Bibliography
- Bridgwater AV. Fast Pyrolysis of Biomass: a Handbook (Volume 2). CPL Press, Newbury, UK (2002).
- Bridgwater AV, Meier D, Radlein D. An overview of fast pyrolysis of biomass. Org. Geochem.30,1479–1493 (1999).
- Bridgwater AV, Peacocke GVC. Fast pyrolysis processes for biomass. Renew. Sustain. Energy Rev.4,1–73 (2000).
- Bridgwater AV, Cottam M-L. Oppurtunities for biomass pyrolysis liquids production and upgrading. Energy Fuels6,113–120 (1992).
- Mohan D, Pittman CU Jr, Steele PH. Pyrolysis of wood/biomass for bio-oil: a critical review. Energy Fuels20,848–889 (2006).
- Chiaramonti D, Oasmaa A, Solantausta Y. Power generation using fast pyrolysis liquids from biomass. Renew. Sustain. Energy Rev.11,1056–1086 (2007).
- Bridgwater AV. Principles and practice of biomass fast pyrolysis processes for liquids. J. Anal. Appl. Pyrolysis51,3–22 (1999).
- Chiaramonti D, Bonini M, Fratini E et al. Development of emulsions from biomass pyrolysis liquid and diesel and their use in engines – part 2: tests in diesel engines. Biomass Bioenergy25,101–111 (2003).
- Czernik S, Bridgwater AV. Overview of applications of biomass fast pyrolysis oil. Energy Fuels18,590–598 (2004).
- Oasmaa A, Peacocke C, Gust S, Meier D, McLellan R. Norms and standards for pyrolysis liquids. End-user requirements and specifications. Energy Fuels19,2155–2163 (2005).
- Adam J, Antonakou E, Lappas A et al.In situ catalytic upgrading of biomass derived fast pyrolysis vapours in a fixed bed reactor using mesoporous materials. Microporous Mesoporous Mat.96,93–101 (2006).
- Antonakou E, Lappas A, Nilsen MH, Bouzga A, Stöcker M. Evaluation of various types of Al-MCM-41 materials as catalysts in biomass pyrolysis for the production of bio-fuels and chemicals. Fuel85,2202–2212 (2006).
- Iliopoulou EF, Antonakou EV, Karakoulia SA, Vasalos IA, Lappas AA, Triantafyllidis KS. Catalytic conversion of biomass pyrolysis products by mesoporous materials: effect of steam stability and acidity of Al-MCM-41 catalysts. Chem. Eng. J.134,51–57 (2007).
- Nilsen MH, Antonakou E, Bouzga A, Lappas A, Mathisen K, Stöcker M. Investigation of the effect of metal sites in Me-Al-MCM-41 (Me=Fe, Cu or Zn) on the catalytic behavior during the pyrolysis of wooden based biomass. Microporous Mesoporous Mat.105,189–203 (2007).
- Triantafyllidis KS, Iliopoulou EF, Antonakou EV, Lappas AA, Wang H, Pinnavaia TJ. Hydrothermally stable mesoporous aluminosilicates (MSU-S) assembled from zeolite seeds as catalysts for biomass pyrolysis. Microporous Mesoporous Mat.99,132–139 (2007).
- Ioannidou O, Zabaniotou A, Antonakou EV, Papazisi KM, Lappas AA, Anthanassiou C. Investigating the potential for energy, fuel materials and chemicals production from corn residues (cobs and stalks) by non-catalytic and catalytic pyrolysis in two reactor configurations. Renew. Sustain. Energy Rev.13,750–762 (2009).
- Zabaniotou A, Ioannidou O, Antonakou E, Lappas A. Experimental study of pyrolysis for potential energy, hydrogen and carbon material production from lignocellulosic biomass. Int. J. Hydrogen Energy33,2433–2444 (2008).
- Lappas AA, Bezergianni S, Vasalos IA. Production of biofuels via co-processing in conventional refining processes. Catal. Today145,55–62 (2009).
- Huber GW, Iborra S, Corma A. Synthesis of transportation fuels from biomass: chemistry, catalysts and engineering. Chem. Rev.106,4044–4098 (2006).
- Mahfud FH, Ghijsen F, Heeres HJ. Hydrogenation of fast pyrolysis oil and model compounds in a two-phase aqueous organic system using homogeneous ruthenium catalysts. J. Mol. Catal. A Chem.264,227–236 (2007).
- Mahfud FH, Bussemaker S, Kooi BJ, Ten Brink GH, Heeres HJ. The application of water-soluble ruthenium catalysts for the hydrogenation of the dichloromethane soluble fraction of fast pyrolysis oil and related model compounds in a two phase aqueous-organic system. J. Mol. Catal. A Chem.277,127–136 (2007).
