Session 1 - Montefiore
Session 1 - Montefiore
Session 1 - Montefiore
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
[15] Peuportier B. Life cycle assessment applied to the comparative evaluation of<br />
single family houses in the French context. Energ and Build 2001;33(5):443e50.<br />
[16] Thormark C. A low energy building in a life cycle - its embodied energy, energy<br />
need for operation and recycling potential. Build Environ 2002;37:429e35.<br />
[17] Scheuer C, Keoleian GA, Reppe P. Life cycle energy and environmental<br />
performance of a new university building: modeling challenges and design<br />
implications. Energ and Build 2003;35:1049e64.<br />
[18] Malmqvist T, Glaumann M, Scarpellini S, Zabalza I, Aranda A, Llera E, et al. Life<br />
cycle assessment in buildings: the ENSLIC simplified method and guidelines.<br />
Energy 2010;36(4):1e8.<br />
[19] Gerilla GP, Teknomo K, Hokao K. An environmental assessment of wood and<br />
steel reinforced concrete housing construction. Build Environ 2007;42:<br />
2778e84.<br />
[20] Huberman N, Pearlmutter D. A life-cycle energy analysis of building materials<br />
in the Negev desert. Energ and Build 2008;40:837e48.<br />
[21] Blengini GA. Life cycle of buildings, demolition and recycling potential: a case<br />
study in Turin, Italy. Build Environ 2009;44:319e30.<br />
[22] Marique AF, Reiter S. A method to evaluate the energy consumption of suburban<br />
neighbourhoods. HVAC&R Res, in press, doi:10.1080/10789669.2011.592103.<br />
[23] Blom I, Itard L, Meijer A. Environmental impact of building-related and userrelated<br />
energy consumption in dwellings. Build Environ 2011;46:1657e69.<br />
[24] Fay R, Treloar G, Iyer-Raniga U. Life-cycle energy analysis of buildings: a case<br />
study. Build Res Inf 2000;28(1):31e41.<br />
[25] Gustavsson L, Joelsson A. Life cycle primary energy analysis of residential<br />
buildings. Energ and Build 2010;42:210e20.<br />
[26] Xing S, Xu Z, Jun G. Inventory analysis of LCA on steel- and concreteconstruction<br />
office buildings. Energ and Build 2008;40:1188e93.<br />
[27] Blengini GA, Di Carlo T. The changing role of life cycle phases, subsystems and<br />
materials in the LCA of low energy buildings. Energ and Build 2010;42:<br />
869e80.<br />
[28] Sartori I, Hestness AG. Energy use in the life cycle of conventional and lowenergy<br />
buildings: a review article. Energ and Build 2007;40:249e57.<br />
[29] Wallhagen M, Glaumann M, Malmqvist T. Basic building life cycle calculations<br />
to ecrease contribution to climate change - case study on an office building in<br />
Sweden. Build Environ 2011;46(10):1863e71.<br />
[30] Börjesson P, Gustavsson L. Greenhouse gas balances in building construction:<br />
wood versus concrete from life-cylce and forest land-use perspectives. Energ<br />
Policy 2000;28:575e88.<br />
[31] Treloar G. Extracting embodied energy paths from input-output tables:<br />
towards an input-output-based hybrid energy analysis method. Econ Syst Res<br />
1997;9(4):375e91.<br />
[32] Lenzen, Treloar G. Embodied energy in buildings: wood versus concrete-reply<br />
to Börjesson and Gustavsson. Energ Policy 2002;30:249e55.<br />
[33] Peuportier B. Contribution to the Life Cycle Assessment of settlements, PhD<br />
thesis, Ecole des Mines de Paris; 2006.<br />
[34] Peuportier B, Kohler N. REGENER. European methodology for evaluation of<br />
environmental impact of buildingsdlife cycle assessment. REGENER Project,<br />
summary report, European Commission Directorate General XII for Science.<br />
Research and Development; 1997 [Program APAS].<br />
[35] Treloar G, Fay R, Love PED, Iyer-Raniga U. Analysing the life-cycle energy of an<br />
Australian residential building and its householders. Build Res. Inf. 2000;<br />
28(3):184e95.<br />
[36] Ortiz-Rodriguez O, Castells F, Sonnemann G. Life cycle assessment of two<br />
