Typical Downscaled Year (TDY) for building energy simulations (.epw format) in future climate (2069-2098 - RCP 8.5), Uccle, Belgium
Typical Downscaled Year (TDY), based on the methodology of Nik (2016), is extracted for the location of Uccle (50°47'49"N 4°21'29" E) from the EC-Earth driven convection-permitting climate model COSMO-CLM for the Belgian domain extended with land-surface scheme TERRA_URB(v2.0) making use of the SURY (Semi-empirical URban canopY) parameterization ( Wouters et al. 2016). The integrations are identical to the ones which are described in Vanden Broucke et al. (2019). The climate model has a spatial resolution of 2.8 km and an hourly temporal resolution and is available for the recent past (1976-20... Mehr ...
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| Dokumenttyp: | Dataset |
| Erscheinungsdatum: | 2021 |
| Schlagwörter: | Ecology / Plant Biology / Environmental Sciences not elsewhere classified / Biological Sciences not elsewhere classified / nbsp / 30- year datasets / Semi-empirical URban canopY / SURY / future / Typical Downscaled Year / Downscaled Year / climate / Belgian domain / COSMO-CLM / TERRA / 2.8 km / Vanden Broucke / TDY / deg / RCP / Ramon / model / Uccle |
| Sprache: | unknown |
| Permalink: | https://search.fid-benelux.de/Record/base-28953226 |
| Datenquelle: | BASE; Originalkatalog |
| Powered By: | BASE |
| Link(s) : | https://doi.org/10.5281/zenodo.4776320 |
Typical Downscaled Year (TDY), based on the methodology of Nik (2016), is extracted for the location of Uccle (50°47'49"N 4°21'29" E) from the EC-Earth driven convection-permitting climate model COSMO-CLM for the Belgian domain extended with land-surface scheme TERRA_URB(v2.0) making use of the SURY (Semi-empirical URban canopY) parameterization ( Wouters et al. 2016). The integrations are identical to the ones which are described in Vanden Broucke et al. (2019). The climate model has a spatial resolution of 2.8 km and an hourly temporal resolution and is available for the recent past (1976-2004) and future (2070-2098) as 30-year datasets. For this dataset, the TDY is extracted for the future period. A bias correction is applied for the following variables: temperature (as described in Ramon et al. 2020), solar radiation and relative humidity as described in Ramon et al. (202X).