Wind flow around buildings of basic shapes with and without a wind-adaptive envelope

[1] J. P. den Hartog, A. Koutamanis, and P. G. Luscuere, “Possibilities and limitations of CFD simulation for indoor climate analysis,” in Fifth Design and Decision Support Systems in Architecture and Urban Planning - Part one: Architecture Proceedings, 2000, pp. 152–167.Search in Google Scholar

[2] J.-Y. Tsou, “Applying computational fluid dynamics to architectural design development,” in Proceedings of The Third Conference on Computer Aided Architectural Design Research in Asia, 1998, pp. 133–142.10.52842/conf.caadria.1998.133Search in Google Scholar

[3] F. Moukalled, L. Mangani, and M. Darwish, Fluid Mechanics and Its Applications, vol. 113. Springer, 2016.Search in Google Scholar

[4] D. H. J. Chung and L. C. Malone-lee, “Computational Fluid Dynamics for urban design,” in New Frontiers: Proceedings of the 15th International Conference on Computer-Aided Architectural Design Research in Asia CAADRIA 2010, 2010, pp. 357–366.10.52842/conf.caadria.2010.357Search in Google Scholar

[5] A. Giacchetti, G. Bartoli, and C. Mannini, “Wind Effects on Permeable Tall Building Envelopes: Issues and Potentialities,” CTBUH Journal, pp. 20–27, 2019.Search in Google Scholar

[6] T. J. Scanlon, “A NUMERICAL ANALYSIS OF FLOW AND DISPERSION AROUND A CUBE Thomas,” A Numer. Anal. FLOW Dispers. AROUND A CUBE Thomas, no. 1977, 1991.Search in Google Scholar

[7] C. Yuan et al., “Multilayer urban canopy modelling and mapping for traffic pollutant dispersion at high density urban areas,” Sci. Total Environ., vol. 647, pp. 255–267, Jan. 2019.10.1016/j.scitotenv.2018.07.409Search in Google Scholar

[8] S. Sanquer, G. Caniot, and S. Bandhare, “Wind assessment in urban area with cfd tools application to natural ventilation potential and outdoor pedestrian comfort,” 14th Int. Conf. IBPSA - Build. Simul. 2015, BS 2015, Conf. Proc., pp. 1684–1691, 2015.10.26868/25222708.2015.2370Search in Google Scholar

[9] L. Lignarolo, C. Lelieveld, and P. Teuffel, “Shape morphing wind-responsive facade systems realized with smart materials,” in Proceedings of the Adaptive Architecture Conference, 2011, no. March, pp. 1–14.Search in Google Scholar

[10] L. Kabošová, “The search for an optimal architectural shape using wind performance analysis,” IOP Conf. Ser. Mater. Sci. Eng., vol. 566, no. 1, pp. 1–5, 2019.10.1088/1757-899X/566/1/012012Search in Google Scholar

[11] K. Kuismanen, “Climate-conscious architecture: Design and wind testing method for climates in change,” University of Oulu, 2008.Search in Google Scholar

[12] W. Janssen, B. Blocken, and T. Van Hooff, “Use of Cfd Simulations to Improve the Pedestrian Wind Comfort Around a High-Rise Building in a Complex Urban Area,” in 13th Conference of International Building Performance Simulation Association, Chambéry, France, August 26-28, 2013, pp. 1918–1925.10.26868/25222708.2013.1509Search in Google Scholar

[13] R. A. M. Castro, “Wind analysis in the early design stage: An empirical study of wind visualisation techniques for architects,” 2015.Search in Google Scholar

[14] A. Chronis, A. Dubor, E. Cabay, and M. S. Roudsari, “Integration of CFD in computational design: An evaluation of the current state of the art,” in Proceedings of the 35th International Conference eCAADe: ShoCK! Sharing of Computable Knowledge!, 2017, pp. 601–610.10.52842/conf.ecaade.2017.1.601Search in Google Scholar

[15] S. Stankovic and A. Setrakian, “Air Flow Modelling - 1.”Search in Google Scholar

[16] R. A. Moya Castro, D. Prohasky, S. Watkins, Y. Ding, J. Burry, and M. Burry, “Aerodynamic strategy applied in an urban shelter design - Simulation and analysis of aerodynamic phenomena in an urban context,” eCAADe 2014 Fusion - data Integr. its best, vol. 1, pp. 137–144, 2014.10.52842/conf.ecaade.2014.1.137Search in Google Scholar

[17] I. Olekšáková, O. Hubová, and L. Konečná, “Influence of nearby structure on the wind flow around the cube structure,” Rocz. Inz. Bud., vol. 15, pp. 29–36, 2015.Search in Google Scholar

[18] Eurocode 1, Actions on structures, Part 1-4: general actions. Wind actions. Brussels, 2010.Search in Google Scholar

[19] S. O. Hansen, “Wind loading design codes,” in Fifty years of wind engineering: Prestige lectures from the sixth European and African conferece on wind engineering, 2012, pp. 35–68.Search in Google Scholar

[20] G. Senatore, P. Duffour, and P. Winslow, “Energy and Cost Assessment of Adaptive Structures: Case Studies,” J. Struct. Eng. (United States), vol. 144, no. 8, pp. 1–23, 2018.10.1061/(ASCE)ST.1943-541X.0002075Search in Google Scholar

[21] R. Motro, Tensegrity: Structural Systems for the Future, 1st ed. Butterworth-Heinemann, 2003.10.1016/B978-190399637-9/50032-9Search in Google Scholar