Characterization of Phase Separation and Upgrading of Hardwood Derived Bio-oil using Alcoholic Solvents
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Diebold J.P., 2000. A review of the chemical and physical mechanisms of the storage stability of fast pyrolysis bio-oils. NREL/SR-570-27613. National Renewable Energy Laboratory, Colorado.
Diebold, J.P. and S. Czernik. 1997. Additives to lower and stabilize the viscosity of pyrolysis oil during storage. Energy & Fuels 1997 11: 1081-1091.
Oasmaa A. and E.Kuoppala. 2003. Fast pyrolysis of forestry residue. 3. Storage stability of liquid fuel. Energy & Fuels 2003 17: 1075-1084.
Czernik S., Johnson D.K., and Black S., 1994. Stability of wood fast pyrolysis oil. Biomass and Bioenergy 7(1-6): 187-192.
Oasmaa A. and S. Czernik. 1999. Fuel oil quality of biomass pyrolysis oils- state of the art for the end users. Energy & Fuels 1999 13: 914-921.
Demirbas A., 2007. The influence of temperature on the yield of compounds existing in bio-oils obtained from biomass samples via pyrolysis. Fuel Processing Technology 88(2007): 591-597.
Batts B.D. and A.Z. Fathoni. 1991. A literature review on fuel stability with particular emphasis on diesel oil. Energy & Fuels 1991 5: 2-21.
Vispute T., 2011. Pyrolysis oils: Characterization, stability analysis and catalytic upgrading to fuels and chemicals. Open access dissertation, paper 349, University of Massachusetts, Amherst. Retrieved from the World Wide Web: http://scholarworks.umass.edu/open_access_dissertations/349
Kim T.S., Kim J.Y., Kim K.H., Lee S. and Choi D., 2012. The effect of storage duration on bio-oil properties. Journal of Analytical and Applied Pyrolysis 95(2012): 118-125.
Oasmaa A., Elliott D.C., and Korhonen J., 2010. Acidity of biomass fast pyrolysis bio-oil. Energy & Fuels 2010 24: 6548-6554.
Hu X., Gunawan R., Mourant D., Lievens C., Li X., Zhang S., and Chaiwat W., 2012. Acid-catalysed reaction between methanol and bio-oil from fast pyrolysis of mallee bark. Fuel 97(2012): 512-522.
Hu X., Mourant D., Wang Y., Wu L., Chaiwat W. Gunawan R., Gholizadeh M., Lievens C., Garcia-Perez M., and Li C. Z. (2013). Acid-catalysed treatment of the mallee eaf bio-oil with methanol: Effects of molecular structure of carboxylic acids and esters on their conversion. Fuel Processing Technology 106(2013): 569-576.
Wang J.J., Chang J., and Fan J., 2010. Upgrading of bio-oil by catalytic easterification and determination of acid number for evaluating esterification degree. Energy & Fuels 2010 24: 3251-3255.
Moens L., Black S.K., Myers M.D., and Czernik, S., 2009. Study of the neutralization and stabilization of a mixed hardwood bio-oil. Energy & Fuels 2009 23: 2695-2699.
Li. X., Gunawan R., Lievens C., Wang Y., Mourant D., Wang S., Wu H., Garcia-Perez M., and Li C.Z., 2011. Simultaneous catalytic esterification of carboxylic acids and acetalisation of aldehydes in fast pyrolysis bio-oil from mallee biomass. Fuel 90(2011): 2530-2537.
Zhang Q., Chang J., Wang T., and Xu Y., 2006. Upgrading bio-oil over different solid catalysts. Energy & Fuels 2006 20: 2717-2720.
Song M., Zhong Z., and Dai J., 2010. Different solid acid catalysts influence on properties and chemical composition change of upgrading bio-oil. Journal of Analytical and Applied Pyrolysis 89(2010): 166-170.
Boucher M.E., Chaala A., and Roy C., 2000. Bio-oils obtained by vacuum pyrolysis of softwood bark as a liquid fuel for gas turbine. Part I: Properties of bio-oil and its blends with methanol and a pyrolytic aqueous phase. Biomass and Bioenergy 19(2000): 337-350.
Ikura M., Stanciulescu M., and Hogan E., 2003. Emulsification of pyrolysis derived bio-oil in diesel fuel. Biomass and Bioenergy 24(2003): 221-232.
Weerachanchai P., Tangsathitkulchai C., and Tangsathitkulchai M., 2009. Phase behaviors and fuel properties of bio-oil-diesel-alcohol blends. World Academy of Science, Engineering and Technology 56(2009): 387-393.
Jiang X. and N. Ellis. 2010. Upgrading bio-oil through emulsification with biodiesel: Thermal stability. Energy & Fuels 2010 24: 2699-2706.
Yin Q, Wang S., Li X., Guo Z., and Gu, Y., 2010. Review of bio-oil upgrading technologies and experimental study on emulsification of bio-oil and diesel. In International Conference of Optoelectronics and Image Processing 2010, 343-347.