dwellings: one in Spain, a developed country, and one in Colombia, a country<br />
under development. Sci Total Environ 2010;408(12):2435e43.<br />
B. Rossi et al. / Building and Environment 51 (2012) 395e401 401<br />
[37] Andrade P. Structural assessment and optimization of the modular system of<br />
the student residential building in Luleå and Coimbra, Master thesis, Coimbra:<br />
Universidade de Coimbra (Portugal); 2010.<br />
[38] Burke PJ. Income, resources and electricity mix. Eng Econ 2010;32:616e26.<br />
[39] Hennicke P. Scenarios for a reobust policy mix: the final report of the German<br />
study commission on sustainable energy supply. Energ Policy 2004;32:<br />
1673e8.<br />
[40] Luickx PJ, Helsen LM, D’haeseleer WD. Influence of massive heat-pump<br />
introduction on the electricity-generation mix and the GHG effect: comparison<br />
between Belgium, France, Germany and The Netherlands. Renew Sustain<br />
Energ Rev 2008;12:2140e58.<br />
[41] Marrero G. Greenhouse gases emissions, growth and the energy mix in<br />
Europe. Energy Econ 2010;32:1356e63.<br />
[42] Foidart F, Oliver-Sola J, Gasol CM, Gabarell X, Rieradevall J. How important<br />
are current energy mix choices on future sustainability? Case study: Belgium<br />
and Spain-projections towards 2020-2030. Energ Policy 2010;38:<br />
5028e37.<br />
[43] ISO14041. Environmental Management - Life-cycle assessment - Goal and<br />
scope - Definition and inventory analysis. Geneva: International Organization<br />
for Standardization; 2000.<br />
[44] FprEN 15643-2. Sustainability of construction works - Assessment of buildings<br />
- Part 2: framework for the assessment of environmental performance.<br />
Brussels: European Committee for Standardization; 2010.<br />
[45] ARCELORMITTAL. Software AMECO, http://www.arcelormittal.com; 2010.<br />
[46] INTERNATIONAL IRON & STEEL INSTITUTE (IISI). Appendix 5 Application of the<br />
IISI LCI data to recycling scenarios, life-cycle inventory methodology report.<br />
Brussels: IISI; 2002.<br />
[47] Rossi B. Sustainable steel constructions - Life-cycle inventory, methods and<br />
applications. In: Proc. Sustainability Workshop. Brussels: university of Liège;<br />
2010.<br />
[48] METEOTEST, Meteonorm software, http://www.meteonorm.com.<br />
[49] SERVICE PUBLIC DE WALLONIE (SPW). Performance Energétique des Batîments<br />
(PEB), http://energie.wallonie.be; 2010.<br />
[50] Garcia de Campos Coaelho FM, Assessment of the life-cycle environmental<br />
performance of buildings: a case study Master thesis, Coimbra: Universidade<br />
de Coimbra, 2010.<br />
[51] ECOINVENT CENTER. EcoInvent 1996”, Dübendorf: Swiss Centre for life-cycle<br />
Inventories; 1996.<br />
[52] EURELECTRIC. Statistics and prospects for the European electricity sector<br />
(EURPROG 2005); 2005 [Brussels, Belgium].<br />
[53] Polster B, Peuportier B, Blanc-Sommeureux I, Diaz Pedregal P, Gobin C,<br />
Durand E. Evaluation of the environmental quality of buildings towards<br />
a more environmentally conscious design. Sol Energy 1996;57:219e30.<br />
[54] Heijungs R. Environmental life cycle assessment of products. Leiden: Centre of<br />
environmental science; 1992.<br />
[55] Popovici E, Peuportier B. Using life cycle assessment as decision support in the<br />
design of settlements. 21th Conference on Passive and Low Energy Architecture.<br />
The Netherlands: Eindhoven; 2004. Septembre 200419e22.<br />
[56] Thiers S, Peuportier B. Thermal and environmental assessment of a passive<br />
building equipped with an earth-to-air heat exchanger in France. Sol Energy<br />
2008;82:820e31.<br />
[57] Peuportier B. Validation of Comfie. Report CEC. Germany: University of<br />
Stuttgart I.T.W; 1989.<br />
[58] Peuportier B. Bancs d’essai de logiciels de simulation thermique; 2005.<br />
Proceedings Of Journée Thématique SFT-IBPSA.
Change language