Comparative Life Cycle Assessment

Kemppainen, A.J. Shonnard, D.R. (2005) Comparative Life-Cycle Assessments for Biomass-to-Ethanol Production from Different Regional Feedstocks. Biotechnology Progress, 21(4), 1075-1084. [Pg.269]

Fleck B, Huot M. Comparative life-cycle assessment of a small wind turbine for residential off-grid use. Renewable Energy. 2009 34 (12) 2688-2696. DOL10. 1016/j. renene. 2009. 06. 016. [Pg.52]

Williams AG, Pell E, Webb J, Tribe E, Evans D, Moorhouse E, Watkiss P. Comparative Life Cycle Assessment of Food Commodities Procured for UK Consumption through a Diversity of Supply Chains. Cranfield Cranfield University, 2008 78 p. [Pg.281]

Saiz, S., Kennedy, C., Bass, B. and Pressnail, K. (2006) Comparative life cycle assessment of standard and green roofs. Environ. Sci. Technol., 40, 4312. [Pg.36]

Gaharrell, X., Font, M., Vicent, T., Caminal, G., Sarra, M., Blanquez, P., 2012. A comparative life cycle assessment of two treatment technologies for the Grey Lanaset G textile dye biodegradation by Trametes versicolor and granular activated carbon adsorption. The International Journal of Life Cycle Assessment 17 (5), 613—624. [Pg.189]

Nielson, A.M., Nielson, P.H., 2009. Comparative life cycle assessment of the elemental T-shirt produced with biotechnology and a conventional T-shirt produced with conventional technology. Novozymes. [Pg.215]

Schmidt, A.C., Jensen, A.A., Clausen, A.U., Kamstrup, O., Postlethwaite, D., 2004. A comparative life cycle assessment of building insulation products made of stone wool, paper wool and flax. The International Journal of Life Cycle Assessment 9, 53-66. [Pg.253]

Comparative life cycle assessment of natural and man-made textiles... [Pg.275]

Gurieff, N. and Lant, P. (2007) Comparative life cycle assessment and financial analysis of mixed culture polyhydroxyalkanoate production. Eioresour. Technol, 98 (17), 3393-3403. [Pg.214]

Prasara AJ, Grant T. Comparative life cycle assessment of uses of rice husk for energy purposes. Int J Life Cycle Assess 2011 16(6) 493—502. [Pg.351]

Gonzalez-Garcfa, S., Moreira, M. T., Feijoo, G., Murphy, R. J. (2012). Comparative life cycle assessment of ethanol production from fast-growing wood crops (black locust, eucalyptus and poplar). Biomass and Bioenergy, 39, 378—388. [Pg.337]

Stephens RD, Williams RE, Keoleian GA, Spatari S, Beal R. Comparative life cycle assessment of plastic and steel vehicle fuel tanks. Proceedings of the 1998 Total Life Cycle Conference. Warrendale SAE International 1998. [Pg.672]

Ceuterick, D. De Nocker, L. Spirinckx, C. Comparative Life Cycle Assessment of Biodiesel and Fossil Diesel Fuel 2000. [Pg.252]

The EAGM study entitled Comparative Life Cycle Assessment of Geosynthetics versus Conventional Construction Materials (Stucki et al., 2011) provided comprehensive qualitative and quantitative information about the environmental performance of commonly applied construction materials (ie, concrete) versus geosynthetics. It compared geosynthetic solutions with conventional (traditional) solutions using eight environmental impact indicators ... [Pg.578]

Stucki, M., Biisser, S., Itten, R., Frischknecht, R., Wallbaum, H., 2011. Comparative life Cycle Assessment of Geosynthetics versus Conventional Construction Materials. European Association of Geosynthetic Manufacturers (EAGM), Switzerland. [Pg.596]

Baitz, M., Binder, M., Degen, W., Deimhng, S., Krinke, S., Rudloff, M., September 2004. Comparative Life Cycle Assessment for SunDiesel (Choren Process) and Conventional Diesel Fuel. Executive Summary of Corporation report by order of VW and Daimler Chrysler. [Pg.588]

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