This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Anderson J.D. Jr. (2008), Some Reflections on the History of Fluid Dynamics, in: The Handbook of Fluid Dynamics, ed. R.W. Johnson, CRC Press–Springer, Boca Raton–Heidelberg.Search in Google Scholar
Autodesk Support (2023), Flow Design vs. Autodesk CFD, https://www.autodesk.com/support/technical/article/caas/sfdcarticles/sfdcarticles/Flow-Design-vs-Autodesk-CFD.html [access: 1.07.2024].Search in Google Scholar
Cholewiński M. (2021), Budowa obserwatorium na Śnieżce 1973 r., https://fotopolska.eu/Sniezka-_1602_m_n.p.m.,552,48?f=1772421-foto [access: 1.07.2024].Search in Google Scholar
Designing Buildings (2022), Aerodynamics, https://www.designingbuildings.co.uk/wiki/Aerodynamics [access: 1.07.2024].Search in Google Scholar
Gadomska P. (2020), Będzie remont Marsjańskich Spodków Śnieżki, ale kiedy?, “Jelenia Góra Nasze Miasto”, 5 marca.Search in Google Scholar
Geurts C.P.W. (2005), The use of wind tunnel experiments for wind loads on structures, TNO Built Environment and Geosciences, Delft, The Netherlands.Search in Google Scholar
Kaijima S., Bouffanais R., Willcox K., Naidu S. (2013), Computational fluid dynamics for architectural design, “Architectural Design”, 83(2), 118–123.Search in Google Scholar
Kolarevic B. (2003), Computing the performative in architecture, in: Proceedings of the 21th eCAADe Conference: Digital Design. Graz, Austria, 17–20.Search in Google Scholar
Kolarevic B., Malkawi A.M. (2005), Performative Architecture: Beyond Instrumentality, Spon Press, New York–London.Search in Google Scholar
Kowalska M. (2021), Remont obserwatorium na Śnieżce jeszcze w tym roku, „Architektura & Biznes”, https://www.architekturaibiznes.pl/juz-niebawemremont-obserwatorium-na-sniezce,7524.html [access: 1.07.2024].Search in Google Scholar
Kyoto Protocol (1998), Kyoto Protocol to the United Nations framework convention on climate change, Kyoto.Search in Google Scholar
Larosea G.L., Franck N. (1997), Early wind engineering experiments in Denmark, “Journal of Wind Engineering and Industrial Aerodynamics”, 72, 493–499.Search in Google Scholar
Laboratorium Inżynierii Wiatrowej Politechnika Krakowska (2008), http://www.windlab.pl/zrealizowane-prace/pulawska_warszawa/ [access: 1.07.2024].Search in Google Scholar
Laboratorium Inżynierii Wiatrowej Politechnika Krakowska (2013), http://www.windlab.pl/zrealizowane-prace/grzybowska_warszawa/ [access: 1.07.2024].Search in Google Scholar
Ladybug Tools LLC (2023), Butterfly, https://www.ladybug.tools/butterfly.html [access: 1.07.2024].Search in Google Scholar
National Academies of Sciences, Engineering, and Medicine (2016), Attribution of extreme weather events in the context of climate change, National Academies Press.Search in Google Scholar
Nova A. (2006), The role of the winds in architectural theory from Vitruvius to Scamozzi, in: Aeolian winds and the spirit in Renaissance architecture, ed. B. Kenda, Academia Eolia revisited, London, 70–86.Search in Google Scholar
Ramotowski J. (2012), Profesor architekt Witold Lipiński i jego pasje, “Studia Łomżyńskie”, 23, 217–225.Search in Google Scholar
TOI: Design Informatics (2020), Flow Design – wind simulation, TU Delft, Faculty of Architecture, http://wiki.bk.tudelft.nl/toi-pedia/Flow_Design_-_windsimulation [access: 10.12.2023].Search in Google Scholar
Wojciechowski Ł. (2014), Pierwsze w Polsce – Kosmiczne obserwatorium, “Architektura Murator”, 3, 20–21.Search in Google Scholar
Yao J.W., Lin Y.Q., Zheng J.Y., Yuan P.F. (2018), A “Dynamic Form-Finding”. Approach to Environmental-Performance Building Design, “International Journal of High-Rise Buildings”, 7(2), 145–151.Search in Google Scholar
Orcid-Profil