高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2013年
1期
38-42
,共5页
马岩龙%叶世超%辛杨杨%白洁%张则光
馬巖龍%葉世超%辛楊楊%白潔%張則光
마암룡%협세초%신양양%백길%장칙광
微孔分散%萃取塔%净化%湿法磷酸%磷酸三丁酯TBP
微孔分散%萃取塔%淨化%濕法燐痠%燐痠三丁酯TBP
미공분산%췌취탑%정화%습법린산%린산삼정지TBP
micropore dispersion%extraction column%purification%wet-process phosphoric acid%tri-butyl-phosphate TBP
在设计的新型微孔分散轮盘塔中,采用微孔分散技术对萃取过程进行强化传质,以磷酸/水/TBP+煤油为实验体系,研究了该萃取设备净化湿法磷酸的萃取特性.考察了孔径为75μm的微孔网分散轮盘在不同相比、转速、停留时间下对萃取率和反萃取率的影响,并在不同转速下与普通转盘塔进行了对比,结果表明:微分散轮盘比普通转盘有较好的分散效果,其中转速对其有明显影响;萃取的适宜条件为转速250 r?min?1,相比4:1,停留时间10 min,磷酸萃取率可达54.92%;当转速250 r?min?1,相比为6,停留时间15 min,磷酸反萃率可达85.33%.
在設計的新型微孔分散輪盤塔中,採用微孔分散技術對萃取過程進行彊化傳質,以燐痠/水/TBP+煤油為實驗體繫,研究瞭該萃取設備淨化濕法燐痠的萃取特性.攷察瞭孔徑為75μm的微孔網分散輪盤在不同相比、轉速、停留時間下對萃取率和反萃取率的影響,併在不同轉速下與普通轉盤塔進行瞭對比,結果錶明:微分散輪盤比普通轉盤有較好的分散效果,其中轉速對其有明顯影響;萃取的適宜條件為轉速250 r?min?1,相比4:1,停留時間10 min,燐痠萃取率可達54.92%;噹轉速250 r?min?1,相比為6,停留時間15 min,燐痠反萃率可達85.33%.
재설계적신형미공분산륜반탑중,채용미공분산기술대췌취과정진행강화전질,이린산/수/TBP+매유위실험체계,연구료해췌취설비정화습법린산적췌취특성.고찰료공경위75μm적미공망분산륜반재불동상비、전속、정류시간하대췌취솔화반췌취솔적영향,병재불동전속하여보통전반탑진행료대비,결과표명:미분산륜반비보통전반유교호적분산효과,기중전속대기유명현영향;췌취적괄의조건위전속250 r?min?1,상비4:1,정류시간10 min,린산췌취솔가체54.92%;당전속250 r?min?1,상비위6,정류시간15 min,린산반췌솔가체85.33%.
The micropore dispersion technique was used to enhance the mass transfer of the solvent extraction, and a new type of micropore dispersion rotating impeller column was designed for the extraction of phosphoric acid from wet-process phosphoric acid. The extraction characteristic was studied with water/phosphoric aid/TBP+kerosene as the experimental system in a micropore dispersion rotating disc column with membrane having holes of 75μm diameter as dispersion device. The effects of phase ratio, residence time and rotational speed on the extraction and reverse extraction efficiencies were investigated. The experimental results indicate that, comparing with the normal disc, the micropore dispersion impeller shows better dispersion performance. The influence of rotational speed of the micropore dispersion impeller on the dispersion performance is obvious, and when the phase ratio is 4:1, the residence time is 10 min and the rotational speed is 250 r?min-1, the extract efficiency of phosphoric acid can reach about 54.92%. For the reverse extraction, when the phase ratio is 6:1, the residence time is 15 min and the rotational speed is 250 r?min-1, the reverse extract efficiency can reach about 85.33%.