References
- Hake J-F, Fischer W, Venghaus S, et al. The German Energiewende - History and status quo. Energy. 2015; in press.
- Melin K, Kohl T, Koskinen J, et al. Performance of biofuel processes utilising separate lignin and carbohydrate processing. Bioresour. Techn. 2015; (accepted for publication)
- Ferdous D, Dalai AK, Bej SK, et al. Production of high and medium heating value gas via Steam Gasification of Lignins in Fixed-Bed Reactors. Can J Chem Eng. 2001;79:913–922.
- Yu H, Zhang Z, Li Z, et al. Characteristics of tar formation during cellulose, hemicellulose and lignin gasification. Fuel. 2014;118:250–256.
- Li WZ, Yan YJ. et al. Preparation of Hydrogen via Catalytic Gasification of Residues from biomass hydrolysis with a Novel High Strength Catalyst. Energ Fuel. 2008;22:1233–1238.
- Yin S, Mehrotra AK, Tan Z. Direct formation of gasoline hydrocarbons from cellulose by hydrothermal conversion with in situ hydrogen. Biomass and Bioenerg. 2012;47:228–239.
- Palkovits R, Tajvidi K, Ruppertc AM, et al. Heteropoly acids as efficient acid catalysts in the one-step conversion of cellulose to sugar alcohols. Chem Commun. 2010;47:576–578.
- Kirilin AV, Tokarev AV, Murzina EV, et al. Reaction Products and Transformations of Intermediates in the Aqueous-Phase Reforming of Sorbitol. ChemSusChem. 2013;3:708–718.
- Li N, Tompsett GA, Zhang T, et al. Renewable gasoline from aqueous phase hydrodeoxygenation of aqueous sugar solutions prepared by hydrolysis of maple wood. Green Chem. 2011;13:91–101.
- Zhang Q, Wang T, Xu Y, et al. Production of liquid alkanes by controlling reactivity of sorbitol hydrogenation with a Ni/HZSM-5 catalyst in water. Energ Convers Manage. 2014;77:262–268.
- Cragnell J, Green K, Holmberg A, et al. Evaluation of processes for conversion of biomass-to-fuels, using biochemical versus thermo-chemical processes. Lund Institute of Technology; 2009. Available from: http://www.chemeng.lth.se/ket050/Finalreport2009/Statoil.pdf. Accesses June 1, 2015.
- Wei Y, Lei H, Liu Y et al. Renewable Hydrogen Produced from Different Renewable Feedstock by Aqueous-Phase Reforming Process. J Sust Bioenerg Syst. 2014;4:113–127.
- Nurmi J. Characteristics and storage of whole-tree for energy. Dissertation. The Forest Finnish Research Institute Research Papers. 2000;458:42.
- Sassner P, Zacchi G. Integration options for high energy efficiency and improved economics in a wood-to-ethanol process. Biotech Biofuel. 2008;4:1–4 .
- Sonderegger M, Jeppsson M, Larsson C, et al. Fermentation Performance of Engineered and Evolved Xylose-Fermenting Saccharomyces cerevisiae Strains. Biotech and Bioeng. 2004;87:90–98
- Holladay JE, White JF, Bozel JJ, et al. Top Value-Added Chemicals from Biomass, Volume II—Results of Screening for Potential Candidates from Biorefinery Lignin, PNNL-16983. United States Department of Energy; 2007 p. 18 Available from: http://www.pnl.gov/main/publications/external/technical_reports/PNNL-16983.pdf. Accessed June 1, 2015.
- Fagernäs L, Brammer J, Wilén C, et al. Drying of biomass for second generation synfuel production. Biomass Bioenerg. 2010;34:1267–1277.
- BioGrace BIOGRACE Harmonized Calculation of Green House Gas emissions in Europe 2015. Available from: www.biograce.net/. Accessed June 1, 2015.
- Hannula I, Kurkela E. Liquid transportation fuels via large-scale fluidised bed gasification of lignocellulosic biomass. VTT Technology 91. Espoo: Technical Research Centre of Finland VTT; 2013. Available from: www.vtt.fi/inf/pdf/technology/2013/T91.pdf. Accessed June 1, 2015.
- Rehling B, Hofbauer H, Rauch R, et al. BioSNG—process simulation and comparison with first results from a 1-MW demonstration plant. Biomass Conv Bioref. 2011;1:111–119.
- Melin JK, Hurme M. Evaluation of Biomass Upgrading Routes to Fuels and Chemical, Cell Chem Technol. 2010;44:117–137
- Laser M, Jin H, Jayaward K, et al. 2009, Projected mature technology scenarios for conversion of cellulosic biomass to ethanol cellulosic biomass to ethanol with coproduction thermochemical fuels, power and/or animal feed protein. Biofuel Bioprod Bior. 2009;3231–246
- Tomani P. The lignoboost process. Cell Chem Technol. 2010;44:53–58.