strong>, such as model validation, parameter calibration, and machine learning applications. The model resolution has been reduced from 100m to 500m grid cells compared to the DK-model and is <strong>uncalibrated</strong>. The performance shown here does <strong>not </strong>reflect that of DHI's high-resolution models. <strong>Results must not be used for decision-making.</strong></div> <div> </div> <div>Files:</div> <div> <ul> <li><strong>README:</strong> Description of dataset with details on citations, data processing, and background information.</li> <li><strong>WaterBench-MIKESHE-SKjern.zip</strong>: model setup, input data, observational data, and code for data exploration and model validation.</li> <li><strong>Waterbench-MIKESHE-SKjern-output.zip</strong>: result files (Actual evapotranspiration, head elevation in saturated zone, groundwater flow, etc.) for 20 years of simulation.</li> </ul> </div>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_18323823
institution Zenodo
language eng
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle Integrated Hydrological Model of Skjern Å catchment: MIKE SHE model setup, inputs, outputs and observation data
Franze, Sarah
Mariegaard, Jesper Sandvig
<div><strong>MIKE SHE</strong> is an integrated hydrological modeling system that emerged in the 1980s to represent the physical processes of water flow through the hydrological cycle in a modular way and with relevant scale. The available process modules - evapotranspiration, overland flow, unsaturated zone flow, groundwater flow, channel flow - are each governed by their relevant partial differential equations describing the movement of water through their system. This repository contains an example model setup, inputs, outputs and observation data for a MIKE SHE Integrated Hydrological Model of the Skjern River catchment located on the west coast of Jutland, Denmark. This model is a subset of the DK-model developed by <strong>GEUS </strong>(see <a href="https://www.geus.dk/vandressourcer/vandets-kredsloeb/den-nationale-hydrologiske-model">DK-model</a>).</div> <div> </div> <div>This dataset is part of the <strong>WaterBench </strong>series by DHI, supporting open research on water-related challenges. It is intended for <strong>educational and research purposes only</strong>, such as model validation, parameter calibration, and machine learning applications. The model resolution has been reduced from 100m to 500m grid cells compared to the DK-model and is <strong>uncalibrated</strong>. The performance shown here does <strong>not </strong>reflect that of DHI's high-resolution models. <strong>Results must not be used for decision-making.</strong></div> <div> </div> <div>Files:</div> <div> <ul> <li><strong>README:</strong> Description of dataset with details on citations, data processing, and background information.</li> <li><strong>WaterBench-MIKESHE-SKjern.zip</strong>: model setup, input data, observational data, and code for data exploration and model validation.</li> <li><strong>Waterbench-MIKESHE-SKjern-output.zip</strong>: result files (Actual evapotranspiration, head elevation in saturated zone, groundwater flow, etc.) for 20 years of simulation.</li> </ul> </div>
title Integrated Hydrological Model of Skjern Å catchment: MIKE SHE model setup, inputs, outputs and observation data
url https://doi.org/10.5281/zenodo.18323823