Civil Engineering Reference
In-Depth Information
D. Prowler, Whole building design (2012),
http://www.wbdg.org/wbdg_approach.php
.
Accessed
27 Dec 2013
T. Ramesha, R. Prakasha, K.K. Shukla, Life cycle energy analysis of buildings: an overview.
Energy Build.
42
, 1592-1600 (2010)
B. Rossi, A.F. Marique, M. Glaumann, S. Reiter, Life-cycle assessment of residential buildings in
three different European locations, basic tool. Build. Environ.
51
, 395-401 (2012)
D.B. Rowe, Green roofs as a means of pollution abatement. Environ. Pollut.
159
, 2100-2110
(2011)
R. Sacks, I. Kaner, C.M. Eastman, Y.S. Jeong, The rosewood experiment—building information
modeling and interoperability for architectural precast facades. Autom. Constr.
19
, 419-432
(2010)
M.D. Saghafi, Z.S.H. Teshnizi, Recycling value of building materials in building assessment sys-
tems. Energy Build.
43
, 3181-3188 (2011)
I. Sartori, A.G. Hestnes, Energy use in the life cycle of conventional and low-energy buildings: a
review article. Energy Build.
39
, 249-257 (2007)
A. Sharma, A. Saxena, M. Sethi et al., Life cycle assessment of buildings: a review. Renew.
Sustain. Energy Rev.
15
, 871-875 (2011)
V. Singh, N. Gu, X. Wang, A theoretical framework of a BIM-based multi-disciplinary collabora-
tion platform. Automation in Construction
20
, 134-144 (2011)
B. Succar, Building information modelling framework: a research and delivery foundation for
industry stakeholders. Autom. Constr.
18
, 357-375 (2009)
T. Susca, Enhancement of life cycle assessment (LCA) methodology to include the effect of sur-
face albedo on climate change: comparing black and white roofs. Environ. Pollut.
163
, 48-54
(2009)
T. Susca, S.R. Gaffin, G.R. Dell'Osso, Positive effects of vegetation: urban heat island and green
roofs. Environ. Pollut.
159
, 2119-2126 (2011)
C. Thormark, A low energy building in a life cycle—its embodied energy, energy need for opera-
tion and recycling potential. Build. Environ.
37
, 429-435 (2002)
C. Thormark, The effect of material choice on the total energy need and recycling potential of a
building. Build. Environ.
41
, 1019-1026 (2006)
W.H. Tsai, S.J. Lin, J.Y. Liu, W.R. Lin, K.C. Lee, Incorporating life cycle assessments into build-
ing project decision-making: an energy consumption and CO
2
emission perspective. Energy
36
, 3022-3029 (2011)
G. Verbeeck, H. Hens, Life cycle inventory of buildings: A calculation method. Build. Environ.
45
, 1037-1041 (2010)
N. Villa, F. Pittau, E. De Angelis et al., Wood products for the Italian construction industry—an
LCA-based sustainability evaluation. in
Proceeding of WCTE 2012—World Conference on
Timber Engineering
, Auckland, 15-19, July 2012
Water Footprint Network (2008).
http://www.waterfootprint.org
. Accessed 27 Dec 2013
I.Z. Bribián, A. Aranda Usón, S. Scarpellini, Life cycle assessment in buildings: state-of-the-art
and simplified LCA methodology as a complement for building certification. Build. Environ.
44
, 2510-2520 (2009)
I.Z. Bribián, A. Valero Capilla, A. Aranda Usón, Life cycle assessment of building materials:
Comparative analysis of energy and environmental impacts and evaluation of the eco-effi-
ciency improvement potential. Build. Environ.
46
, 1133-1140 (2011)
