Thermochemical processes for biofuels production from biomass
Tóm tắt
The contribution of biomass to the world’s energy supply is presently estimated to be around 10% to 14%. The conversion of biomass to biofuels can be achieved primarily via biochemical and thermochemical processes. Recently, the use of thermochemical processes as pyrolysis and gasification has received great attention. The biomass composition and form of process conduction can affect greatly the efficiency of conversion for both gasification and pyrolysis. This review compiles recent thermochemical studies using several kinds of biomass to obtain biofuels and, additionally, it presents a brief description of main gasification and pyrolysis processes employed. Publications in Patent database also were reported and compiled.
Tài liệu tham khảo
Shen Y, Yoshikawa K: Recent progresses in catalytic tar elimination during biomass gasification or pyrolysis: a review. Renew Sustain Energy Rev. 2013, 21: 371-392.
Huynh CV, Kong S: Performance characteristics of a pilot-scale biomass gasifier using oxygen-enriched air and steam. Fuel. 2013, 103: 987-996.
Higman C, van der Burgt M: Elsevier science. Gasification. 2003, Burlington, MA, USA: Gulf Professional Publishing, 2d
Bridgwater AV: Renewable fuels and chemicals by thermal processing of biomass. Chem Eng J. 2003, 91: 87-102. 10.1016/S1385-8947(02)00142-0.
Yang J, Blanchette D, De CB, Roy C: Modelling, scale-up and demonstration of a vacuum pyrolysis reactor. Thermochemical biomass conversion, Volume 107. Edited by: Bridgwater AV. 2001, Oxford, UK: Blackwell Scientific Publications, 1296-1311.
Lupa CJ, Wylie SR, Shaw A, Al-Shamma’a A, Sweetman AJ, Herbert BMJ: Experimental analysis of biomass pyrolysis using microwave-induced plasma. Fuel Process Technol. 2012, 97: 79-84.
Neves D, Thunmanb H, Matos A, Tarelhoa L, Gómez-Bareac A: Characterization and prediction of biomass pyrolysis products. Progress Energy Combustion Sci-ence. 2011, 37: 611-630. 10.1016/j.pecs.2011.01.001.
Mohan D, Pittman CU, Steele PH: Pyrolysis of wood/biomass for bio-oil: acritical review. J Energy Fuels. 2006, 20: 848-889. 10.1021/ef0502397.
Goyal HB, Seal D, Saxena RC: Bio-fuels from thermochemical conversion of renewable resources: a review. Renew Sustain Energy Rev. 2008, 12: 504-517. 10.1016/j.rser.2006.07.014.
Basu P: Biomass gasification and pyrolysis: practical design and theory. 2010, Burlington, USA: Elsevier Inc, 1
Hindsgaul C, Schramm J, Gratz L, Henriksen U, Dall Bentzen J: Physical and chemical characterization of particles in producer gas from wood chips. Bioresour Technol. 2000, 73: 147-155. 10.1016/S0960-8524(99)00153-4.
Barman NS, Ghosh S: Gasification of biomass in a fixed bed downdraft gasifier: a realistic model including tar. Bioresour Technol. 2012, 107: 505-511.
Brown RC: Biorenewable resources: engineering new products from agriculture. Iowa State Press. 2003
Wilk V, Hofbauer H: Conversion of fuel nitrogen in a dual fluidized bed steam gasifier. Fuel. 2013, 106: 793-801.
Kalinci Y, Hepbasli A, Dincer I: Exergoeconomic analysis and performance assessment of hydrogen and power production using different gasification systems. Fuel. 2012, 102: 187-198.
Swanson R, Platon A, Satrio J, Brown RC: Techno-economic analysis of biomass-to-liquids production based on gasification. Fuel. 2010, 89: 11-19.
Kern S, Pfeifer C, Hofbauer H: Gasification of lignite in a dual fluidized bed gasifier: Influence of bed material particle size and the amount of steam. Fuel Process Technol. 2013, 111: 1-13.
