Influence on bio-oil by fractional condensation of biomass pyrolysis vapor

doi:10.11949/j.issn.0438-1157.20150299

Abstract

Abstract:

The composition of biomass pyrolysis vapors is complex. Their separation properties were investigated by using fractional condensation under different temperature. According to the distinct dew points of the compound containing, the enrichments with different bio-oil grouping were produced by controlling condensed temperature such as 300℃, 100℃, 0℃ and -20℃, and so four groups of bio-oil samples were obtained during our experiment of fractional condensation and their characteristics of each fraction were studied and analyzed. The yield of liquid condensed in 0℃ is the highest and more than 50% of the whole bio-oil, while that did in 100℃ contained the organics with molecular weight of 80 to 200, mainly fusel phenol compounds. The fraction collected in 300℃ was bitumen, which did not contain moisture, look like solid carbon and there was no liquidity and viscosity. Water and organic acids had well be separated from bio-oil in fractional condensation, more than 80% water and nearly all the organic acids were collected in the enrichments at 0℃ and -20℃. The distribution of some typical components including acetic acid, phenols, guaiacol, and PAH under different condensed temperature was analyzed by GC-MS, and enrichment rule was obtained based on behaviors of typical compounds condensing in bio-oil.

Key words: renewable energy, bio-oil, pyrolysis, fractional condensation, separation, chemical composition

摘要：

利用分级冷凝手段对成分复杂的生物质热解气在不同冷凝温度下的分离特性进行研究,将成分复杂的混合物依据自身露点的不同,通过控制冷凝温度,实现生物油的分组富集。对热解气在不同冷凝温度(300℃、100℃、0℃和-20℃)下生成的各级液体产物的物理特性和化学成分进行系统分析。生物质热解气经过分级冷凝处理后得到4组生物油样品,其中0℃时得到的生物油产率最大,超过液体总量的50%;其次是100℃时的冷凝产物,为分子量80~200的有机物,以杂酚类物质为主;300℃冷凝得到的产物为沥青类物质,不含水分,状似固体碳,没有流动性。分级冷凝能够很好地将水分和有机酸成分从生物油中分离出来,几乎所有的有机酸和超过80%的水分都富集在0℃和-20℃冷凝组分中。结合各组分GC-MS的分析结果,对乙酸、苯酚、愈创木酚和多环芳烃等生物油中典型有机组分的分布特性进行分析总结,得到各类物质在分级冷凝过程中的富集规律。

关键词: 再生能源, 生物油, 热解, 分级冷凝, 分离, 化学组成

CLC Number:

TK16

SUI Haiqing, LI Pan, WANG Xianhua, ZOU Jun, LI Xiangpeng, CHEN Hanping. Influence on bio-oil by fractional condensation of biomass pyrolysis vapor[J]. CIESC Journal, 2015, 66(10): 4138-4144.

隋海清, 李攀, 王贤华, 邹俊, 李相鹏, 陈汉平. 生物质热解气分级冷凝对生物油特性的影响[J]. 化工学报, 2015, 66(10): 4138-4144.

