WSL/SLF GitLab Repository

Commit 90dd6c32 authored by Mathias Bavay's avatar Mathias Bavay
Browse files

Added more missing Alpine3D keys, removed/replaced deprecated ones

parent 2c52a581
......@@ -83,6 +83,18 @@ https://models.slf.ch/p/alpine3d
<section name="Input"/>
<reference name="GRID2D_IN"/>
<reference name="DEMPLUGINS"/>
<parameter key="SLOPE_ALGORITHM" type="alternative" optional="true">
<option value="HICK"/>
<option value="FLEMING"/>
<option value="CORRIPIO"/>
<option value="D8"/>
<help>How should the slopes be computed from the DEM? (see &lt;a href="https://models.slf.ch/docserver/meteoio/html/classmio_1_1DEMObject.html#a3c1b55919acd8d2177960f72f8d6224a"&gt;MeteoIO's DEM class&lt;/a&gt;, default CORRIPIO)</help>
</parameter>
<parameter key="COMPUTE_IN_LOCAL_COORDS" type="alternative" optional="true">
<option value="TRUE"/>
<option value="FALSE"/>
<help>Setup a local coordinate system to perform all computations? Default: false</help>
</parameter>
<reference name="LANDUSEPLUGINS"/>
<reference name="GLACIERS_IN"/>
<reference name="POI"/>
......
......@@ -35,9 +35,8 @@ https://models.slf.ch/p/snowpack
<option value="TRUE">
<parameter key="Terrain_Radiation_Method" type="alternative" default="SIMPLE" section="EBalance">
<reference name="TERRAIN_SIMPLE"/>
<reference name="TERRAIN_FULL"/>
<reference name="TERRAIN_HELBIG"/>
<reference name="TERRAIN_PETSC"/>
<reference name="TERRAIN_COMPLEX"/>
<help>Select how the radiation reflected by the terrain will be computed</help>
</parameter>
</option>
......@@ -51,27 +50,6 @@ https://models.slf.ch/p/snowpack
</option>
</parametergroup>
<parametergroup name="TERRAIN_FULL">
<option value="FULL">
<parameter key="itEps_SW" type="number" format="decimal" precision="2" default="0.4" min="0">
<help>stopping tolerance/iteration error for shortwave radiation (default: 0.4). Make it larger to stop the iteration earlier, i.e. less terrain reflections are included –> with 10 % (0.1) a good accuracy is obtained.</help>
</parameter>
<parameter key="itEps1_SW" type="number" format="decimal" precision="2" default="0.1" min="0">
<help>stopping tolerance/iteration error for shortwave radiation (default: 0.1). Make it lower to stop the iteration earlier, i.e. less terrain reflections are included</help>
</parameter>
<parameter key="itEps_LW" type="number" format="decimal" precision="2" default="0.1" min="0">
<help>stopping tolerance/iteration error for longwave radiation (default: 0.4). Note that two stopping critera are used</help>
</parameter>
<parameter key="sw_radius" type="number" format="integer+" default="3000" unit="m">
<help>the distance radius (in m) around each grid cell until which terrain reflection is taken into account (default: 3000)</help>
</parameter>
<parameter key="lw_radius" type="number" format="integer+" default="3000" unit="m">
<help>the distance radius (in m) around each grid cell until which longwave emission is taken into account (default: 3000)</help>
</parameter>
<help>a parallelized implementation of a radiosity algorithm, see &lt;a href="https://models.slf.ch/docserver/alpine3d/html/classTerrainRadiation.html"&gt;TerrainRadiation&lt;/a&gt;</help>
</option>
</parametergroup>
<parametergroup name="TERRAIN_HELBIG">
<option value="HELBIG">
<parameter key="itEps_SW" type="number" format="decimal" precision="2" default="0.4" min="0">
......@@ -97,36 +75,58 @@ https://models.slf.ch/p/snowpack
<option value="FALSE"/>
<help>Progressive Refinement iteration is used; but you can enable storing the view factors in memory (in case of sufficient memory capacity –> faster terrain radiation computation)</help>
</parameter>
<parameter key="WRITE_SKY_VIEW_FACTOR" type="alternative" optional="true">
<option value="TRUE">
<parameter key="VF_FILE" type="file" mode="output" optional="false">
<help>file to write the view factors to</help>
</parameter>
<parameter key="TVFAREA" type="file" mode="output" optional="false">
<help>file to write the terrain view factors to</help>
</parameter>
</option>
<option value="FALSE"/>
<help>Write the computed view factors to a file for (much) faster retrieval for new simulations (default: false)</help>
</parameter>
<parameter key="VF_FILE" type="file" mode="input" optional="true">
<help>file to read the pre-computed view factors from</help>
</parameter>
