首页|粉煤低温等离子体氧化过程效率及模型构建研究

粉煤低温等离子体氧化过程效率及模型构建研究

扫码查看
原文链接
  • 国家科技期刊平台
  • NETL
  • NSTL
  • 万方数据
低温等离子体氧化是研究煤中矿物赋存的重要前处理技术,其存在着灰化反应速度慢、过程效率低等问题,需针对设备运行的操作参数进行优化研究,尤其应侧重等离子体与粉煤的反应过程模式及反应速度控制因素以提高粉煤的氧化过程效率。采用等离子体设备灰化典型气肥煤,以单次灰化时间、设备电参数为操作变量,考察反应速度与灰化时间、有机质含量的关系,分析等离子体等效反应深度、速度控制方程及氧化过程效率优化,并建立粉煤等离子体氧化过程模型。在等效反应深度内,有机质含量小于0。3 g/g后进入降速灰化阶段,需优化操作过程以确保灰化整体速度维持匀速,从而提高氧化过程效率。制定典型气肥煤的综合灰化速度控制方案,即有机质含量在>0。69、0。69~>0。57、0。57~0。46、<0。46 g/g时设置单次灰化时间分别为8、4、2、1 h。
Research on the process efficiency and model building of low temperature plasma oxidation of pulverized coal
Low temperature oxygen plasma oxidation is an important pretreatment technology for studying the occur-rence of coal minerals.However,it has problems such as slow ashing reaction rate and low process efficiency.Opti-mization research is needed for the operating parameters of the equipment,especially focusing on the reaction process mode and reaction rate control factors between plasma and coal powder to improve ashing efficiency.Using plasma equipment to ashing typical gas-fat coal,with single ashing time and equipment electrical parameters as operating var-iables,the relationship between reaction rate,ashing time,and organic matter content was investigated.The plasma equivalent reaction depth,velocity control equation,and oxidation process efficiency optimization were analyzed,and a coal powder plasma oxidation process model was established.Within the equivalent reaction depth,when the organic matter content is less than 0.3 g/g,it enters the reduced rate ashing stage.Therefore,it is necessary to opti-mize the operation process to ensure that the overall ashing speed remains constant,thereby improving the ashing effi-ciency.A comprehensive ashing rate control plan for gas fertilizer coal was developed,single ashing times would be set at 8、4、2 and 1 hour when organic matter content is>0.69、0.69~>0.57、0.57~0.46 and<0.46 respectively.

low-temperature plasmaefficiency of oxidation processmodel constructionashing timeorganic matter contentminerals in coaldepth of reactionspeed control equation

单毅、丁华、白向飞

展开 >

煤炭科学研究总院,北京 100013

煤炭科学技术研究院有限公司,北京 100013

国家能源煤炭高效利用与节能减排技术装备重点实验室,北京 100013

中国煤科低碳技术研究院,北京 100013

展开 >

低温等离子体 氧化过程效率 模型构建 灰化时间 有机质含量 煤中矿物 反应深度 速度控制方程

国家自然科学基金重点资助项目

42030807

2024

10.3969/j.issn.1007-7677.2024.04.001

煤质技术
煤炭科学研究总院

煤质技术

影响因子:0.393
ISSN:1007-7677
年,卷(期):2024.39(4)