Civil Engineering Reference
In-Depth Information
References
Ardente F, Beccali M, Cellura M, Mistretta M (2008) Building energy performance: a LCA case
study of kenaf fibres insulation board. Energy Build 40:1-10
Ardente F, Cellura M, Lo Brano V, Mistretta M (2010) LCA-driven selection of industrial
ecologicy strategies. Integr Environ Assess Manage 6:52-60
Ardente F, Beccali M, Cellura M, Mistretta M (2011) Energy and environmental benefits in
public buildings as a result of retrofit actions. Renew Energy Sustain Rev 15:460-470
Beccali G, Cellura M, Mistretta M (2001) Managing municipal solid waste: energetic and
environmental comparison among different management options. Int J Life Cycle Assess
6(4):243-249
Beccali M, Cellura M, Longo S, Nocke B, Finocchiaro P (2011) LCA of a solar heating and
cooling
system
equipped
with
a
small
water-ammonia
absorption
chiller.
Sol
Energy
86:1491-1503
Blengini GA, Di Carlo T (2010) The changing role of life cycle phases, subsystems and materials
in the LCA of low energy buildings. Energy Build 42:869-880
Cellura M, Lo Brano V, Mistretta M, Orioli A, (2010) To assess the validity of the transfer
function method: a neural model for the optimal choice of conduction transfer function.
ASHRAE Trans Part 2:585-596
Chen TY, Burnett J, Chau CK (2001) Analysis of embodied energy use in the residential building
of Hong Kong. Energy 26:323-340
Cole RJ, Kernan PC (1996) Life cycle energy use in office buildings. Build Environ 31:307-317
Directive 2010/31/EU of the European Parliament and of the Council of 19 May 2010 on the
energy performance of buildings (recast)
Dixit MN, Fernández-Solís JL, Lavy S, Culp CH (2010) Identification of parameters for
embodied energy measurement: a literature review. Energy Build 42:1238-1247
Eicker U (2012) Policity-energy networks in sustainable cities. Stuttgart, ISBN 978-3-7828-
4051-4
Fay R, Treolar G, Iyer-Raniga U (2000) Life-cycle energy analysis of buildings: a case study.
Build Res Inf 28:31-41
Frischknecht R, Jungbluth N, Althaus HJ, Doka G,. Dones R, Heck T, Hellweg S, Hischier R,
Nemecek T,. Rebitzer G, Spielmann M, 2007. Overview and methodology. ecoinvent Report
No. 1, ver.2.0, Swiss Centre for Life Cycle Inventories. Dübendorf (CH)
Lo Mastro F, Mistretta M. (2004) Cogeneration from thermal treatment of selected municipal
solid wastes. A stechiometric model building for the case study on Palermo. Waste Manage
24(3):309-317
Nemry F, Uihlein A (2008) Environmental improvement potentials of residential buildings.
European Commission Joint Research Centre, Institute for Prospective Technological Studies
Ortiz O, Bonnet C, Bruno JC, Castells F (2009) Sustainability based on LCM of residential
dwellings: a case study in Catalonia, Spain. Build Environ 44:584-594
PRè-Product Ecology Consultants. SimaPro7.2, Environmental Database 2010. Amersfoort, The
Netherlands
Suzuki M, Oka T (1998) Estimation of life cycle energy consumption and CO
2
emission in office
buildings in Japan. Energy Build 28:33-41
The International EPD Cooperation (2008) General programme instructions for environmental
product declarations, EPD. Version 1.0
UNI EN ISO 14040 (2006) Environmental management—life cycle assessment—principles and
framework, International organisation for standardisation, July.Brown B, Aaron M (2001)
Voss K, Musall E, Lichtmeß M (2011) From low energy to net zero energy building: status and
perspecives. J Green Build 6:46-57
Zimmermann M, Althaus HJ, Haas A, (2005) Benchmarks for sustainable construction. A
contribution to develop a standard. Energy Build 35:1147-1157