<parameter key="TVFAREA" type="file" mode="input" optional="true">
<help>file to read the pre-computed terrain view factors from</help>
</parameter>
<help>the original radiosity implementation, not parallelized, see &lt;a href="https://models.slf.ch/docserver/alpine3d/html/classTerrainRadiationHelbig.html"&gt;TerrainRadiationHelbig&lt;/a&gt;</help>
</option>
</parametergroup>
<parametergroup name="TERRAIN_PETSC">
<option value="PETSC">
<parameter key="itEps_SW" type="number" format="decimal" precision="2" default="0.4" min="0">
<help>stopping tolerance/iteration error for shortwave radiation (default: 0.4). Make it larger to stop the iteration earlier, i.e. less terrain reflections are included –> with 10 % (0.1) a good accuracy is obtained.</help>
</parameter>
<parameter key="itEps1_SW" type="number" format="decimal" precision="2" default="0.1" min="0">
<help>stopping tolerance/iteration error for shortwave radiation (default: 0.1). Make it lower to stop the iteration earlier, i.e. less terrain reflections are included</help>
</parameter>
<parameter key="itEps_LW" type="number" format="decimal" precision="2" default="0.1" min="0">
<help>stopping tolerance/iteration error for longwave radiation (default: 0.4). Note that two stopping critera are used</help>
</parameter>
<parameter key="sw_radius" type="number" format="integer+" default="3000" unit="m">
<help>the distance radius (in m) around each grid cell until which terrain reflection is taken into account (default: 3000)</help>
</parameter>
<parameter key="lw_radius" type="number" format="integer+" default="3000" unit="m">
<help>the distance radius (in m) around each grid cell until which longwave emission is taken into account (default: 3000)</help>
<parametergroup name="TERRAIN_COMPLEX">
<option value="COMPLEX">
<parameter key="COMPLEX_ANISOTROPY" type="alternative" optional="true">
<option value="TRUE"/>
<option value="FALSE"/>
<help>Whether a snow BRDF should be included. False means isotropic scattering (default: false)</help>
</parameter>
<parameter key="sub_crit" type="number" format="decimal" precision="2" default="0.4" min="0">
<help>substructuring threshold (in %) of the patches in the view factor computation (default: 0.4). Note that mccluney(1994) proposes 0.1, i.e. for accurate view factors / radiation exchange computations a threshold of least 0.1 should be used.</help>
<parameter key="COMPLEX_ANISOTROPY" type="alternative" optional="true">
<option value="TRUE"/>
<option value="FALSE"/>
<help>Whether multiple scattering in the terrain should be taken into account (default: false)</help>
</parameter>
<parameter key="COMPLEX_WRITE_VIEWLIST" type="alternative" optional="true">
<option value="TRUE">
<parameter key="COMPLEX_VIEWLISTFILE" type="file" mode="input" optional="false">
<help>file to write the view factors to</help>
</parameter>
</option>
<option value="FALSE"/>
<help>Whether the initialization stuff should be written to file (in the "ouput" sub-directory) (default: true)</help>
</parameter>
<parameter key="vf_in_ram" type="alternative" default="TRUE">
<parameter key="COMPLEX_READ_VIEWLIST" type="alternative" optional="true">
<option value="TRUE"/>
<option value="FALSE"/>
<help>Progressive Refinement iteration is used; but you can enable storing the view factors in memory (in case of sufficient memory capacity –> faster terrain radiation computation)</help>
<help>Whether an existing initialization file should be read in; bypassing the initialization (default: false)</help>
</parameter>
<parameter key="PVPFILE" type="file" mode="input" optional="true">
<help>file to define solar panels</help>
</parameter>
<help>&lt;font color='#ff0000'&gt;This method relies on special libraries and compilation flags!! Use it at your own risk!&lt;/font&gt;</help>
<help>radiative transfer of SW radiation in snow-covered terrain according to (von Rütte, F., Kahl, A., Rohrer, J., Lehning, M. &lt;i&gt;"How forward-scattering snow and terrain change the Alpine radiation balance with application to solar panels"&lt;/i&gt;, Journal of Geophysical Research: Atmospheres, 126, e2020JD034333, (2021), &lt;a href="https://doi.org/10.1029/2020JD034333"&gt;doi.org/10.1029/2020JD034333&lt;/a&gt;</help>
</option>
</parametergroup>
......
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