Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces
Accurate assessment of air-flow in ventilated spaces is of major importance for achieving healthy and comfortable indoor environment conditions. The CFD (Computational Fluid Dynamics) technique is nowadays one of the most used approaches in order to improve the indoor air quality in ventilated envir...
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Online Access: | https://doi.org/10.2478/mmce-2014-0020 |
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doaj-fad06905146f4553909cd2dec9c66a982021-09-06T19:22:33ZengSciendoMathematical Modelling in Civil Engineering2066-69342014-12-01104284210.2478/mmce-2014-0020Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated SpacesTeodosiu Cătălin0Ilie Viorel1Teodosiu Raluca2Associate Professor, PhD, Technical University of Civil Engineering, Faculty of Building Services engineeringPhD Student, Technical University of Civil Engineering, Faculty of Building ServicesLecturer, PhD, Technical University of Civil Engineering, Faculty of Building ServicesAccurate assessment of air-flow in ventilated spaces is of major importance for achieving healthy and comfortable indoor environment conditions. The CFD (Computational Fluid Dynamics) technique is nowadays one of the most used approaches in order to improve the indoor air quality in ventilated environments. Nevertheless, CFD has still two main challenges: turbulence modeling and experimental validation. As a result, the objective of this study is to evaluate the performance of different turbulence models potentially appropriate for the prediction of indoor airflow. Accordingly, results obtained with 6 turbulence models (standard k-ε model, RNG k-ε model, realizable k-ε model, LRN SST k-ω model, transition SST k-ω model and low Reynolds Stress-ω model) are thoroughly validated based on detailed experimental data. The configuration taken into account in this work corresponds to isothermal and anisothermal airflows produced by mixing ventilation systems in small enclosures at low room air changes per hour. In general, the transition SST k-ω model shows the better overall behavior in comparison with measurement values. Consequently, the application of this turbulence model is appropriate for air flows in ventilated spaces, being an interesting option to more sophisticated LES (Large Eddy Simulation) models as it requires less computational resources.https://doi.org/10.2478/mmce-2014-0020turbulence modelcfdanisothermal jetventilationbuilding |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Teodosiu Cătălin Ilie Viorel Teodosiu Raluca |
spellingShingle |
Teodosiu Cătălin Ilie Viorel Teodosiu Raluca Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces Mathematical Modelling in Civil Engineering turbulence model cfd anisothermal jet ventilation building |
author_facet |
Teodosiu Cătălin Ilie Viorel Teodosiu Raluca |
author_sort |
Teodosiu Cătălin |
title |
Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces |
title_short |
Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces |
title_full |
Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces |
title_fullStr |
Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces |
title_full_unstemmed |
Appropriate CFD Turbulence Model for Improving Indoor Air Quality of Ventilated Spaces |
title_sort |
appropriate cfd turbulence model for improving indoor air quality of ventilated spaces |
publisher |
Sciendo |
series |
Mathematical Modelling in Civil Engineering |
issn |
2066-6934 |
publishDate |
2014-12-01 |
description |
Accurate assessment of air-flow in ventilated spaces is of major importance for achieving healthy and comfortable indoor environment conditions. The CFD (Computational Fluid Dynamics) technique is nowadays one of the most used approaches in order to improve the indoor air quality in ventilated environments. Nevertheless, CFD has still two main challenges: turbulence modeling and experimental validation. As a result, the objective of this study is to evaluate the performance of different turbulence models potentially appropriate for the prediction of indoor airflow. Accordingly, results obtained with 6 turbulence models (standard k-ε model, RNG k-ε model, realizable k-ε model, LRN SST k-ω model, transition SST k-ω model and low Reynolds Stress-ω model) are thoroughly validated based on detailed experimental data. The configuration taken into account in this work corresponds to isothermal and anisothermal airflows produced by mixing ventilation systems in small enclosures at low room air changes per hour. In general, the transition SST k-ω model shows the better overall behavior in comparison with measurement values. Consequently, the application of this turbulence model is appropriate for air flows in ventilated spaces, being an interesting option to more sophisticated LES (Large Eddy Simulation) models as it requires less computational resources. |
topic |
turbulence model cfd anisothermal jet ventilation building |
url |
https://doi.org/10.2478/mmce-2014-0020 |
work_keys_str_mv |
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