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盐酸洗涤与烘焙预处理对甜高粱秸秆热解生物油组分的影响
引用本文:陈东雨, 张婷, 黄顺朝, 高冬笑, 李进, 刘新月, 牛卫生, 刘越洋, 王喆锋, 康钰佳. 盐酸洗涤与烘焙预处理对甜高粱秸秆热解生物油组分的影响[J]. 农业工程学报, 2021, 37(11): 222-229. DOI: 10.11975/j.issn.1002-6819.2021.11.025
作者姓名:陈东雨  张婷  黄顺朝  高冬笑  李进  刘新月  牛卫生  刘越洋  王喆锋  康钰佳
作者单位:1.沈阳农业大学工程学院,沈阳 110161
基金项目:辽宁省教育厅科学研究项目(LSNJC202001);辽宁省自然科学基金项目(20180550038);沈阳农业大学2020年大学生创新创业训练计划项目(2020-351)联合资助
摘    要:针对生物质热解生物油氧含量高、腐蚀性强、化合物种类繁多等问题,该研究提出以盐酸洗涤和烘焙预处理相结合的方式来提高生物油品质.甜高粱秸秆预处理前后的物化特性表明单纯酸洗有利于挥发分的生成,单独烘焙预处理降低了H/C以及O/C,使能量产率达95.13%,并促进了炭的生成;酸洗-烘焙联合预处理对生物炭和不可冷凝气体都有一定的...

关 键 词:热解  生物油  酸洗  甜高粱秸秆  烘焙
收稿时间:2021-01-28
修稿时间:2021-05-29

Effects of hydrochloric acid washing and torrefaction pretreatment on the components of bio-oil from sweet sorghum straw pyrolysis
Chen Dongyu, Zhang Ting, Huang Shunchao, Gao Dongxiao, Li Jin, Liu Xinyue, Niu Weisheng, Liu Yueyang, Wang Zhefeng, Kang Yujia. Effects of hydrochloric acid washing and torrefaction pretreatment on the components of bio-oil from sweet sorghum straw pyrolysis[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2021, 37(11): 222-229. DOI: 10.11975/j.issn.1002-6819.2021.11.025
Authors:Chen Dongyu  Zhang Ting  Huang Shunchao  Gao Dongxiao  Li Jin  Liu Xinyue  Niu Weisheng  Liu Yueyang  Wang Zhefeng  Kang Yujia
Affiliation:1.College of Engineering, Shenyang Agricultural University, Shenyang 110161, China
Abstract:Biomass has drawn much attention, due to renewable and green energy against environmental degradation and energy shortage in recent decades. Pyrolysis of biomass in anaerobic/anoxic conditions can be an important way to produce high value-added biofuels, such as alkanes, hydrocarbons, aromatics, and phenol derivatives. However, the bio-oil from biomass direct pyrolysis is a type of complex oxygen-containing mixture, composed of organic acids, aldehydes, ketones, alcohols, phenols, and sugars. The bio-oil is difficult to be directly used, because of high acidity, low calorific value, and thermal stability. In this study, a combination of hydrochloric acid washing and torrefaction pretreatment was proposed to improve the quality of bio-oil from biomass pyrolysis, in order to deal with the high oxygen content, strong corrosiveness, and a wide variety of compounds in bio-oil. The physical and chemical properties of sweet sorghum straw were measured before and after pretreatment. The results showed that the simple pickling was beneficial to the generation of volatiles, whereas, the torrefaction pretreatment alone reduced the ratio of H/C and O/C, while increased the energy yield up to 95.13%, particularly on the increased generation of carbon. The combination of pickling and torrefaction pretreatment also significantly increased the biochar and non-condensable gases. A pyrolysis test was carried out in a horizontal tube furnace (OTF-1200X). The high purity N2 was used as the protective gas, and the flow rate was 100 mL/min. The program was set to raise the temperature to 500 ℃, and the quartz boat containing 10 g samples was quickly pushed into the central constant temperature section of the tubular furnace. At this time, the temperature changed within ±2 ℃ and returned to 500 ℃ within 1 min. The heating stopped after 30 min. The test results showed that the acid washing, torrefaction, and combined pretreatment reduced 62, 58, and 68 compounds in the bio-oil from sweet sorghum straw pyrolysis, compared with 111, respectively, while the contents of ketones, acids, and furans were all reduced. There was a weak catalytic effect of most metal ions that were removed by pickling on the acetyl group in the pyrolysis process. A significant decrease was observed in the acetic acid content and the acidic components in the bio-oil for a better corrosion resistance of bio-oil. Furthermore, the pickling and torrefaction pretreatment improved the carbohydrate compounds, and the precious D-Allose, a kind of very rare monosaccharide in nature, particularly with the very limited synthesis amount but a high medicinal value. Allosose was expected to inhibit the proliferation of tumor cells, while protecting islet β cells of diabetic animals. In addition, the combined pickling and pretreatment also promoted the formation of nonanoic acid and valeric acid, with a high yield of furfural, where the yield was higher at about 500 ℃. Furfural was a kind of chemical product with high added value, widelyused in resin, varnish, and organic reagent in the food industry. Simple torrefaction was beneficial to increase the relative content of cellulose in biomass, rich in -OH functional group, thereby for the high content of phenols in bio-oil. Although no new substances were formed, the pH value was significantly improved in the bio-oil.
Keywords:pyrolysis   bio-oil   acid washing   sweet sorghum straw   torrefaction
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