Mohammed MAA, Salmiaton A, Azlina WAKG W, Amran MSM: Gasification of oil palm empty fruit bunches: a characterization and kinetic study. Bioresour Technol. 2012, 110: 628-636.
Guo Y, Wang S, Huelsman CM, Savage PE: Products, pathways, and kinetics for reactions of indole under supercritical water gasification conditions. J Supercrit Fluids. 2013, 73: 161-170.
Müller JB, Vogel F: Tar and coke formation during hydrothermal processing of glycerol and glucose. Influence of temperature, residence time and feed concentration. J Supercrit Fluids. 2012, 70: 126-136.
Ahmed II, Gupta AK: Sugarcane bagasse gasification: global reaction mechanism of syngas evolution. Appl Energy. 2012, 91: 75-81. 10.1016/j.apenergy.2011.07.001.
Zhang Y, Li B, Li H, Zhang B: Exergy analysis of biomass utilization via steam gasification and partial oxidation. Thermochim Acta. 2012, 538: 21-28.
Chen W, Chen C, Hung C, Shen C, Hsu H: A comparison of gasification phenomena among raw biomass, torrefied biomass and coal in an entrained-flow reactor. Appl Energy. 2013, xxx: xxx-
Sarkar S, Kumar A, Sultana A: Biofuels and biochemicals production from forest biomass in western Canada. Energy. 2011, 36: 6251-6262. 10.1016/j.energy.2011.07.024.
Skoulou VK, Zabaniotou AA: Co-gasification of crude glycerol with lignocellulosic biomass for enhanced syngas production. J Anal Appl Pyrolysis. 2013, 99: 110-116.
Lee U, Balu E, Chung JN: An experimental evaluation of an integrated biomass gasification and power generation system for distributed power applications. Appl Energy. 2013, 101: 699-708.
MENG Q, Chen X, Zhuang Y, Liang C: Effect of temperature on controlled air oxidation of plastic and biomass in a packed-bed reactor. Chem Eng Technol. 2013, 36 (2): 220-227. 10.1002/ceat.201200343.
Rapagna S, Jand N, Kiennemann A, Foscolo PU: Steam-gasification of biomass in a fluidized-bed of olivine particles. Biomass Bioenergy. 2000, 19: 187-197. 10.1016/S0961-9534(00)00031-3.
Ruiz JA: Biomass gasification for electricity generation: review of current technology barriers. Renew Sustain Energy Rev. 2013, 18: 174-183.
Olofsson I, Nordin A, Sönderlimd U: Initial Review and Evaluation of Process Technologies and Systems Suitable for Cost-Efficient Medium-Scale Gasification for Biomass to Liquid Fuels. 2005, ISSN 1653-0551 ETPC Report 05-02, Energy Technology & Thermal Process Chemistry, University of Umeå, Sweden
Gómez-Barea A, Ollero P, Leckner B: Optimization of char and tar conversion in fluidized bed biomass gasifiers. Fuel. 2013, 103: 42-52.
Mckendry P: Energy production from biomass (part 3): GasificationTechnologies. Bioresour Technol. 2002, 83 (1): 55-63. 10.1016/S0960-8524(01)00120-1.
Battacharya SC, Siddique AH, Pham HL: A study on wood gasification for Low-Tar Gas production. Energy. 1999, 24: 285-296. 10.1016/S0360-5442(98)00091-7.
Gomez E, Rani DA, Cheeseman CR, Deegan D, Wise M, Boccaccini AR: Thermal plasma technology for the treatment of wastes: a critical review. J Hazard Mater. 2009, 161: 614-626. 10.1016/j.jhazmat.2008.04.017.
Yaman S: Pyrolysis of biomass to produce fuels and chemical feedstocks. Energy Convers Manag. 2004, 45: 651-671. 10.1016/S0196-8904(03)00177-8.
Raveendran K, Ganesh A: Flash pyrolysis of sunflower oil cake for production of liquid fuels. Fuel. 1996, 75: 1715-1720. 10.1016/S0016-2361(96)00158-5.
