Impacto del diseño urbano en la calidad del airemodelos arquitectónicos urbanos basados en espacios exteriores confinados
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Universidad de Valladolid
info
ISSN: 1133-4762
Year of publication: 2017
Issue: 194
Pages: 645-660
Type: Article
More publications in: Ciudad y territorio: Estudios territoriales
Funding information
de Vivienda y cuya dotación permitió realizar las simulaciones CFD presentadas. Pero en especial agradecemos los datos y series de re-sultados experimentales puestos a disposición por el Meteorological Institute de Universität Hamburg a través del proyecto CEDVAL para la validación del estudio y la colaboración de Dr. Bernd Leitl.Funders
Bibliographic References
- Amorim, JH & al. (2013): «CFD modelling of the aerodynamic effect of trees on urban air pollution dispersion», en: Science of the Total Environment, 641-642: 541-551.
- Blocken, B & al. (2007): «CFD evaluation of wind speed conditions in passages between parallel buildings-effect of wall-function roughness modifications for the atmospheric boundary layer flow», en: Journal of Wind Engineering and Industrial Aerodynamics, 95: 941-962.
- Bloc ken, B & al. (2007): «CFD simulation of the atmospheric boundary layer: wall function problems», en: Atmospheric Environment, 41: 238-252.
- Depaul, FT & Sheih, CM (1986): «Measurements of wind velocities in a street canyon», en: Atmosferic environment, 20 (3): 455-459.
- Etheridge, D & Sandberg, M (1996): Building Ventilation Theory and Measurement. Jhon Wiley & Sons.
- Farell, C & Iyengar, AKS (1999): «Experiments on the wind tunnel simulation of atmospheric boundary layers», en: Journal of Wind Engineering and Industrial Aerodynamics, 79: 11-35.
- Hang, J & al. (2009a): «Effect of urban morphology on wind condition in idealized city models», en: Atmospheric Environment, 43: 869-878.
- Hang, J & al. (2009b): «Age of air and air exchange efficiency in idealized city models», en: Building and Environment, 44: 1714-1723.
- Hertwig, D & al. (2012): «CFD-RANS model validation of turbulent flow in a semi-idealized urban canopy», en: Journal of Wind Engineering and Industrial Aerodynamics, 111: 61-72.
- Kastner-Klein, P & al. (2001): «A wind tunnel study of organised and turbulent air motions in urban street canyons», en: Journal of Wind Engineering and Industrial Aerodynamics, 89: 849-861.
- Kim, JJ & Baik, JJ (2003): «Effects of inflow turbulence intensity on flow and pollutant dispersion in an urban street canyon», en: Journal of Wind Engineering and Industrial Aerodynamics, 91: 309-329.
- Kim, SE & Boysan, F (1999): «Application of CFD to environmental flows», en: Journal of Wind Engineering and Industrial Aerodynamics, 81: 145-158.
- Kline, SJ & al. (1967): «The structure of turbulent boundary layers», en: Journal of Fluid Mechanics, 30: 741.
- Launder, BE & Spalding, DB (1974): «The numerical computation of turbulent flows», en: Computer methods in Applied Mechanics and Engineering, 3: 269-289.
- Lien, FS & al. (2004): «Simulation of mean flow and turbulence over a 2D building array using high-resolution CFD and a distributed drag force approach», en: Journal of Wind Engineering and Industrial Aerodynamics, 92: 117-158.
- Lien, FS & Yee, E (2004): «Numerical modelling of the turbulent flow developing within and over a 3-d building array, part I: A high-resolution Reynolds-Averaged Navier–Stokes approach», en: Boundary-Layer Meteorology, 112: 427-466.
- Meroney, RN & al. (1999): «Wind-tunnel and numerical modeling of flow and dispersion about several building shapes», en: Journal of Wind Engineering and Industrial Aerodynamics, 81: 333-345.
- Moonen, P & al. (2011): «Evaluation of the ventilation potential of courtyards and urban street canyons using RANS and LES», en: Journal of Wind Engineering and Industrial Aerodynamics, 99: 414-423.
- Murakami, S & al. (1999): «CFD analysis of wind climate from human scale to urban scale», en: Journal of Wind Engineering and Industrial Aerodynamics, 81: 57-81.
- Padilla-Marcos, MA & al. (2015): «Eficiencia isoterma de los modelos de ventilación exterior en patios de edificios residenciales. Estudio de casos», en: Informes de la Construcción, 67(540): e121.
- Padilla-Marcos, MA & al. (2017): «The effects of wind velocity and building geometry on air change efficiency in light shafts. Case studies», en: Building Services Engineering and Technology, 37: 5-20.
- Panofsky, HA & Dutton, JA (1984): Atmospheric Turbulence, Wiley-Interscience, N.Y.
- Panofsky, HA & Dutton, JA (1964): «Change of Terrain Roughness and the Wind Profile», en: Quarterly Journal. Royal Meteorology Society, 90: 147-155
- Paterson, DA & Apelt, CJ (1986): «Computation of wind flows over three-dimensional buildings», en: Journal of Wind Engineering and Industrial Aerodynamics, 24: 193-213.
- Richards, PJ & Hoxey. RP (1993): «Appropriate boundary conditions for computational wind engineering models using the k-e turbulence model», en: Journal of Wind Engineering and Industrial Aerodynamics, 46-47: 145-153.
- Salizzoni, P & al. (2009): «Influence of wall roughness on the dispersion of a passive scalar in a turbulent boundary layer», en: Atmospheric Environment, 43: 734-748.
- Sandberg, M (1981): «What is ventilation efficiency?», en: Building and Environment, 16(2): 123-135.
- Sandberg, M & Sjöberg, M (1993): «The use of moments for assessing air quality in ventilated rooms», en: Building and environment, 18: 181-197.
- Schatzmann, M & Leitl, B (2011): «Issues with validation of urban flow and dispersion CFD models», en: Journal of Wind Engineering and Industrial Aerodynamics, 99: 169-186.
- Skote, M & al. (2005): «Numerical and experimental studies of wind environment in an urban morphology», en: Atmospheric Environment, 39: 6147-6158.
- Sutton, OG (1936): «The Logarithmic Law of Wind Structure near the Ground», en: Quarterly Journal. Royal Meteorology Society, 62: 124-127.
- Sutton, OG (1937): «The Logarithmic Law of Wind Structure near the Ground. 2», en: Quarterly Journal. Royal Meteorology Society, 63: 105-107.
- Townsend, AA (1956): The structure of turbulent shear flow. Cambridge University Press.
- Vardoulakis, S & al. (2003): «Modelling air quality in street canyons: a review», en: Atmospheric Environment, 37: 155-182.
- Xiaomin, X al. (2006): «The impact of urban street layout on local atmospheric environment», en: Building and Environment, 41: 1352-1363.
- Yoshie, R & al. (2007): «Cooperative project for CFD prediction of pedestrian wind environment in the Architectural Institute of Japan», en: Journal of Wind Engineering and Industrial Aerodynamics, 95: 1551-1578.
- Zhang, A & Gu, M (2008): «Wind tunnel tests and numerical simulations of wind pressures on buildings in staggered arrangement», en: Journal of Wind Engineering and Industrial Aerodynamics, 96: 2067-2079.