References 22

[1]	Sui Haiqing, Yang Haiping, Shao Jingai, et al. Fractional condensation of multicomponent vapors from pyrolysis of cotton stalk [J]. Energy & Fuels, 2014, 28 (8): 5095-5102.
[2]	Westerhof R J, Brilman D W F, Garcia-Perez M, et al. Fractional condensation of biomass pyrolysis vapors [J]. Energy & Fuels, 2011, 25 (4): 1817-1829.
[3]	Mohan D, Pittman C U, Steele P H. Pyrolysis of wood/biomass for bio-oil: a critical review [J]. Energy & Fuels, 2006, 20 (3): 848-889.
[4]	Zhang Q, Chang J, Wang T, et al. Review of biomass pyrolysis oil properties and upgrading research [J]. Energy Conversion and Management, 2007, 48 (1): 87-92.
[5]	Mullen C A, Boateng A A, Goldberg N M, et al. Bio-oil and bio-char production from corn cobs and stover by fast pyrolysis [J]. Biomass and Bioenergy, 2010, 34 (1): 67-74.
[6]	Adjaye J, Bakhshi N. Production of hydrocarbons by catalytic upgrading of a fast pyrolysis bio-oil (Part Ⅰ): Conversion over various catalysts [J]. Fuel Processing Technology, 1995, 45 (3): 161-183.
[7]	Rioche C, Kulkarni S, Meunier F C, et al. Steam reforming of model compounds and fast pyrolysis bio-oil on supported noble metal catalysts [J]. Applied Catalysis B: Environmental, 2005, 61 (1): 130-139.
[8]	Wang S, Gu Y, Liu Q, et al. Separation of bio-oil by molecular distillation [J]. Fuel Processing Technology, 2009, 90 (5): 738-745.
[9]	Özçimen D, Karaosmano?lu F. Production and characterization of bio-oil and biochar from rapeseed cake [J]. Renewable Energy, 2004, 29 (5): 779-787.
[10]	Erta? M, Hakk? Alma M. Pyrolysis of laurel extraction residues in a fixed-bed reactor: characterization of bio-oil and bio-char [J]. Journal of Analytical and Applied Pyrolysis, 2010, 88 (1): 22-29.
[11]	Wang Yurong (王誉蓉), Wang Shurong (王树荣), Wang Xiangyu (王相宇). Molecular distillation separation characteristic of bio-oil under different pressures [J]. Journal of Fuel Chemistry and Technology (燃料化学学报), 2013, 41 (2):177-182.
[12]	Guo Zuogang (郭祚刚), Wang Shurong (王树荣), Zhu Yingying (朱颖颖). Separation of acid compounds for refining biomass pyrolysis oil [J]. Journal of Fuel Chemistry and Technology (燃料化学学报), 2009, 37 (1): 49-52.
[13]	Shi Wen (石文), Zhang Changsen (张长森), Xu Xingmin (徐兴敏), Ren Xiantao (任献涛), Zhang Ruiqin (张瑞芹).Separation and refinement of bio-oil by fractional condensation and electrostatic precipitator [J]. Modern Chemical Industry (现代化工), 2010, (3): 51-53.
[14]	Yin R, Liu R, Mei Y, et al. Characterization of bio-oil and bio-char obtained from sweet sorghum bagasse fast pyrolysis with fractional condensers [J]. Fuel, 2013, 112: 96-104.
[15]	Pollard A S, Rover M R, Brown R C. Characterization of bio-oil recovered as stage fractions with unique chemical and physical properties [J]. Journal of Analytical and Applied Pyrolysis, 2012, 93: 129-138.
[16]	Zuo Wu (左武), Jin Baosheng (金保昇), Huang Yaji (黄亚继), Sun Yu (孙宇), Zhong Jiaxin (仲佳鑫), Jia Jiqiang (贾纪强). Pyrolysis oil retrieving from sewage sludge by fractional condensation [J]. Journal of Southeast University :Natural Science Edition (东南大学学报: 自然科学版), 2013, 43 (1): 125-129.
[17]	Sui Haiqing (隋海清), Wang Xianhua (王贤华), Shao Jing'ai (邵敬爱), Li Yunchao (李允超),Zou Jun (邹俊), Yang Haiping (杨海平). Analysis of wood tar and its chemical composition [J]. Acta Energiae Solaris Sinica (太阳能学报), 2014, 35 (11): 2205-2210.
[18]	Yang Haiping (杨海平), Chen Hanping (陈汉平), Wang Xianhua (王贤华), Xin Fen (辛芬), Zhang Shihong (张世红), Zheng Chuguang (郑楚光). Progress of study on biomass pyrolysis [J]. Gas&Heat (煤气与热力), 2006, 26 (5): 18-22.
[19]	Wang Xianhua (王贤华), He Ruixue (贺瑞雪), Yang Haiping (杨海平), Zhang Shihong (张世红), Chen Hanping (陈汉平). TG-FTIR analysis of pyrolysis and gasification of bio-oil [J]. Acta Energiae Solaris Sinica (太阳能学报), 2010, 31 (5): 545-549.
[20]	Sui Haiqing (隋海清), Wang Xianhua (王贤华), Yang Haiping (杨海平), Zou Jun (邹俊), Chen Hanping (陈汉平). Research progress on properities and utilization of each component of bio-oil [J]. Acta Energiae Solaris Sinica (太阳能学报), 2012, 33: 129-135.
[21]	Li Yunchao (李允超), Wang Xianhua (王贤华), Sui Haiqing (隋海清), Yang Haiping (杨海平), Hu Haitao (胡海涛), Chen Hanping (陈汉平). Adsorption properties of model component of bio-oil from aqueous solution by bamboo charcoal [J]. Transactions of the Chinese Society for Agricultural Machinery (农业机械学报), 2013, 44 (11): 154-159.
[22]	Garcia-Perez M, Chaala A, Pakdel H, et al. Characterization of bio-oils in chemical families [J]. Biomass and Bioenergy, 2007, 31 (4): 222-242.