From “Green Building” to Architecture Integrated with Nature: The Principle of Environmental Interconnection
AbstractAs a follow-up to the theme of integration between architecture and nature discussed in the previous issues of Project Baikal, the article gives a definition of the principle of environmental interconnection. It also presents the geneses and the state-of-the-art of the ideas and practices based on this complex and dialectically contradictory principle. The author analyses the evolution of different ways of penetration of natural environment into the inner space of architectural structures. He also studies the development of the idea of openness of architectural structures toward natural environment, including the means of differentiation and regulation of openness and transformable facades and roofs.
Isidorov, V. A. (2001). Ekologicheskaya khimiya: uchebnoe posobie dlya vuzov [Ecological chemistry: university manual].
Saint Petersburg: Khimizdat.
Logvinov, V. (2011). Aerostatic Architecture. Theory of Unsupported Aerostatic Coverings. Project Baikal, 8 (28), 36-41. doi: http://dx.doi.org/10.7480/projectbaikal.28.402.395
Logvinov, V. (2016a). From “Green Building” to Architecture Integrated with Nature. Place Preservation Principle. Project Baikal, 13 (50), 52-59.
Logvinov, V. (2016b). From “Green Building” to Architecture Integrated with Nature. Regeneration Principle. Project Baikal, 13 (49), 60-71.
Nestriga, Yu. (2009). Stadiony s zakryvayushcheisya kryshei [Stadiums with a closing roof]. Retrieved from http://stadiums.at.ua/publ/other/26-1-0-18
Novikov, F. A. (2016). The history with two prehistories. On the design of the Moscow Palace of Young Pioneers. Project
Baikal, 13 (50), 144-151.
Saxon, R. (1987). Atrium buildings. (A. G. Rappaport, Trans.; V. L. Hait, Ed.). Moscow: Stroyizdat.
Shcherbina, N. (2014, October 20). “Zemlya Olonkho”: proekty finalistov [“Olonkholand”: projects by finalists]. Archi.ru. Retrieved from http://archi.ru/russia/57497/zemlya-olonkho
Shipkov, A. I. (2015). Architektura inaya v drugikh mestakh [Architecture otherwhere]. Obraz Rossii, 5.
Shustova, N. (2012). Sudba arkhitekturnykh transformerov
[Architectural transformers’ destiny]. Forma. Retrieved from http://www.forma.spb.ru/magazine/articles/transform/
Skupov, B. (2017, January 30). Kimberlitovaya trubka “Mir” – na puti ot krupneishego almaznogo karyera do pervogo podzemnogo goroda pod kupolom [The kimberlite pipe “Mir” – on the way from the largest diamond mine to the first underground city under the dome]. Stroitelnyi expert. Retrieved from http://ardexpert.ru/article/8529
Tarabarina, Yu. (2008, March 5). Vizantiisky dom [Byzantian House]. Archi.ru. Retrieved from http://archi.ru/russia/5350/vizantiiskii-dom
Vasilyev, N., Kazakova, O., Ovsyannikova, E., & Tevosyan, R. (2016). Igor Vasilevsky. I. Vasilevsky, & E. Kubensky (Eds.).
integration with nature; atriums; winter gardens; double facade; openness; closedness; differentiation; regulated openness; transformable roof and facades
This work is licensed under a Creative Commons Attribution 4.0 International License.Attribution 4.0 International (CC BY 4.0)