Yaroslavl, Yaroslavl, Russian Federation
Yaroslavl, Yaroslavl, Russian Federation
The use of architectural approaches to create structures in new environments (architecture on water, underwater and in space, as well as taking into account the rise of world ocean level throughout the century) is considered. The images that architectural structures can take and the mimicry of structures in extreme climate conditions are revealed. Global questions about the boundaries of design and the interaction of architecture with other sciences are studied. The authors present design solutions in the search for materials with new properties and the development of structures with currently unattainable strength characteristics. Furthermore, new technologies are proposed for collecting and transmitting energy in ways that are currently only represented in the field of basic research. Architecture, in terms of research horizons and significant temporal and territorial spaces, gains the human qualities of transferring, communicating the information and experience accumulated by the civilization.
architecture, biomimicry, geostationary orbit, solar sail, cycler, world ocean level rise, graphene nanotube
1. Rastorguev, S.V. (2012) Real architecture is unpredictable, Tatlin Mono. 3/31/110, pp. 132–139. (in Russian).
2. Rastorguev S. Stream City Project // l’Arca International. 2015. 127. P. 66-69.
3. Fauchier-Magnan, G. (2014) La Terre est Bleue: Sea atlas of the 21th century, Marine Nationale Française, pp. 152-153.
4. Rougerie, J. (2021) La Fondation Jacques Rougerie Database. [online] International Database. Available at: http://www.jacquesrougeriedatabase.com
5. Rastorguev, S.V. & Kudryashov, M.N. (2022) Alternative. M.: Izd-vo «Resheniya» (in Russian).
6. Orlova, O.V. & Rastorguev, S.V. (2022) Futuristic projects for the competition Jacques Rougerie. [online] Portal «Arhitektura i entropiya». Available at: https://cih.ru/fx/jr.html (in Russian).
7. Challenging the Kármán line from above. NASA, Houston. We Have a Podcast // Space Exploration: [website]. 2018. URL: https://space.stackexchange.com
8. Rastorguev, S.V. & Tikhonov, K.A. (2013) "Stream City" project, Arhitekturnyj zhurnal CIHa. [online] Available at: https://cih.ru/j3/183.html (in Russian).
9. Ferl R. Greenhouses for Mars // NASA Science: [website]. 2004. URL: https://science.nasa.gov/science-news/science-at-nasa/2004/25feb_greenhouses/
10. Lemeshko, A.V. (2009) The Babel Tower Space Elevator. [online] Samlib. Available at: http://samlib.ru/editors/l/lemeshko_a_w/azz.shtml (in Russian).
11. Kelso T.S. Basics of the Geostationary Orbit // CelesTrak: [website]. 1998. URL: http://celestrak.org/columns/v04n07/
12. Gosselin P. Long Term Tide Gauge Data Show 21st Century Sea Level Rise Will Be Approximately As Much As The 20th Century // NoTricksZone: [website]. 18 April 2014. URL: http://notrickszone.com/2014/04/18/long-term-tide-gauge-data-show-21st-century-sea-level rise-will-be-approximately-as-much-as-the-20th-century/#sthash.v8PhgSdW.qwp9PXfz.dpbs
13. Kudryashov, M.N. & Kiselyov, A.S. (2013) The project "A drop in the ocean", Arhitekturnyj zhurnal CIHa [online]. Available at: https://cih.ru/j3/199.html. (in Russian).
14. Kudryashov, M.N., Rastorguev, S.V. & Sakharov, R.A. (2014) Arks, Arhitekturnyj zhurnal CIHa. [online] Available at: https://cih.ru/j3/256.html (in Russian).
15. Cook P., Webb M., Greene D. Archigram group // Archigram: [website]. 2015. URL: http://www.archigram.net/about.html
16. Katsnelson M.I. Graphene: Carbon in Two Dimensions. New York: Cambridge University Press, 2012. 366 p.
17. Zhu Y. Laboratory Grows World Record Length Carbon Nanotube. Los Alamos National Laboratory // Science Daily. 17 September 2004.
18. URL: https://www.sciencedaily.com/releases/2004/09/040917091336.html
19. Cowing, K. (2018) New Study Finds Sea Level Rise Accelerating. [online] SpaceRef. Available at: https://spaceref.com/earth/new-study-finds-sea-level-rise-accelerating/
20. Kudryashov, M.N., Rastorguev, S.V., Shishkov, A. & Murodbekov, F. (2015) Memory Collector / Collectionneur de mémoire, Arhitekturnyj zhurnal CIHa. [online] Available at: https://cih.ru/j3/303.html (in Russian).
21. Jencks C.A. The New Paradigm in Architecture. Yale University Press, 2002. 288 p.
22. Feldmann J., Levermann A. Collapse of the West Antarctic Ice Sheet after local destabilization of the Amundsen Basin // PNAS. 2015. URL: https://www.pnas.org/doi/full/10.1073/pnas.1512482112
23. Smirnova, I.E., Mezenina, L.A., Ogurtsov, S.V., Burykina, A.V., Tsvetkov, A.A., Golitsyna, S.A. & Rastorguev, S.V. (2017) T.H.I.R.S.T., Arhitekturnyj zhurnal CIHa. [online] Available at: https://cih.ru/j3/501.html (in Russian).
