Nature as a Fundamental base for an Architectural Design, How we set basic base to Design Architectural Envelope Inspired by Sustainable Features of Leaf
- 1Damascus University, Faculty of Architecture, Department of Architectural Design, Syria
- 2Damascus University, Faculty of Architecture, Department of Architectural Design, Syria
Res. J. Engineering Sci., Volume 5, Issue (7), Pages 21-27, July,26 (2016)
Proceeding from the idea that nature is morphing to adapt with its environment, transformability in nature is a strategy For Adaption. Architecture is able to breathe and grow as plants. The field of this specialization is called breathing and living architecture. Designing an external envelope for the building, which is able to breathe through the organization of domestic environmental quality factors of architectural space (temperature and humidity) is very important especially when it is working to organize the necessary lighting for space according to function and requirements of the occupants, and in the same time concludes the construction of the amount of carbon dioxide. Today the concept of \\\\\\\"breathing building\\\\\\\" should be implemented as a design strategy to achieve more adaptively and responsively against extreme climate changes, through the invention and providing architectural elements which also are high-tech sensitive to these climate changes, and able through this sensitivity to design an internal space appropriate with the activity and comfortable for the occupant.
- Peter F. Smith (2001)., Architecture in a climate of change, a guide to sustainable design., Gray publishing, Bodmin, Cornwall, Great Britain, p: xiv. ISBN: 0 7506 65440.
- Pakowska M. (2014)., Parametric, generative, evolutionary, organic and bionic architecture, a new look at an old problem., Architecturae et Artibus journal, 6, 19 42-45, Poland. http://www.wa.pb.edu.pl/uploads/downloads/Architektura--1---2014----artykul-IX.pdf.
- Marianne Denise J. Stokholm (2005)., Bionics, Student ‘guide for mini projects on 4th term 2006., A&D Skriftserie, 51, Aalborg University, Denmark, ISSN: 1399-3291.
- Mojdehi M. (2011)., The necessity of inspiring from nature in architecture., 5th SASTech, Khavaran Higher-education Institute, Mashhad, Iran, 12-14 May. P: 2,4,5,6. http://5thsastech.khi.ac.ir/data1/Arc/1%20(55).pdf.
- Sadri M., Kavandi M., Jozepiri A., Teimour S. and Abbasi F. (2014)., Bionic architecture, forms and constructions., Research journal of recent sciences, 3(3), 93-98, ISSN 2277-2502, India. Available online at: www.isca.in.
- Taghizadeh K. and Bastanfard M. (2012)., The anatomy of a human body, a model to design smart high building., Science and Technology journal, 2(1), Tehran, Iran, 8-14. DOI: 10.5923/j.scit.20120201.02. http://journal.sapub.org/scit.
- haddad S., Obaid H. and Baerli R. (2008)., Plant physiology., Damascus University Press, Faculty of Agricultural Engineering, Department of Horticultural Science, Damascus, Syria. Available in Arabic on: http://damasuniv.edu.sy/ce/publications/.
- Al hakeem A. (2012)., Ninth lecture entitled anatomical structure of shoot., Studies Faculty of Humanities, Department of Biology, Salman bin Abdul-Aziz University, Riyadh. Available on: http://sciences.kau.edu.sa/Default.aspx?Site_ID=130&lng=EN.
- Kasem H. and Baboggian G. (2006)., Science of plant life (1), cell and morphology., Damascus University Press, Faculty of Science, Department of plant life, Damascus, Syria. Available in Arabic on: http://damasuniv.edu.sy/ce/publications/.
- Tsukaya H. (2005)., Leaf shape: genetic controls and environmental factors., The International Journal of Developmental Biology, 49, Bilbao, Spain. ISSN: 547-555. DOI: 10.1387/ijdb.041921ht. Available on http://www.ijdb.ehu.es/web/descarga/paper/041921ht.
- Park S. Nobel (2005)., Physicochemical and Environmental Plant physiology., Third edition, Academic Press, Los Angeles, California, p:5, eBook ISBN: 9780080455112.
- Hetherington A. (2001)., Guard cells Current biology., Science Direct Journal, 11, 15, Lancaster LA1 4YQ, UK. DOI: http://dx.doi.org/10.1016/S0960-9822(01)00358-X. www.sciencedirect.com.
- J. Carpenter K. (2005)., Stomatal architecture and evolution in basal angiosperms., American Journal of Botany, 92(10), California, USA. ISSN: 1595-1615. DOI: 10.3732/ajb.92.10.1595.