- Zhao C, Kou Y, Lemonidou AA, Li X, Lercher JA. Highly selective catalytic conversion of phenolic bio-oil to alkanes. Angewandte Chemie Int.48,3987–3990 (2009).
- Yakovlev VA, Khromova SA, Sherstyuk O et al. Development of new catalytic systems for upgraded bio-fuels production from bio-crude-oil and biodiesel. Catal. Today144,362–366 (2009).
- Huber GW, Dumesic JA. An overview of aqueous-phase catalytic processes for production of hydrogen and alkanes in a biorefinery. Catal. Today111,119–132 (2006).
- Mahfud FH, Melián-Cabrera I, Manurung R, Heeres HJ. Biomass to fuels, Upgrading of flash pyrolysis oil by reactive distillation using a high boiling alcohol and acid catalysts. IChemE B Process Safety Environ. Protection85,466–472 (2007).
- Bridgwater AV. Renewable fuels and chemicals by thermal processing of biomass. Chem. Eng. J.91,87–102 (2003).
- Huber GW, Corma A. Synergies between bio- and oil refineries for the production of fuels from biomass. Angewandte Chemie Int.46,7184–7201 (2007).
- Lin Y-C, Huber GW. The critical role of heterogeneous catalysis in lignocellulosic biomass conversion. Energy Environ. Sci.2,68–80 (2009).
- Lappas AA, Dimitropoulos VS, Antonakou EV, Voutetakis SS, Vasalos IA. Design, construction, and operation of a transported fluid bed process development unit for biomass fast pyrolysis: effect of pyrolysis temperature. Ind. Eng. Chem. Res.47,742–747 (2008).
- Carlson TR, Vispute TP, Huber GW. Green gasoline by catalytic fast pyrolysis of solid biomass derived compounds. ChemSusChem1,397–400 (2008).
- Carlson TR, Tompsett GA, Conner WC, Huber GW. Aromatic production from catalytic fast pyrolysis of biomass-derived feedstocks. Topics Catal.52,241–252 (2009).
- Corma A, Huber GW, Sauvanaud L, O’Connor P. Processing biomass-derived oxygenates in the oil refinery: catalytic cracking (FCC) reaction pathways and role of catalyst. J. Catal.247,307–327 (2007).
- Corma A, Huber GW, Sauvanaud L, O’Connor P. Biomass to chemical: catalytic conversion of glycerol/water mixtures into acrolein, reaction network. J. Catal.257,163–171 (2008).
- Valle B, Gayubo AG, Atutxa A, Alonso A, Bilbao J. Integration of thermal treatment and catalytic transformation for upgrading biomass pyolysis oil. Int. J. Chem. Reaction Eng.5,A86 (2007).
- Lee HI, Park HJ, Park Y.-K, Hur JY, Jeon J-K, Kim JM. Synthesis of highly mesoporous aluminosilicates from commercially available zeolites and their application to the pyrolysis of woody biomass. Catal. Today132,68–74 (2008).
- Vitolo S, Bresci B, Seggiani M, Gallo MG. Catalytic upgrading of pyrolytic oils over HZSM-5 zeolite: behaviour of the catalyst when used in repeated upgrading–regenerating cycles. Fuel80,17–26 (2001).
- Aho A, Kumar N, Eränen K et al. Catalytic pyrolysis of biomass in a fluidized bed reactor: influence of acidity of H-β zeolite. IChemE B Process Safety Environ. Protection85,473–480 (2007).
- AhoA, Kumar N, Eränen K et al. Catalytic pyrolysis of woody biomass in a fluidized bed reactor: influence of the zeolite structure. Fuel87,2493–2501 (2008).
- Aho A, Kumar N, Eränen K et al. zeolite-βentonite hybrid catalysts for the pyrolysis of woody biomass. Studies Surface Sci. Catal.174B,1069–1074 (2008).
- Aho A, Kumar N, Eränen K et al. Pyrolysis of softwood carbohydrates in a fluidized bed reactor. Int. J. Mol. Sci.9,1665–1675 (2008).
- Aho A. Catalytic pyrolysis of biomass in a fluidized bed reactor. Doctoral thesis, Åbo Akademi University, Åbo, Finland (2009).
- Aho A, Kumar N, Eränen K et al. Catalytic pyrolysis of woody biomass. Catal. Indust.N2,49–57 (2008).
- Baerlocher CH, Meier WM, Oslon DH. Atlas of Zeolite Framework Types (5th Revised Edition). Elsevier Science, Amsterdam, The Netherlands (2001).
- Reina J, Velo E, Puigjaner L. Thermogravimetric study on the pyrolysis of waste wood. Thermochimica Acta320,161–167 (1998).
- Atuxta A, Aguado R, Gayubo A, Olazar M, Bilbao J. Kinetic description of the catalytic pyrolysis of biomass in a conical spouted bed reactor. Energy Fuels19,765–774 (1992).