The efficient urban canopy dependency parametrization (SURY) v1.0 for atmospheric modelling: description and application with the COSMO-CLM model for a Belgian summer

Research output: Contribution to journalArticle

Authors

  • Hendrik Wouters
  • Matthias Demuzere
  • Ulrich Blahak
  • Krzysztof Fortuniak
  • Bino Maiheu
  • Johan Camps
  • Daniël Tielemans
  • Nicole P. M. van Lipzig

Institutes & Expert groups

  • KUL - Katholieke Universiteit Leuven
  • Deutscher Wetterdienst
  • University of Lodz
  • VITO - Flemish Institute for Technological Research
  • VMM - Vlaamse Milieumaatschappij - Belgium

Documents & links

DOI

Abstract

This paper presents the Semi-empirical URban canopY parametrization (SURY) v1.0, which bridges the gap between bulk urban land-surface schemes and explicit-canyon schemes. Based on detailed observational studies, modelling experiments and available parameter inventories, it offers a robust translation of urban canopy parameters – containing the three-dimensional information – into bulk parameters. As a result, it brings canopy-dependent urban physics to existing bulk urban land-surface schemes of atmospheric models. At the same time, SURY preserves a low computational cost of bulk schemes for efficient numerical weather prediction and climate modelling at the convection-permitting scales. It offers versatility and consistency for employing both urban canopy parameters from bottom-up inventories and bulk parameters from top-down estimates. SURY is tested for Belgium at 2.8 km resolution with the COSMO-CLM model (v5.0_clm6) that is extended with the bulk urban land-surface scheme TERRA_URB (v2.0). The model reproduces very well the urban heat islands observed from in situ urban-climate observations, satellite imagery and tower observations, which is in contrast to the original COSMO-CLM model without an urban land-surface scheme. As an application of SURY, the sensitivity of atmospheric modelling with the COSMO-CLM model is addressed for the urban canopy parameter ranges from the local climate zones of http://WUDAPT.org. City-scale effects are found in modelling the land-surface temperatures, air temperatures and associated urban heat islands. Recommendations are formulated for more precise urban atmospheric modelling at the convection-permitting scales. It is concluded that urban canopy parametrizations including SURY, combined with the deployment of the WUDAPT urban database platform and advancements in atmospheric modelling systems, are essential.

Details

Original languageEnglish
Pages (from-to)3027-3054
Number of pages28
JournalGeoscientific Model Development
Volume9
Issue number9
DOIs
Publication statusPublished - 2 Sep 2016

Keywords

  • Resolution climate simutalions, Energy balace model, Land surface, Heat-island, Anthropogenic heat, Parameterization, Temperature, Validation, Impact, Scheme

ID: 5655468