Bibliography
- Mohan D, Pittman CU, Steele PH. Pyrolysis of wood/biomass for bio-oil: a critical review. Energy Fuels20,848–889 (2006).
- Goyal HB, Seal D, Saxena RC. Biofuels from thermochemical conversion of renewable resources: a review. Renew. Sustain. Energy. Rev.12,504–517 (2008)
- Czernik S, Bridgewater AV. Overview of applications of biomass fast pyrolysis oil. Energy Fuels18,590–598 (2004).
- Uzun BB, Putun AE, Putun E. Fast pyrolysis of soybean cake: product yields and compositions. Bioresource Technol.97,569–576 (2006).
- Rocha JD, Luengo CA, Snape CE. The scope for generating bio-oils with relatively low oxygen contents via hydropyrolysis. Organ. Geochem.30,1527–1534 (1999).
- Senol OI, Viljava TR, Krause AOI. Hydrodeoxygenation of methyl esters on sulphided NiMo/γ-Al2O3 and CoMo/γ-Al2O3 catalysts. Catal. Today100,331–335 (2005).
- Furimsky E. Catalytic hydrodeoxygenation. Appl. Catal. A Gen.199,147–190 (2000).
- Huber GW, Iborra S, Corma A. Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering. Chem. Rev.106,4044–4098 (2006).
- Tripathi MM, Hassan EBM, Yueh FY et al. Reflection-absorption-based near infrared spectroscopy for predicting water content in bio-oil. Sens. Actuators B136,20–25 (2009).
- Pindoria RV, Megaritis A, Herrod AA et al. A two-stage fixed-bed reactor for direct hydrotreatment of volatiles from the hydropy-rolysis of biomass: effect of catalyst temperature, pressure and catalyst ageing time on product characteristics. Fuel77,1715–1726 (1998).
- Snare M, Kubickova I, Maki-Arvela P et al. Heterogeneous catalytic deoxygenation of stearic acid for production of biodiesel. Ind. Eng. Chem. Res.45,5708–5715 (2006).
- Argyropoulos DS. Quantitative 31P-NMR analysis of lignins, a new tool for the lignin chemist. J. Wood Chem. Technol.14,45–63 (1994).
- Zawadzki M, Ragauskas AJ. N-hydroxy compounds as new internal standards for the 31P-NMR determination of lignin hydroxy functional groups. Holzforschung55,283–285 (2001).
- Pu Y, Ragauskas AJ. Structural analysis of acetylated hardwood lignins and their photoyellowing properties. Can. J. Chem.83(12),2132–2139 (2005).
- Chakar FS, Ragauskas AJ. The effects of oxidative alkaline extraction stages after laccaseHBT and laccaseNHAA treatments – an NMR study of residual lignins. J. Wood Chem. Technol.20(2),169–184 (2000).
- Nagy M, Foston M, Ragauskas AJ. Rapid quantitative analytical tool for characterizing the preparation of biodiesel. J. Phys. Chem. A114(11),3883–3887 (2010).
- Fu Q, Argyropoulos DS, Tilotta DC et al. Understanding the pyrolysis of CCA-treated wood: Part I. Effect of metal ions. J. Anal. Appl. Pyrolysis81,60–64 (2008).
- Gellerstedt G, Li J, Eide I et al. Chemical structures present in biofuel obtained from lignin. Energy Fuels22,4240–4244 (2008).
- Wroblewski AE, Reinartz K, Verkade JG. Moisture determination of argonne premium coal extracts by 31P-NMR spectroscopy. Energy Fuels5,786–791 (1991).
- Hatzakis E, Dais P. Determination of water content in olive oil by 31P-NMR spectroscopy. J. Agric. Food Chem.56,1866–1872 (2008).
- Guerra A, Mendonc R¸ Ferraz A et al. Structural characterization of lignin during Pinus taeda wood treatment with Ceriporiopsis subvermispora. Appl. Environ. Microbiol.70(7),4073–4078 (2004).
- Mayor JR, Williams A. Design, development and characterization of a micro-reactor for fast pyrolysis of biomass feedstocks. Presented at: The Engineering Systems Design and Analysis Conference. Haifa, Israel 7–9 July 2008.
- Samuel R, Pu Y, Raman B et al. Structural characterization and comparison of switchgrass ball-milled lignin before and after dilute acid pretreatment. Appl. Biochem. Biotechnol.162(1),62–74 (2010).
- Wroblewski AE, Lensink C, Markuszewski R et al.31P-NMR spectroscopic analysis of coal pyrolysis condensates and extracts for heteroatom functionalities possessing labile hydrogen. Energy Fuels2,765–774 (1988).
- Jiang Z-H, Argyropoulos DS, Granata A. Correlation analysis of 31P-NMR chemical shifts with substituent effects of phenols. Magn. Reson. Chem.33,375–382 (1995).
- Fu Q, Argyropoulos DS, Tilotta DC et al. Products and functional group distributions in pyrolysis oil of chromated copper arsenate (CCA)-treated wood, as elucidated by gas chromatography and a novel 31P-NMR-based method. Ind. Eng. Chem. Res.46,5258–5264 (2007).
- Rutkowski P, Kubacki A. Influence of polystyrene addition to cellulose on chemical structure and properties of bio-oil obtained during pyrolysis. Energy Conversion Management47,716–731 (2006).
- Li J, Henriksson G, Gellerstedt G. Carbohydrate reactions during high-temperature steam treatment of aspen wood. Appl. Biochem. Biotechnol.125,175–188 (2005).