藻类生物质燃烧SO_2与CO_2的排放特性与机理  被引量：5

作　　者：张航[1] 赵兵涛[1] 刘旺[1] 

机构地区：[1]上海理工大学能源与动力工程学院,上海200093

出　　处：《燃烧科学与技术》2016年第3期262-268,共7页Journal of Combustion Science and Technology

基　　金：国家自然科学基金资助项目(50806049)

摘　　要：为探究藻类生物质燃烧过程中SO_2与CO_2的排放特性,利用管式炉对典型藻类生物质条浒苔、马尾藻和小球藻在不同温度及配比下燃烧时SO_2与CO_2排放特性进行了实时在线测量,并进行了S、C转化机理的初步分析.结果表明,随着温度的升高,燃尽时间缩短,SO_2与CO_2实时排放量增加.随着生物质量的增加,藻类生物质燃烧时SO_2与CO_2排放量增加,但排放量增加幅度不同.当生物质质量为75,mg、150,mg、225,mg时:马尾藻SO_2排放量分别为0.18,mg、0.30,mg、0.31,mg,CO_2排放(体积分数)分别为2.47%、4.81%、6.42%;条浒苔SO_2排放量分别为1.14,mg、2.61,mg、3.95,mg,CO_2排放(体积分数)分别为3.16%、5.05%、8.32%;小球藻SO_2排放量分别为0.79,mg、1.93,mg、3.92,mg,CO_2排放(体积分数)分别为4.71%、6.75%、13.26%.藻类生物质混烧的结果表明,当小球藻、条浒苔以及小球藻、马尾藻等比例混燃,在800,℃时SO_2排放总量均降低,混燃样品自身含硫量以及碱金属元素含量对SO_2排放影响较大.In order to explore the SO2 and CO2 emission characteristics from algae biomass combustion,several typical algae biomass including enteromorpha,sargassum and chlorella were burned under different temperature and ratio.The real-time releasing of SO2 and CO2 were experimentally studied.Furthermore,C and S conversion mecha-nisms were analyzed based on the measured results.The results show that the SO2,and CO2,real-time emissions in-crease with the rise of temperature,and that the burning time is shortened.With the increase of biological quality, the SO2 and CO2 emissions from algae biomass increase,but with different rising rates.With the quality of algae biomass increasing from 75,mg to 150 mg,225,mg,the SO2 and CO2 emissions from algae biomass（sargassum, enteromorpha,chlorella）combustion are：from sargassum,0.18,mg-0.30,mg-0.31,mg（SO2）,2.47%-4.81%-6.42%（CO2） ; from enteromorpha , 1.14,mg-2.61,mg-3.95,mg（SO2） ,3.16%-5.05%-8.32%（CO2） ;from chlorella , 0.79,mg-1.93,mg-3.92,mg （SO2）,4.71%-6.75%-13.26%,（CO2）.The results of the mixed burning of algae biomass show that the SO2 emission of the equal proportion mixed burning of enteromorpha and sargassum with chlorella, respectively,under 800,℃ decreases.The SO2 emission is much affected by sulfur content and alkali metal element content.

关 键 词：藻类生物质 燃烧 SO2与CO2排放 转化机理 

分 类 号：TK6[动力工程及工程热物理—生物能]