内加热连续式生物质炭化中试设备炭化温度优化试验
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引进国际先进农业科学技术计划(948计划)"连续式生物质分段均匀炭化技术系统引进研究"


Carbonization temperature optimization experiment of pilot-scale continuous biomass carbonization equipment with internal heating
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    摘要:

    为分析内源加热与分段连续热解技术工艺条件下不同物料的热解炭化特性,探明炭化工艺参数对生物炭理化性质、生物炭得率及设备生产率的影响规律,以玉米秸秆、玉米芯和花生壳为原料,进行了设备生产工艺试验。试验结果表明,引风机转速为725 r/min,通过自动调节各进风口开度,使炉内负压维持在60 Pa左右时,不同炭化温度下的生物炭理化性质、设备生产率和生物炭得率均表现出较大差异,其中,固定碳含量和灰分等指标存在显著性差异(P<0.05),玉米秸秆对炭化工艺参数最敏感。通过多指标综合评价分析,结合生产实际,玉米秸秆、玉米芯和花生壳的推荐炭化温度分别为550~600、600~650和600~650℃。该研究可为内加热连续式生物质炭化设备的推广应用提供重要的技术支撑。

    Abstract:

    Biochar is a solid product generated by low temperature pyrolysis of biological organic material (biomass) in oxygen or anaerobic environment. Biochar can be used as adsorption material and soil conditioner, and also can be used as reducing agent, slow-release fertilizer carrier and carbondioxide sequestration agent etc., in addition, wood tar and wood vinegar as byproduct of biomass pyrolysis, can be used as the chemical raw materials. In recent years, the biomass pyrolysis carbonization technology has aroused widespread attention at home and abroad. Biomass carbonization technology can be differentiated according to the heating process applied and to the continuity of the biomass production. In China, 3 carbonization techniques are used, viz. external heating, internal heating, and spontaneous combustion. External heating indirectly heats biomass materials by hot air flowing around the carbonization chamber, while internal heating directly heats the biomass material through hot gas that is flooding the furnace from the bottom. In this case, hot gas and biomass materials are moving in opposite directions, increasing the heat transfer efficiency. The spontaneous combustion carbonization technique has the highest thermal utilization efficiency. It heats materials directly by spontaneous combustion of small fractions of the biomass materials. In order to analyze pyrolysis carbonization properties of different materials under internal heating and piecewise continuous pyrolysis technology, and verify the influence of carbonization process parameters on biochar physical and chemical properties, biochar yield rate as well as equipment productivity, this study chooses corn straw, corn cob and peanut shell as raw materials, and carries out the experiment of equipment production process. Test results show: When the draft fan speed is 725 r/min, and the furnace negative pressure remains at around 60 Pa by automatically adjusting the opening of the inlet, the biochar physical and chemical properties, equipment productivity and biochar yield rate are obviously different under different carbonization temperatures, especially the fixed carbon content and ash content of the biochar have significant difference (P<0.05), and corn stalk is the most sensitive to process parameters. Through the comprehensive evaluation analysis, the optimal carbonization temperatures are 550-600, 600-650 and 600-650℃ respectively for corn straw, corn cob and peanut shell. Application benefit analysis shows that the technology has good economic benefit and outstanding social and ecological benefits, but biochar industrial chain has some bottlenecks, such as biochar application in agriculture being not wide enough, which influences the straw biochar market sales. This study can provide technical support for the application of continuous biomass carbonization equipment.

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丛宏斌,姚宗路,赵立欣,孟海波,戴辰,贾吉秀,吴悠.内加热连续式生物质炭化中试设备炭化温度优化试验[J].农业工程学报,2015,31(16):235-240. DOI:10.11975/j. issn.1002-6819.2015.16.031

Cong Hongbin, Yao Zonglu, Zhao Lixin, Meng Haibo, Dai Chen, Jia Jixiu, Wu You. Carbonization temperature optimization experiment of pilot-scale continuous biomass carbonization equipment with internal heating[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),2015,31(16):235-240. DOI:10.11975/j. issn.1002-6819.2015.16.031

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  • 收稿日期:2015-04-20
  • 最后修改日期:2015-07-30
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  • 在线发布日期: 2015-08-15
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