Page 243 - Materials Chemistry, Second Edition
P. 243
230 LIFE CYCLE ASSESSMENT HANDBOOK
is a necessary condition of sustainability, and they must be accounted for in the
analysis and design of sustainable processes. As concerns about the sustain-
ability of products continue to increase, evaluating products and processes to
minimize environmental impact will be more valuable in addressing govern-
mental and consumer concerns.
References
Benyus, J.M. (1997). Biomimicry: Innovation inspired by nature. New York: Morrow.
Ultiati, S. (2004). "Energy quality, emergy, and transformity: H. T. Odum's contributions to
quantifying and understanding systems/' Ecological Modelling, 201-213.
Chertow, M. R. (2007). "'Uncovering' Industrial Symbiosis." Journal of Industrial Ecology, 11 (1),
11-30.
Dzioubinski, O., & Chipman, R. (1999). Trends in Consumption and Production: Household Energy
Consuption. United Nations.
Forward, G., & Mangan, A. (1999). "By-product synergy." The Bridge, 29 (1), 12-15.
Gutowski, T. G., Sekulic, D.R, & Bakshi, B.R. (2009). "Preliminary Thoughts on the Application
of Thermodynamics to the Development of Sustainability Criteria." Proc. IEEE-ISSST.
Phoenix: IEEE.
Halpern, C.B., Frenzen, P.M., Means, J.E., & Franklin, J.F. (1990). "Plant succession in areas of
scorched and blown-down forest after the 1980 eruption of Mount St. Helens, Washington."
Journal of Vegetation Science, 1 (2), 181-194.
Hendrickson, CT., Lave, L.B., & Matthews, H.S. (2006). Environmental Life Cycle Assessment of
Goods and Services. Washington DC: REF Press.
Huesemann, M.H. (2003). "The limits of technological solutions to sustainable development."
Clean Technologies and Environmental Policy, 5 (1), 21-34.
Huijbregts, M.A., Norris, G., Bretz, R., Ciroth, A., Maurice, B., Von Bahr, B., et al. (2001).
"Framework for Modelling Data Uncertainty in Life Cycle Inventories." International Journal
of Life Cycle Assessment, 127-132.
Jelinski, L.W., Graedel, T.E., Laudise, R.A., McCall, D.W., & Patel, C. K. (1992). "Industrial ecol-
ogy: concepts and approaches." Proceedings of the National Academy of Sciences of the United
States of America, 89 (3), 793-797.
Lawrence Berkeley National Laboratory, (n.d.). GenOpt: Generic Optimization Program, v3.
Millenium Ecosystem Assessment Board. (2005, March). Living Beyond Our Means: Natural Assets
and Human Well-being. Retrieved July 13, 2011, from Millenium Ecosystem Assessment:
http://www.maweb.org/documents/document.429.aspx.pdf
Mitsch, W.J., & Jorgensen, S. E. (2004). Ecological engineering and ecosystem restoration. New York:
Wiley.
Nemerow, N.L. (1995). Zero Pollution for Industry: Waste Minimization Through Industrial Complexes.
New York: Wiley-Interscience.
Nowak, DJ., Crane, D.E., & Stevens, J.C. (2006). "Air pollution removal by urban trees and
shrubs in the United States." Urban Forestry and Urban Greening, 4 (3-4), 115-123.
Realff, M.J. (2006). "Environmentally Benign Design and Manufacturing (EBDM): Future
Directions Presentation." The NSF Symposium on Environmentally Benign Design and
Manufacturing for Sustainable Economic Competitiveness. St. Louis: NSF.
Schulze, P. (1996). Engineering Within Ecological Constraints. Washington: National Academies
Press.
Scientific Applications International Corporation. (2006, May). Life Cycle Assessment: Principles
and Practice. Retrieved July 15, 2011, from United States Environmental Protection Agency:
http://www.epa.gov/nrmrl/lcaccess/pdfs/600r06060.pdf
Singh, M. (2007). Soil Organic Carbon Pools in Turf grass Systems of Ohio. Columbus: The Ohio State
University.
