References
- Allard, F., and C. Ghiaus. (ed.). 2005. Natural ventilation in the urban environment – assessment and design. London: Earthscan.
- Al-Sallal, K., and L. Al-Rais. 2011. Outdoor airflow analysis and potential for passive cooling in the traditional urban context of Dubai. Renewable Energy 36:2494–501.
- Amarante, O.A., F.J.L. Silva, and S. Brasil. 2002. Estado do Rio de Janeiro – atlas eólico. Rio de Janeiro: GERJ.
- Asfour, O.A., and M.B. Gadi. 2007. Using CFD to investigate ventilation characteristics of domes as wind-inducing devices in buildings. International Journal of Green Energy 4:571–88.
- Bejan, A., and S. Lorente. 2007. Constructal theory and its relevance to green energy. International Journal of Green Energy 4:105–17.
- Bittencourt, L., and C. Candido. 2008. Introdução à Ventilação natural. Maceió: edUFAL.
- Blocken, B., W.D. Janssen, and T. van Hooff. 2012. CFD simulation for pedestrian wind comfort and wind safety in urban areas: general decision framework and case study for the Eindhoven University campus. Environmental Modeling and Software 30:15–34.
- Cheung, J.O.P., and C.H. Liu. 2011. CFD simulations of natural ventilation behavior in high rise buildings in regular and staggered arrangements at various spacings. Energy and Buildings 43:1149–58.
- Comsol. 2013. www.comsol.com.
- Davenport, A.G. 1960. Rationale for determining design wind velocities. Journal of the Structural Division, American Society of Civil Engineers 86:39–68.
- Franke, J., A. Hellsten, H. Schlünzen, and B. Carissimo. 2007. Best practice guideline for the CFD simulation of flows in the urban environment. Belgium: COST.
- Evans, M. 1980. Housing, climate and comfort. London: Architectural Press.
- Gallagher, J., L.W. Gill, and A. McNabola. 2012. Numerical modelling of the passive control of air pollution in asymmetrical urban street canyons using refined mesh discretization schemes. Building and Environment 56:232–40.
- Givoni, B. 1998. Climate considerations in building and urban design. Canada: John Wiley.
- Gonçalves, J.C.S., R.C.K. Mulfarth, L.M. Monteiro, N.C. Moura, A.R. Prata, and A.C. Miana. 2011. The environmental performance of high-density urban living: with reference to the city centre of São Paulo. Proceedings of PLEA 2011 – 27th Conference of Passive and Low Energy Architecture, Belgium, pp. 375–80.
- Hang, J., Y. Li, M. Sandberg, R. Buccolieri, and S. Sabatino. 2012. The influence of building height variability on pollutant dispersion and pedestrian ventilation in idealized high-rise urban areas. Building and Environment 56:346–60.
- Hu, T., and R. Yoshie. 2013. Indices to evaluate ventilation efficiency in newly built urban area at pedestrian level. Journal of Wind Engineering and Industrial Aerodynamics 112:39–51.
- Instituto Pereira Passos (IPP). 2013. Mapa centro 2. Rio de Janeiro, Brazil: IPP.
- Koenigsberger, O., O.H. Ingersoll, and T.G. Mayhew. 1975. Manual of tropical housing and building. New Delhi, India: Orient Longman.
- Koss, H. 2006. On differences and similarities of applied wind comfort criteria. Journal of Wind Engineering and Industrial Aerodynamics 94:781–97.
- Kukreja, C.P. 1978. Tropical architecture. New Delhi, India: McGraw Hill.
- Lamberts, R., L. Dutra, and F.O.R. Pereira. 1997. Eficiência energética na arquitetura. São Paulo, Brazil: PW Editores.
- Launder, B.E., and D.B. Spalding. 1974. The numerical computation of turbulent flows. Computer Methods in Applied Mechanics and Engineering 3:269–89.
- Leite, R.C.V., and A.B. Frota. 2011. Designing the city according to the wind using a CFD to minimize the impacts of city growth on natural ventilation. Proceedings of Building Simulation 2011: 12th Conference of International Building Performance Simulation Association, Sydney, Australia, pp. 2317–24.
