摘要
针对焦炭燃烧过程,提出了一种基于反应位点的焦炭反应动力学模型。焦炭燃烧过程中,反应位点失活、比表面积覆盖以及无机组分的催化作用会导致整体反应速率下降。模型利用表面反应位点数目的变化来表征焦炭燃烧后期反应活性的衰减。研究了不同温度下,焦炭燃烧过程中颗粒温度,焦炭燃尽时间以及其对应的燃烧模式的变化规律。比较了反应位点衰减抑制模型的加入,对焦炭燃尽时间和物性参数变化规律的影响。结果表明:1200、1500和1800K这3种环境温度下焦炭颗粒最终稳定的温度分别为1600、2100和2300K;1200K和1800K下焦炭颗粒燃烧过程分别由化学反应和扩散控制,而1500K下,燃烧模式介于两者之间。抑制模型的加入,延长了焦炭燃尽时间,并且减缓了粒径(Dp)、表观密度(ρp)及比表面积(Sp)的变化速度。
A model based on reaction sites was developed to predict the temperature and physical properties changing behavior of pulverized burnout char particle. During char burnout, deactivation of reaction sites, ash coverage of carbon surface area and catalysis of inorganic mineral decreased the global reaction rate. An inhibition model considering the reaction sites number reduction was used to describe the loss of char reactivity. The char temperature history, char burnout time and physical properties changing behavior in different ambient temperatures were investigated using this model. The effect of inhibition model on the whole burnout model was also studied. The results show that the stable char burnout temperature in 1200、1500 and 1800 K ambients are separately 1600、2100 and 2300 K. Model calculations also verify the two burning zones in 1200 K and 1800 K(reaction control and diffusion control). Considering the inhibition model, the char burnout time becomes longer and the changing behaviors of particle diameter, particle apparent density and surface area are all delayed.
作者
袁野
高洪培
时正海
孙献斌
肖平
李水清
YUAN Ye;GAO Hongpei;SHI Zhenghai;SUN Xianbin;XIAO Ping;LI Shuiqing(State Key Laboratory of Coal-Based Clean Energy, Huaneng Clean Energy Research Institute, Changping District, Beijing 102209, China;Key Laboratory for Thermal Science and Power Engineering of Ministry Education, Tsinghua University, Haidian District, Beijing 100084, China)
出处
《中国电机工程学报》
EI
CSCD
北大核心
2018年第9期2672-2678,共7页
Proceedings of the CSEE
基金
中国华能集团清洁能源技术研究院有限公司技术开发基金项目“生物质燃料(固废)掺烧技术及应用”(项目编号:TB-16-CERI01)支持资助
关键词
焦炭燃尽
反应位点
动力学模型
燃尽时间
物性参数变化规律
char burnout
reactive sites
kinetic model
burnout time
physical properties changing behavior
