摘要
3~1 mm粒级细粒煤介于煤粉与传统空气重介质流化床分选所适用的粒度之间,其在空气重介质流化床中被分选的同时对自身分选与流化特性产生重要影响。利用高速动态摄影等手段详细研究了空气重介质流化床分选3~1 mm细粒煤过程中不同流化数下床层的流化特性、压降波动、煤粒分离混合规律以及流化床中不同高度处的密度分布,阐释了气泡在分选过程中的作用机理。结果表明,加入一定量细粒煤后床层密度降低,流化效果发生了一定程度的改变。随着气速的增加,煤粒在流化床中先后经历了分离与混合两种状态,流化床各高度的密度也随之改变。当流化数在1.8~2.0时煤粒达到较好的分离效果。随着气速增大煤粒受气流影响增大,不再严格按照流化床密度分离。
Fine coal(3-1 mm) is between pulverized coal and particles that is suitable for traditional air densemedium fluidized bed. The addition of fine coal can thus affect bed fluidization and separation characteristics. Toelucidate the bubble-driven mechanism,the fluidization characteristics,pressure fluctuation,separation / mixing ef-ficiency of fine coal and fluidized bed density at different heights were investigated by varying number in an airdense medium fluidized bed using high-speed dynamic camera. Results show that bed density decreases while flu-idization quality changed slightly with the addition of fine coal. With the increase of gas velocity,coal particlesseparate initially,then change into mixed state. Meanwhile,bed density changes at different heights. When fluid-ization number is in the range of 1. 8 to 2. 0,coal particles achieve a maximum separation efficiency. However,with the gas velocity further increases,the influence of air flow increases,and coal particles could not be separatedaccording to fluidized bed density strictly.
出处
《煤炭学报》
EI
CAS
CSCD
北大核心
2016年第3期727-734,共8页
Journal of China Coal Society
基金
国家重点基础研究发展计划(973)资助项目(2012CB214904)
国家自然科学基金资助项目(51404244)
江苏省国家自然科学基金资助项目(BK20140209)
关键词
空气重介质流化床
气速
细粒煤
流化特性
分选特性
air dense medium fluidized bed
gas velocity
fine coal
fluidization characteristics
separation characteristics
