ENVIRONMENTAL DAMAGE FROM WALL TECHNOLOGIES FOR RESIDENTIAL BUILDINGS IN ISRAEL

ABSTRACT Four wall technologies used for residential building in Israel (concrete, lightweight concrete block, autoclaved aerated block, and concrete block) were evaluated for their total environme...

[1]  M. Goedkoop,et al.  The Eco-indicator 99, A damage oriented method for Life Cycle Impact Assessment , 1999 .

[2]  Robert Fuller,et al.  THE IMPACT OF OCCUPANT BEHAVIOUR ON RESIDENTIAL GREENHOUSE GAS EMISSIONS REDUCTION , 2015 .

[3]  Celia M. Lombardi,et al.  LOPSIDED REASONING ON LOPSIDED TESTS AND MULTIPLE COMPARISONS , 2012 .

[4]  David Pearlmutter,et al.  A life-cycle energy analysis of building materials in the Negev desert , 2008 .

[5]  Svetlana Pushkar,et al.  Using Eco-Indicator 99 to Evaluate Building Technologies under Life Cycle Assessment Uncertainties , 2014 .

[6]  Martin Belusko,et al.  Minimising the life cycle energy of buildings: Review and analysis , 2014 .

[7]  Svetlana Pushkar Life Cycle Assessment of Flat Roof Technologies for Office Buildings in Israel , 2016 .

[8]  P. Van den Heede,et al.  Environmental impact and life cycle assessment (LCA) of traditional and ‘green’ concretes: Literature review and theoretical calculations , 2012 .

[9]  Svetlana Pushkar,et al.  Effects of different allocation approaches for modeling mineral additives in blended cements on environmental damage from five concrete mixtures in Israel , 2016 .

[10]  Francesco Castellani,et al.  Life Cycle Assessment of a passive house in a seismic temperate zone , 2013 .

[11]  Dorota Burchart-Korol,et al.  Life cycle assessment of steel production in Poland: a case study , 2013 .

[12]  Svetlana Pushkar,et al.  A methodology for design of environmentally optimal buildings by variable grouping , 2005 .

[13]  Adolf Acquaye,et al.  Operational vs. embodied emissions in buildings—A review of current trends , 2013 .