MEIER D, FAIX O: State of the art of applied fast pyrolysis of lignocellulosic materials—a review. Biosource Technol. 1999, 68 (1): 71-77. 10.1016/S0960-8524(98)00086-8.
Balat M, Balat M, Kırtay E, Balat H: Main routes for the thermo-conversion of biomass into fuels and chemicals. Part 1: pyrolysis systems. Energy Convers Manag. 2009, 50: 3147-3157. 10.1016/j.enconman.2009.08.014.
Abella L, Nanbu S, Fukuda K: A theoretical study on levoglucosan pyrolysis reactions yielding aldehydes and a ketone in biomass. Mem Fac Eng, Kyushu Univ. 2007, 67: 67-74.
Diebold JP: A review of the chemical and physical mechanisms of the storage stability of fast pyrolysis bio-oils. Fast pyrolysis of biomass: a handbook, Volume 2. Edited by: Bridgwater AV. 2002, Newbury, UK: CPL Press, 243-292.
Gullu D, Demirbas A: Biomass to methanol via pyrolysis process. Energy Conv Manage. 2001, 42: 1349-1356. 10.1016/S0196-8904(00)00126-6.
Fisher T, Hajaligol M, Waymack B, Kellogg D: Pyrolysis behavior and kinetics of biomass derived materials. J Anal Appl Pyrol. 2002, 62: 331-349. 10.1016/S0165-2370(01)00129-2.
Zhang O, Chang J, Wang T, Xu Y: Review of biomass pyrolysis oil properties and upgrading research. Energy Convers Manage. 2007, 48: 87-92. 10.1016/j.enconman.2006.05.010.
Bakis R: Alternative electricity generation opportunities. Energy Source Part A. 2008, 30: 141-148.
Blin J, Volle G, Girard P, Bridgwater T, Meier D: Biodegrability of biomass pyrolysis oils: comparison to conventional petroleum fuels and alternatives fuels in current use. Fuel. 2007, 86: 2679-2686. 10.1016/j.fuel.2007.03.033.
Ledesma EB, Campos C, Cranmer DJ, Foytik BL, Ton MN, Dixon EA, Chirino C, Batamo S, Roy P: Vapour –phase cracking of eugenol: distribuition of tar products as fuctions of temperature and residence time. Energy and Fuels. 2013, 27: 868-878. 10.1021/ef3018332.
Eom I, Kim J, Lee S, Cho T, Yeo H, Choi J: Comparison of pyrolytic products produced from inorganic-rich and demineralized rice straw (oryza sativa L.) by fluidized bed pyrolyzer for future biorefinery approach. Bioresour Technol. 2013, 128: 664-672.
Marculescu C, Ciuta S: Wine industry waste termal processing for derived fuel properties improvement. Renew Energy. 2013, 57: 645-652.
Nayan NK, Kumar S, Singh RK: Production of the liquid fuel by thermal pyrolysis of neem seed. Fuel. 2013, 103: 437-443.
Sait HH, Hussuain A, Salema AA, Ani FN: Pyrolysis and combustion kinetics of date palm biomass using thermogravimetric analysis. Bioresour Technol. 2012, 118: 382-389.
Conesa JA, Domene A: Biomasses pyrolysis and combustion kinetics through n-th order parallel reactions. Thermochimical Acta. 2011, 523: 116-181. 10.1016/j.tca.2011.05.011.
Giudicianni P, Cardone G, Ragucci R: Cellulose, hemicellulose and lignin slow steam pyrolysis: thermal decomposition of biomass components mixtures. J Anal Apllied Pyrolysis. 2013, 213-222.
Luo Z, Wang S, Liao Y, Zhou J, Gu Y, Cen K: Research on biomass fast pyrolysis for liquid fuel. Biomass Bioenergy. 2004, 26: 455-462. 10.1016/j.biombioe.2003.04.001.
Onay O, Beis SH, Kockar OM: Fast pyrolysis of rape seed in well-swept fixed bed reactor. J Anal Appl Pyrolysis. 2001, 58–59: 995-1007.
