Počet záznamů: 1  

Importance of radiative transfer processes in urban climate models: A study based on the PALM model system 6.0

    1.
    SYSNO ASEP0531794
    Druh ASEPJ - Článek v odborném periodiku
    Zařazení RIVJ - Článek v odborném periodiku
    Poddruh JČlánek ve WOS
    NázevImportance of radiative transfer processes in urban climate models: A study based on the PALM model system 6.0
    Tvůrce(i) Salim, M. (DE)
    Schubert, S. (DE)
    Resler, Jaroslav (UIVT-O) SAI, RID, ORCID
    Krč, Pavel (UIVT-O) SAI, RID, ORCID
    Maronga, B. (DE)
    Kanani-Sühring, F. (DE)
    Sühring, M. (DE)
    Schneider, Ch. (DE)
    Zdroj.dok.Geoscientific Model Development. - : Copernicus GmbH - ISSN 1991-959X
    Roč. 15, č. 1 (2022), s. 145-171
    Poč.str.27 s.
    Jazyk dok.eng - angličtina
    Země vyd.DE - Německo
    Klíč. slovaradiative transfer ; radiation interactions ; radiation in urban canopy ; RTM
    Vědní obor RIVDG - Vědy o atmosféře, meteorologie
    Obor OECDMeteorology and atmospheric sciences
    CEPUH0383 GA KHP - Hlavní město Praha
    TO01000219 GA TA ČR - Technologická agentura ČR
    Způsob publikováníOpen access
    Institucionální podporaUIVT-O - RVO:67985807
    UT WOS000740963700001
    EID SCOPUS85122995520
    DOI https://doi.org/10.5194/gmd-15-145-2022
    AnotaceIncluding radiative transfer processes within the urban canopy layer into microscale urban climate models (UCMs) is essential to obtain realistic model results. These processes include the interaction of buildings and vegetation with shortwave and longwave radiation, thermal emission, and radiation reflections. They contribute differently to the radiation budget of urban surfaces. Each process requires different computational resources and physical data for the urban elements. This study investigates how much detail modellers should include to parameterise radiative transfer in microscale building resolving UCMs. To that end, we introduce a stepwise parameterization method to the PALM model system 6.0 to quantify individually the effects of the main radiative transfer processes on the radiation budget and on the flow field. We quantify numerical simulations of both simple and realistic urban configurations to identify the radiative transfer processes which have major effects on the radiation budget, such as surface and vegetation interaction with short wave and long wave radiation, and those which have minor effects, such as multiple reflections. The study also shows that radiative transfer processes within the canopy layer implicitly affect the incoming radiation since the radiative transfer model is coupled to the radiation model. The flow field changes considerably in response to the radiative transfer processes included in the model. The study highlights those processes which are essentially needed to assure acceptable quality of the flow field. Omitting any of these processes may lead to high uncertainties in the model results.
    PracovištěÚstav informatiky
    KontaktTereza Šírová, sirova@cs.cas.cz, Tel.: 266 053 800
    Rok sběru2023
    Elektronická adresahttps://dx.doi.org/10.5194/gmd-15-145-2022
Počet záznamů: 1  

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