24. Lewis E. The 8-minute travel time to Earth by sunlight hides a thousand-year journey that actually began in the core // NASA: [website]. 2007. URL: https://sunearthday.nasa.gov/2007/locations/ttt_sunlight.php
25. Jacob A. Light completely stopped for a record-breaking minute // New Scientist: [website]. 2013. URL: https://www.newscientist.com/article/dn23925-light-completely-stopped-for-a-record-breaking-minute/
26. Yamakawa H. Small Solar Power Sail Demonstrator "IKAROS" // Japan Aerospace Exploration Agency: [website]. 2015. URL: https://global.jaxa.jp/projects/sas/ikaros/
27. Baranov, V.B. (2001) What is the solar wind. [online] Astronet. Available at: http://www.astronet.ru/db/msg/1171268 (in Russian).
28. Kudryashov, M.N., Rastorguev, S.V., Ter-Stepanyan, A.L. & Vladov, I.A. (2018) Nomadic city, Arhitekturnyj zhurnal CIHa. [online] Available at: https://cih.ru/j3/633.html (in Russian).
29. Weisberg O.L. (1986) Solar wind, Fizika kosmosa: Malen'kaya enciklopediya. 2-e izd. M.: Sovetskaya enciklopediya, pp. 636–639. (in Russian).
30. Wenzhong Z. The Theory of Super Photon and the Cosmological Insight into the Physical Origin of the Hubble Constant and the Universal Gravity // Foundation theories of Physics. December. 2019. DOIhttps://doi.org/10.13140/RG.2.2.13263.43680. URL: https://www.researchgate.net/publication/337683010_The_Theory_of_Super_Photon_and_the_Cosmological_Insight_into_the_Physical_Origin_of_the_Hubble_Constant_and_the_Universal_Gravity
31. Novoselov, K.S. (2011) Graphene: Flatland materials, Uspekhi fizicheskih nauk, 181, pp. 1299–1311. DOIhttps://doi.org/10.3367/UFNr.0181.201112f.1299 (in Russian).
32. Petrova, P.V. & Rastorguev, S.V. (2022) The Spaceport Ra project, Arhitekturnyj zhurnal CIHa. [online] Available at: https://cih.ru/j3/a63.html (in Russian).
33. Mars cycler // Wikipedia: [website]. 2022. URL: https://en.wikipedia.org/wiki/Mars_cycler 34. Mark J.J. Ra (Egyptian God) // Worldhistory: [website]. 2021. URL: https://www.worldhistory.org/Ra_(Egyptian_God)/
34. Mark J.J. Ra (Egyptian God) // Worldhistory: [sayt]. 2021. URL: https://www.worldhistory.org/Ra_(Egyptian_God)/
35. Davis N. Will you become a citizen of Asgardia, the first nation state in space? // The guardian: [website]. 2016. URL: https://www.theguardian.com/science/2016/oct/12/will-you-become-a citizen-of-asgardia-the-first-nation-state-in-space
36. Neel V. The 11 biggest space missions of 2021 (and their chances of success). URL: https://www.technologyreview.com/2021/01/04/1015519/the-11-biggest-space-missions-of-2021
37. Nixon D., Kaplincky J. What does living in space herald for the future of architecture? // Architectural-review: [website]. 1984. URL: https://www.architectural-review.com/essays/what-does-living-in-space-herald-for-the-future-of-architecture
38. Crook L. BIG and ICON to 3D-print structure exploring "new Martian vernacular" for NASA // Dezeen: [website]. 2021. URL: https://www.dezeen.com/2021/08/10/big-icon-3d-print-mars-dune-alpha-nasa/
39. Franco E.G., Kuritzky A.M., Lukacs R., Zahidi S. et. al. Global Risks: Report 2022 // Weforum: [website]. 2022. URL: https://www.weforum.org/reports/global-risks-report-2022/
40. Abadie L.J., Cranford N., Lloyd C.W., Shelhamer M.J., Turner J.L.. NASA Human Research Program. The Human Body in Space // Nasa: [website]. 2021. URL: https://www.nasa.gov/hrp/bodyinspace
41. Ravenscroft T. Voyager Station space hotel will spin "slightly faster than the second hand of a clock" says its architect // Dezeen: [website]. 2021. URL: https://www.dezeen.com/2021/03/29/space-hotel-2027-architect-tim-alatorre/
42. Crane K.W. Market Analysis of a Privately Owned and Operated Space Station // Jstor: [website]. 2017. URL: https://www.jstor.org/stable/
43. Yazici A.M., Tiwari S. Space Tourism: An Initiative Pushing Limits // Toleho. 2021. 3(1). P. 38-46. URL: https://www.researchgate.net/publication/350458479_Space_Tourism_An_Initiative_Pushing_Limits
44. Hollister W., Menning M.D. Periodic swing-by orbits between earth and Venus // ARC: [website]. 1970. URL: https://arc.aiaa.org/doi/10.2514/3.30134
45. Timekeeping on Mars // Wikipedia: [website]. 2022. URL: https://en.wikipedia.org/wiki/Timekeeping_on_Mars
46. Aldrin E.E., Friedlander A.L., Niehoff J.C., Byrnes D.V. Cyclic Trajectory Concepts. 1986. URL: https://engineering.purdue.edu/people/james.m.longuski.1/JournalArticles/1993/CyclerOrbitbetweenEarthandMars.pdf
47. Pioneer 10. // Wikipedia: [website]. 2022. URL: https://en.wikipedia.org/wiki/Pioneer_10
48. Voyager program // Wikipedia: [website]. 2022. URL: https://en.wikipedia.org/wiki/Voyager_program
49. Grishin Yu. I. Artificial Space Ecosystems // Epizodyspace: [website]. 1989. URL: http://epizodyspace
