{"name": "Solar Site Suitability (AHP)", "package_name": "solar_site_suitability", "description": "Multi-criteria (AHP) site suitability analysis for utility-scale solar PV farms, from DEM, manual GHI or ERA5 SSRD, and land cover. Region-agnostic.", "about": "Solar Site Suitability (AHP) identifies suitable areas for utility-scale photovoltaic solar farms using a spatial Multi-Criteria Decision Analysis based on the Analytic Hierarchy Process (AHP, Saaty 1980). Starting from a DEM, a land-cover raster, and either a manual GHI raster or ERA5 SSRD downloaded from Copernicus, it derives slope and aspect, reclassifies each criterion to a 1-5 suitability scale, combines them with AHP weights (validated by the Consistency Ratio CR < 0.10), applies boolean exclusion masks (steep slope, pole-facing aspect, protected/urban/water land cover) and extracts contiguous viable polygons above a minimum area. The tool is region-agnostic: thresholds, break values, land-cover classes, AHP weights, minimum area and the favourable orientation (hemisphere selector) are all user-defined, so it works anywhere in the world, not only in Colombia. Dependencies: standard QGIS 3.28+ plus optional cdsapi in the QGIS Python environment for the ERA5 download workflow. Outputs: suitability rasters, viable-sites GeoPackage, ERA5 request/NetCDF/GeoTIFF/CSV products, and HTML/CSV reports.", "homepage": "https://github.com/pperillav/solar_site_suitability", "repository": "https://github.com/pperillav/solar_site_suitability", "tracker": "https://github.com/pperillav/solar_site_suitability/issues", "author": "Fernan Jose Severich Diaz, Pedro Joaquin Perilla Vargas", "tags": ["raster", "dem", "slope", "ahp", "mcda", "gis", "copernicus", "solar", "aspect", "suitability", "era5", "site selection", "renewable energy", "photovoltaic", "ghi"], "downloads": 142, "latest_version": "1.0.3", "versions": [{"version": "1.0.3", "experimental": false, "qgis_min": "3.28.0", "qgis_max": "3.99.0", "downloads": 142, "uploaded_by": "pperillav", "upload_datetime": "2026-06-09T08:45:08.798978"}]}