%0 Generic %A Ylla Arbos, Claudia %D 2023 %T Schematized model of the lower Rhine River (2000-2100) - input and results %U https://data.4tu.nl/articles/software/_/21763112 %R 10.4121/21763112.v1 %K morphodynamic model %K river engineering %K climate change %K bed elevation %K bed surface grain size %K channel response %K human intervention %X <p>Input files and model results for a schematized morphodynamic model of channel response of the lower Rhine River to climate change and human intervention. </p><p><br></p><p>These model files are related to the manuscript <em>Centennial Channel Response to Climate Change in an Engineered River</em>. </p><p><br></p><p>Input files (for modeling tool SOBEK-RE) include:</p><p>- cross-section data, with main channel and floodplain width at each cross section (cross-sections.txt)</p><p>- initial mean bed elevation (bedlevel_ini.txt)</p><p>- initial bed surface and substrate composition per fraction (gs_ini.txt)</p><p>- boundary conditions for the reference case and (climate) scenarios: upstream water discharge, upstream sediment flux, downstream water level (#scenario#_QKoln.txt, #scenario#_BaseLevel.txt, #scenario#_SedFlux.txt)</p><p><br></p><p>Model results (ModelRuns_2050-2100.xlsx) include for the reference case and climate scenarios: </p><p>- Main channel bed elevation at 2050 and 2100 </p><p>- Geometric mean grain size at 2050 and 2100 </p><p><br></p><p>In addition, the field data collected by Rijkswaterstaat on bed surface grain size in the Dutch Rhine in 2020 is also included (grainsize_field_DutchRhine.xlsx). These data has been used as information to derive the model input grain size fraction content.</p><p><br></p> %I 4TU.ResearchData