Abstract
Biomass has the potential to replace a wide variety of fossil-based products within the energy sector: heat, power, fuels, materials, and chemicals. It is considered sustainable and renewable, yet in all the potential applications for biomass, direct and indirect fossil derived inputs are required. Investigating the best possible utilization options for biomass necessitates life-cycle thinking to determine the amount of fossil fuel energy replaced in each system. The methodology and significance of using an energetic and exergetic cradle-to-factory gate assessment is described for common biomass crop production routes and biorefinery layouts using Dutch sugar beet as an expletory crop. Preliminary results indicate that the optimal utilization for biomass is for chemical biorefinery concepts.
Notes
BiogaS International. 2009. Composition of biogas. BiogaS International. http://www.biogas.nl/samenstelling.
Boustead 2007. Boustead Model 5.0. Life-cycle inventory. D. I. B. BCL. West Sussex.
Brundtland Commision. 1987. Our Common Future, Report of the World Commission on Environment and Development. Oxford, UK: WCED, Annex to General Assembly. A/42/427.
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