6533b86cfe1ef96bd12c8da6
RESEARCH PRODUCT
Review of wind tunnel modelling of flow and pollutant dispersion within and from naturally ventilated livestock buildings
Zbyněk JaňourDavid JankeQianying YiŠTěpán NosekMichala JakubcováSalvador CalvetPeter DemeyerAndré J.a. AarninkMelynda HassounaGuoqiang Zhangsubject
Technology010504 meteorology & atmospheric sciencesFarm Technology02 engineering and technologyPRODUCCION ANIMALAtmospheric boundary layer01 natural sciencesCivil engineeringammoniaNatural ventilation0202 electrical engineering electronic engineering information engineeringGeneral Materials SciencePollutant dispersionBiology (General)InstrumentationWind tunnelFluid Flow and Transfer ProcessesTPhysicsLivestock buildingGeneral EngineeringNatural ventilation600natural ventilationEngineering (General). Civil engineering (General)Computer Science ApplicationsBoundary layerChemistryEmissions & Manure ValorisationTA1-2040pollutant dispersionlivestock buildingPlanetary boundary layerQH301-705.5020209 energyQC1-999Flow (psychology)Emissie & Mestverwaardingatmospheric boundary layerAmmoniaStatistical dispersionQD1-9990105 earth and related environmental sciencesPollutantProcess Chemistry and Technology12.- Garantizar las pautas de consumo y de producción sosteniblesGreenhouse gasWIASEnvironmental scienceAgrarische BedrijfstechnologieGHGdescription
[EN] Ammonia emissions from naturally ventilated livestock buildings (NVLBs) pose a serious environmental problem. However, the mechanisms that control these emissions are still not fully understood. One promising method for understanding these mechanisms is physical modelling in wind tunnels. This paper reviews studies that have used this method to investigate flow or pollutant dispersion within or from NVLBs. The review indicates the importance of wind tunnels for understanding the flow and pollutant dispersion processes within and from NVLBs. However, most studies have investigated the flow, while only few studies have focused on pollutant dispersion. Furthermore, only few studies have simulated all the essential parameters of the approaching boundary layer. Therefore, this paper discusses these shortcomings and provides tips and recommendations for further research in this respect.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-05-01 |