- Lorenzini, G., C. Biserni, and L.A.O. Rocha. 2013. Constructal design of non-uniform X-shaped conductive pathways for cooling. International Journal of Thermal Sciences 71:140–47.
- Lucena, A.J., O.C. Rotunno, L.F. Peres, and J.R.A. França. 2012. A evolução da ilha de calor na região metropolitana do Rio de Janeiro. Revista Geonorte 2:8–21.
- Memon, R., D. Leung, and C. Liu. 2010. Effects of building aspect ratio and wind velocity on air temperatures in urban-like street canyons. Building and Environment 45:176–88.
- Monteiro, L.M., and M.P. Alucci. 2007. Questões teóricas de conforto térmico em espaços abertos: consideração histórica, discussão do estado da arte e proposição de classificação de modelos. Ambiente Construído 7:43–58.
- Ng, E. (ed.). 2010. Designing high-density cities: for social and environmental sustainability. London: Earthscan.
- Oke, T.R. 1988. Street design and urban canopy layer climate. Energy and Buildings 11:103–13.
- Prefeitura Municipal do Rio de Janeiro (PMRJ). 2012a. Mapa de Índice de aproveitamento do terreno de 1976. Available at: http://www.rio.rj.gov.br/web/smu (accessed June 2013).
- Prefeitura Municipal do Rio de Janeiro (PMRJ). 2012b. Mapa de índice de aproveitamento do terreno de 2011. Available at: http://www.rio.rj.gov.br/web/smu.
- Salim, S.M., R. Buccolieri, A. Chan, and S. Di Sabatino. 2011. Numerical simulation of atmospheric pollutant dispersion in an urban street canyon: comparison between RANS and LES. Journal of Wind Engineering and Industrial Aerodynamics 99:103–13.
- Santamouris, M., N. Papanikolaou, I. Livada, I. Koronakis, C. Georgakis, A. Argiriou, and D.N. Assimakopoulos. 2001. On the impact of urban climate on the energy consumption of buildings. Solar Energy 70:201–16.
- Santiago, J.L., A. Dejoan, A. Martilli, and F. Martin. 2010. Comparison between large-eddy simulation and Reynold’s averaged Navier–Stokes computations for the MUST field experiment. Part I: Study of the flow for an incident wind directed perpendicularly to the front array of containers. Boundary-Layers Meteorology 135:109–32.
- Soligo, M., P. Irwin, C. Williams, and G. Schuyler. 1998. A comprehensive assessment of pedestrian comfort, including thermal effects. Journal of Wind Engineering and Industrial Aerodynamics 77:753–66.
- Tahbaz, M. 2006. The estimation of the wind velocity in urban areas. Proceedings of CIBSE National Conference, England.
- Vardoulakis, S., B.E.A. Fisher, K. Pericleous, and N. Gonzales-Flesca. 2003. Modelling air quality in street canyons: a review. Atmospheric Environment 37:155–82.
- Wong, K.S. (Org.). 2005. Feasibility study for establishment of air ventilation assessment system – final report. Hong Kong, China: Department of Architecture, Chinese University of Hong Kong. (http://www.pland.gov.hk/pland_en/p_study/comp_s/avas/papers&reports/final_report.pdf).
- Xia, Q., X. Liu, and J. Niu. 2013. Effects of building lift-up design on pedestrian wind environment. Proceedings of the International Conference on Environmental Pollution and Remediation, Toronto, Canada.
- Yang, L., G. Zhang, Y. Li, and Y. Chen. 2005. Investigating potential of natural driving forces for ventilation in four major cities in China. Building and Environment 40:738–46.
- Yuan, C., and E. Ng. 2012. Building porosity for better urban ventilation in high-density cities – a computational parametric study. Building and Environment 50:176–89.
![Supercharge Your Next Research Paper: Research and write your next paper with Jenni AI.]({"type":"image" , "src" : "/sda/112445/Skyscraper-econ.png"})