Onay O, Kockar OM: Technical note: slow, fast and flash pyrolysis of rape seed. Renew Energy. 2003, 28: 2417-2433. 10.1016/S0960-1481(03)00137-X.
Gercel HF: Production and characterization of pyrolysis liquids from sunflower pressed bagasse. Bioresource Technol. 2002, 85: 113-117. 10.1016/S0960-8524(02)00101-3.
Funino J, Yamaji K, Yamameto H: Biomass-balance table for evaluating bioenergy resources. Appl Energy. 1999, 63: 75-89. 10.1016/S0306-2619(99)00019-7.
Lede J, Bouton O: Flash pyrolysis of biomass submitted to a concentrated radiation. Application to the study of the primary steps of cellulose thermal decomposition. Division of fuel chemistry; reprints of symposia, vol. 44(2), 217th ACS meeting, 21–25 march. 1999, Anaheim, USA
Pattiya A, Titiloye JO, Bridgwater AV: Catalytic pyrolysis of cassava rhizome. Proceedings of 2nd joint international conference on sustainable energy and environment technology and policy innovations – SEE 2006. 2006, Bangkok, Thailand
Pattiya A, Titiloye JO, Bridgwater AV: Fast pyrolysis of cassava rhizome in the presence of catalysts. J Anal Appl Pyrolysis. 2008, 81: 72-79. 10.1016/j.jaap.2007.09.002.
Hitchingham Jacqueline R, White Lloyd R: Pretreatment of biomass feed for gasification. 2012, United States Patent Application 2012/0266531 A1
Shigeru M: Surface inspection method and surface inspection apparatus. 2012, : US United States Patent Application 2012/176611 A1
Hogendoorn J, Kersten S, Meesala L, De Miguel F: Process for catalytic hydrotreatment of a pyrolysis oil. 2011, WO Patent Application 2011/064172 A1
Bartek R, Cordle R: Method and apparatus for pyrolysis of a biomass. 2012, WO International Patent Application 2012/012191 A1
Huang X, Hwang J: Method and apparatus for coproduction of pig iron and high quality syngas. 2012, WO International Patent Application 2012/018394 A3
Aradi AA, Roos JW, Tze-chi: Nanoparticle catalysts and method of using the same for biomass gasification. 2011, : US United States Patent Application 2011/0315931 A1
Keskinen Kari I, Koskinen, Jukka, Aittamaa, Juhani, Pettersson, Marianne: Method of purifying a gas. 2012, US United States Patent Application 2012/0202897 A1
Xianqi P, Deren S, Chuangzhi W, Xiuli Y, Zhaoqiu Z: Procédé et dispositif pour la gazéification de type à écoulements mélangés d’une biomasse. 2012, US United States Patent Application 2012/159469 A1
Sascha AC, Bradford SF: Method and apparatus for sealing a wellbore. 2013, WO International Patent Application 2012/025767 A3: WO International Patent Application 2012/025767 A3
Paul S: Procédé et système pour la gazéification et/ou la combustion de biomasse et/ou de charbon avec une séparation de dioxyde de Carbone au moins partielle. 2012, WO International Patent Application 2012/103997 A1
Foster AA: Production of stable biomass pyrolysis oils using fractional catalytic pyrolysis. 2010, United States Patent Application 2010/0212215 A1
Igor WF: Equipment and method for generating biofuel based on rapid pyrolysis of biomass. 2011, US United States Patent Application 2011/0219680 A1
Bowie GK MB, Brian GS, Edson NG: Sorption enhanced methanation of biomass. 2013, US United States Patent Application 2013/0017460 A1
Tang H, Zhang Y, Chen Y: Method and apparatus for pyrolysis and gasification of biomass. 2013, US United States Patent Application 2013/0125465 A1
Merola R: Reactor for pyrolysis of biomass. 2011, WO International Patent Application 2011/034409 A1
Agblevor F: Production of pyrolysis oil. 2011, WO International Patent Application 2011/103313 A2