Environmental Engineering Reference
In-Depth Information
Bronsema B (2013a) Earth, wind & fire—natural air conditioning. PhD Thesis, Delft University
of Technology
Bronsema B (2013b) Earth, wind & fire—natural airconditioning [1] research objectives and
methods. In: Proceedings of CLIMA 2013—the 11th REHVA World congress. Prague, Czech
Republic
Brownell B (2010) Transmaterial 3: a catalog of materials that redefine our physical environment.
Princeton Architectural Press, New York
Chalupnik MJ, Wynn DC, Clarkson PJ (2013) Comparison of Ilities for protection against
uncertainty in system design. J Eng Des 24(12):814-829. doi:
10.1080/09544828.2013.851783
Chen PY, McKitrrick J, Meyers MA (2012) Biological materials: functional adaptations and
bioinspired designs. Prog Mater Sci 57(8):1492-1704
Dahl R (2013) Cooling concepts: alternatives to air conditioning for a warm World. Environ
Health Perspect 121(1):18-25
Dawson C, Vincent JFV, Rocca AM (1997) How pine cones open. Nature 390(1997):668
De Wilde P, Tian W (2010) Predicting the performance of an office under climate change: a study
of metrics, sensitivity and zonal resolution. Energ Build 42(10):1674-1684. doi:
10.1016/j.
Dosier GK (2011) Methods for making construction material using enzyme producing bacteria.
US Patent: US 20110262640 A1
Drake S (2007) The third skin: architecture, technology & environment. UNSW Press, Sydney
Ednie-Brown P (2013) bioMASON and the speculative engagements of biotechnical architecture.
Architectural Des 83(1):84-91. doi:
10.1002/ad.1529
Evans Ogden LJ (2014) Does green building come up short in considering biodiversity?: focus on
a growing concern. Biosci 64(2):83-89
Ferguson S, Siddiqi A, Lewis K, De Weck O (2007) Flexible and reconfigurable systems:
nomenclature and review. In: Proceedings of ASME 2007—international design engineering
technical conferences and computers and information in engineering conference, Las Vegas
Fernandez ML, Rubio R, Gonzalez SM (2013) Architectural envelopes that interact with their
environment. In: Proceedings of new concepts in smart cities: fostering public and private
alliances (SmartMILE), 2013
Fisk WJ, Rosenfeld AH (1997) Estimates of improved productivity and health from better indoor
environments. Indoor Air 7:158-172
Foruzanmehr
A,
Vellinga
M
(2011)
Vernacular
architecture:
questions
of
comfort
and
practicability. Build Res Inf 39(3):274-285. doi:
10.1080/09613218.2011.562368
Foster JM (2011) A reward for bird-friendly buildings. NY times blog: green—energy, the
environment and the bottom Line. Accessed 2 Nov 2011
Gamage A, Hyde R (2012) A model based on biomimicry to enhance ecologically sustainable
design. Architectural Sci Rev 55(3):224-235. doi:
10.1080/00038628.2012.709406
Geiger J (2010) The living: surface tensions. Architectural Des 80(3):60-65
Gosztonyi S (2011) BioSkin—Bionische Fassaden: Potenziale Aus Der Bionik Für Adaptive
Energieeffiziente Fassaden Der Zukunft. In: Proceedings of the 17th international Holzbau-
forum, pp 1-14
Gruber P (2011a) Biomimetics in architecture [Architekturbionik]. In: Gruber P, Bruckner D,
Hellmich C, Schmiedmayer HB, Stachelberger H, Gebeshuber IC (eds) Biomimetics—
materials,
structures
and
processes,
Berlin,
Heidelberg,
pp
127-148.
doi:
10.1007/
Gruber P (2011b) Biomimetics in architecture—architecture of life and buildings. Springer,
Vienna
Hatton BD, Wheeldon I, Hancock MJ, Kolle M, Aizenberg J, Ingber DB (2013) An artificial
vasculature
for
adaptive
thermal
control
of
windows.
Solar
Energ
Mater
Solar
Cells
117(October):429-436. doi:
10.1016/j.solmat.2013.06.027
Hoes P, Trcka M, Hensen JLM, Hoekstra Bonnema B (2011) Investigating the potential of a
novel low-energy house concept with hybrid adaptable thermal storage. Energ Conver
Manage 52(6):2442-2447
Search WWH ::
Custom Search