Udomsap P., Yeinn Y.H., Hui J.T.H., and Yoosuk B., 2011. Towards stabilization of bio-oil by addition of antioxidants and solvents and emulsification with conventional hydrocarbon fuels. In International Conference and Utility Exhibition, Thailand, September 2011. Retrieved from the World Wide Web: http://www.serd.ait.ac.th/icue2011/cd/papers/S11/S%2011.3.pdf
Venderbosch R.H., Ardiyanti A.R., Wildschut J., Oasmaa A., and Heeres H.J., 2009. Stabilization of biomass derived pyrolysis oils. Journal of Chemical Technology and Biotechnology 2010 85: 674-686.
Qiang L., Xu-lai Y., and Xi-feng Z., 2008. Analysis on chemical and physical properties of bio-oil pyrolysis from rice husk. Journal of Analytical and Applied Pyrolysis 82(2008): 191-198.
Boucher M.E., Chaala A., Pakdel H., and Roy C., 2000. Bio-oils obtained by vacuum pyrolysis of softwood bark as a liquid fuel for gas turbine. Part II: Stability and aging of bio-oil and its blends with methanol and a pyrolytic aqueous phase. Biomass and Bioenergy 19(2000): 351-361.
Oasmaa A., Sipila K., Solantausta Y., and Kuoppala E., 2005. Quality improvement of pyrolysis liquid: Effect of light volatiles on the stability of pyrolysis liquids. Energy & Fuels 2005 19: 2556-2561.
Zuo-gang G., Shu-rong W., Ying-ying Z., Zhong-yang L., and Ke-fa C., 2009. Separation of acid compounds for refining biomass pyrolysis oil. Journal of Fuel Chemistry and Technology 37(1): 49-52.
Siriwardhana M., 2020. Fractional condensation of pyrolysis vapours as a promising approach to control bio-oil aging: Dry birch bark bio-oil. Renewable Energy 152 (2020): 1121-1128.
Siriwardhana A.G.M.T., 2013. Aging and stabilization of pyrolytic bio-oils and model compounds. Electronic Thesis and Dissertation Repository. 1719, Western University, London, Ontario, Canada. Retrieved from the World Wide Web: http://ir.lib.uwo.ca/etd/1719, 2013.
Chen H.W., Song Q.H., Liao B., and Guo Q. X., 2011. Further separation, characterization and upgrading for upper and bottom layer from phase separation of biomass pyrolysis oils. Energy & Fuels 2011 25: 4655-4661.
Ba T., Chaala A., Garcia-Perez M., Rodrigue D., and Roy C. 2004. Colloidal properties of bio-oils obtained by vacuum pyrolysis of softwood bark. Characterization of water-soluble and water-insoluble fractions. Energy & Fuels 2004 18: 704-712.
Song Q.H., Nie J.Q., Ren M.G., and Guo Q.X., 2009. Effective phase separation of biomass pyrolysis oils by adding aqueous salt solutions. Energy & Fuels 2009 23: 3307-3312.
Scholze B., Hanser C., and Meier D., 2001. Characterization of water- insoluble fraction from fast pyrolysis liquids (pyrolysis lignin). Part II: GPC, carbonyl group and C-NMR. Journal of Analytical and Applied Pyrolysis 58-59(2001): 387-400.
Scholze B. and D. Meier. 2001. Characterization of water- insoluble fraction from fast pyrolysis liquids (pyrolysis lignin). Part I: PY-GC/MS, FTIR and functional groups. Journal of Analytical and Applied Pyrolysis 60(2001): 41-54.
Xu J., Jiang J., Lv W., Dai W., and Sun Y., 2010. Rice husk bio-oil upgrading by means of phase separation and production of esters from the water phase and novolacresins from the insoluble phase. Biomass and Bioenergy 34(2010): 1059-1063.
Boucher M.E., Chaala A., Pakdel H., and Roy C., 2000. Bio-oils obtained by vacuum pyrolysis of softwood bark as a liquid fuel for gas turbine. Part II: Stability and aging of bio-oil and its blends with methanol and a pyrolytic aqueous phase. Biomass and Bioenergy 19(2000): 351-361.
Oasmaa A., Korhonen J., and Kuoppala E., 2011. An approach for stability measurement of wood-based fast pyrolysis bio-oil. Energy & Fuels 2011 25: 3307-3313.
Kim T.S., Kim J.Y., Kim K.H., Lee S., and Choi D., 2012. The effect of storage duration on bio-oil properties. Journal of Analytical and Applied Pyrolysis 95(2012): 118-125.
Naske C.D., Polk P., Wynne Z., Speed J., Holmes W.E., and Walters K.B., 2012. Postcondensation filtration of pine and cottonwood pyrolysis oil and impacts on accelerated aging reaction. Energy & Fuels 2012 26: 1284-1297.
Lievens C., Mourant D., He M., Gunawan R., Li X., and Li C. Z., 2011. An FT-IR spectroscopic study of carbonyl functionalities in bio-oils. Fuel 90(2011): 3417-3423.
Qu T., Guo W., Shen L., Xiao J. and Zhao K., 2011. Experimental study of biomass pyrolysis based on three major components: Hemicellulose, cellulose and lignin. Industrial and Engineering Chemistry Research 50(2011): 10424-10433.