洁净煤技术
潔淨煤技術
길정매기술
CLEAN COAL TECHNOLOGY
2014年
6期
5-8,22
,共5页
韦鲁滨%李大虎%朱学帅%刘鹏%张瑜
韋魯濱%李大虎%硃學帥%劉鵬%張瑜
위로빈%리대호%주학수%류붕%장유
褐煤%干法分选%空气重介质%热态流化床%可能偏差
褐煤%榦法分選%空氣重介質%熱態流化床%可能偏差
갈매%간법분선%공기중개질%열태류화상%가능편차
lignite%dry preparation%air dense medium%hot fluidized bed%ecart probable moyen Ep
为提高空气重介质流化床对入料煤水分的适应性,以热气代替常温空气改善流化床对褐煤的分选效果。采用可能偏差 E p为评价指标,研究了热态空气重介质流化床的干燥温度、干燥时间和风量对褐煤分选效果的影响。结果表明:干燥温度为30~50℃时,干燥温度越高,Ep越低;干燥时间为1~5 min 时,干燥时间越长,Ep越低,超过3 min 后,Ep降低缓慢;风量为8~12 m3/ h 时,风量增大,Ep先降低后升高。煤样表面水分越高,干燥温度、干燥时间和风量变化对 E p影响越显著。表面水分1%的褐煤,干燥温度50℃、干燥时间5 min、风量10 m3/ h 时,褐煤分选效果最好,Ep 可达到0.022 g / cm3。实验证明热态空气重介质流化床可用于分选潮湿褐煤。
為提高空氣重介質流化床對入料煤水分的適應性,以熱氣代替常溫空氣改善流化床對褐煤的分選效果。採用可能偏差 E p為評價指標,研究瞭熱態空氣重介質流化床的榦燥溫度、榦燥時間和風量對褐煤分選效果的影響。結果錶明:榦燥溫度為30~50℃時,榦燥溫度越高,Ep越低;榦燥時間為1~5 min 時,榦燥時間越長,Ep越低,超過3 min 後,Ep降低緩慢;風量為8~12 m3/ h 時,風量增大,Ep先降低後升高。煤樣錶麵水分越高,榦燥溫度、榦燥時間和風量變化對 E p影響越顯著。錶麵水分1%的褐煤,榦燥溫度50℃、榦燥時間5 min、風量10 m3/ h 時,褐煤分選效果最好,Ep 可達到0.022 g / cm3。實驗證明熱態空氣重介質流化床可用于分選潮濕褐煤。
위제고공기중개질류화상대입료매수분적괄응성,이열기대체상온공기개선류화상대갈매적분선효과。채용가능편차 E p위평개지표,연구료열태공기중개질류화상적간조온도、간조시간화풍량대갈매분선효과적영향。결과표명:간조온도위30~50℃시,간조온도월고,Ep월저;간조시간위1~5 min 시,간조시간월장,Ep월저,초과3 min 후,Ep강저완만;풍량위8~12 m3/ h 시,풍량증대,Ep선강저후승고。매양표면수분월고,간조온도、간조시간화풍량변화대 E p영향월현저。표면수분1%적갈매,간조온도50℃、간조시간5 min、풍량10 m3/ h 시,갈매분선효과최호,Ep 가체도0.022 g / cm3。실험증명열태공기중개질류화상가용우분선조습갈매。
In order to improve the adaptability of air dense medium fluidized bed on different coal moisture,the hot air was blown to the flu-idized bed instead of the air at ordinary temperature,so the lignite can be separated efficiently.The effects of drying temperature,drying time and air flow in fluidized bed were investigated with ecart probable moyen Ep .The results showed that when the drying temperature ranged from 30 ℃ to 50 ℃ ,the higher the drying temperature,the lower the value of Ep .When the drying time were between 1 minute and 5 minutes,the longer the drying time,the lower the value of Ep ,and Ep decreased slowly after drying 3 minutes.When the air speed were between 8 m3 / h and 12 m3 / h,Ep reduced first,then rose with air speed increased.The higher surface moisture of the coal sample,the more significant influence of drying temperature and time,air volume on Ep .The Ep was 0.022 g/ cm3 when the drying temperature was 50 ℃ ,the drying time was 5 minutes,and the air flow for coal sample of 1% surface moisture were 10 m3 / h.