Exergetical Evaluation of Biobased Synthesis Pathways

Frenzel, Philipp; Hillerbrand, Rafaela; Pfennig, Andreas

doi:10.3390/polym6020327

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Exergetical Evaluation of Biobased Synthesis Pathways

Frenzel, Philipp; Hillerbrand, Rafaela; Pfennig, Andreas

2014 • In Polymers, 6 (2), p. 327-345

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/178541

DOI
10.3390/polym6020327

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Disciplines :

Chemical engineering

Author, co-author :

Frenzel, Philipp

Hillerbrand, Rafaela

Pfennig, Andreas ; Technische Universität Graz - TU Graz > Institut für Chemische Verfahrenstechnik und Umwelttechnik

Language :

English

Title :

Exergetical Evaluation of Biobased Synthesis Pathways

Publication date :

2014

Journal title :

Polymers

ISSN :

2073-4360

Publisher :

MDPI Open Access Publishing, Switzerland

Volume :

Issue :

Pages :

327-345

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

http://www.mdpi.com/2073-4360/6/2/327/htm

Available on ORBi :

since 23 February 2015

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Bibliography

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Weusthuis, R.A., Aarts, J.M., Sanders, J.P. From biofuel to bioproduct: Is bioethanol a suitable fermentation feedstock for synthesis of bulk chemicals? Biofuels Bioprod. Bioref. 2011, 5, 486-494.
Bozell, J.J., Petersen, G.R. Technology development for the production of biobased products from biorefinery carbohydrates-The US Department of Energy's "Top 10" revisited. Green Chem. 2010, 12, 539-554.
Cherubini, F., Strømman, A.H. Chemicals from lignocellulosic biomass: Opportunities, perspectives, and potential of biorefinery systems. Biofuels Bioprod. Bioref. 2011, 5, 548-561.
Haveren, J.V., Scott, E.L., Sanders, J. Bulk chemicals from biomass. Biofuels Bioprod. Bioref. 2008, 2, 41-57.
Corma, A., Iborra, S., Velty, A. Chemical routes for the transformation of biomass into chemicals. Chem. Rev. 2007, 107, 2411-2502.
Ragauskas, A.J., Williams, C.K., Davison, B.H., Britovsek, G., Cairney, J., Eckert, C.A., William J. Frederick, J., Hallett, J.P., Leak, D.J., et al. The path forward for biofuels and biomaterials. Science 2006, 311, 484-489.
Werpy, T., Petersen, G. Top Value Added Chemicals from Biomass; U.S. Department of Energy: Oak Ridge, TN, USA, 2004.
Bender, M.H. Potential conservation of biomass in the production of synthetic organics. Resour. Conserv. Recycl. 2000, 30, 49-58.
Tsatsaronis, G. Recent developments in exergy analysis and exergoeconomics. Int. J. Exergy 2008, 5, 489-499.
Munsch, M., Mohr, T., Futterer, E. Exergetische analyse und bewertung verfahrenstechnischer prozesse mit einem flow-sheeting-programm. Chem. Ing. Tech. 1990, 62, 995-1002.
Szargut J., Morris, D., Steward, F. Exergy Analysis of Thermal, Chemical and Metallurgical Processes; Springer: New York, NY, USA, 1989.
Kim, S., Overcash, M. Allocation procedure in multi-output process: An illustration of ISO 14041. Int. J. Life. Cycle Assess. 2000, 5, 221-228.
Umweltmanagement-Ökobilanz-Grundsätze und Rahmenbedingungen; Beuth: Berlin, Germany, November 2009; DIN EN ISO 14040:2006
Umweltmanagement-Ökobilanz-Anforderungen und Anleitungen; Beuth: Berlin, Germany, October 2006; DIN EN ISO 14044:2006
Ekvall, T., Finnveden, G. Allocation in ISO 14041-A critical review. J. Clean. Prod. 2001, 9, 197-208.
Frischknecht, R. Allocation in life cycle inventory analysis for joint production. Int. J. Life Cycle Assess. 2000, 5, 85-95.
Heijungs, R., Frischknecht, R. A special view on the nature of the allocation problem. Int. J. Life Cycle Assess. 1998, 3, 321-332.
Marvuglia, A., Cellura, M., Hijungs, R. Toward a solution of allocation in life cycle inventories: The use of least-squares techniques. Int. J. Life Cycle Assess. 2010, 15, 1020-1040.
Stoffstromanalysen in Ökobilanzen und Öko-Audits; Schmidt, M., Schorb, A., Eds., Springer: Berlin, Germany, 1995.
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