化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
9期
3262-3266
,共5页
于传瑞%赵娜%郭爱军%王宗贤
于傳瑞%趙娜%郭愛軍%王宗賢
우전서%조나%곽애군%왕종현
煤焦油%喹啉不溶物%分离%联合处理法
煤焦油%喹啉不溶物%分離%聯閤處理法
매초유%규람불용물%분리%연합처리법
coal tar%quinoline insolubles%separation%combined process
煤焦油是一种制备高附加值碳材料的理想原料,然而其深加工利用受到内部高含量喹啉不溶物(QI)的影响.为此,本文介绍了煤焦油的组成和性质,简述了煤焦油中QI的组成、来源和其对煤焦油加工利用的危害,综合对比分析了煤焦油净化分离常用的几种方法.热过滤法分离效率虽然满足工业需求,但工业成本较高;重力沉降法操作简单,但分离效率低;离心分离法分离效率高,但处理量小,难以满足工业化应用;蒸馏处理法分离效率高,但原料利用率低;溶剂萃取法容易操作,但溶剂需求量大;改质法效果明显,但成本较高;静电分离法能量消耗低,但静电分离最佳条件变动性较大;联合处理法分离效率较高,应用前景广阔,可以作为一种净化分离的科学有效方法,并可以作为一种净化分离技术的发展趋势.
煤焦油是一種製備高附加值碳材料的理想原料,然而其深加工利用受到內部高含量喹啉不溶物(QI)的影響.為此,本文介紹瞭煤焦油的組成和性質,簡述瞭煤焦油中QI的組成、來源和其對煤焦油加工利用的危害,綜閤對比分析瞭煤焦油淨化分離常用的幾種方法.熱過濾法分離效率雖然滿足工業需求,但工業成本較高;重力沉降法操作簡單,但分離效率低;離心分離法分離效率高,但處理量小,難以滿足工業化應用;蒸餾處理法分離效率高,但原料利用率低;溶劑萃取法容易操作,但溶劑需求量大;改質法效果明顯,但成本較高;靜電分離法能量消耗低,但靜電分離最佳條件變動性較大;聯閤處理法分離效率較高,應用前景廣闊,可以作為一種淨化分離的科學有效方法,併可以作為一種淨化分離技術的髮展趨勢.
매초유시일충제비고부가치탄재료적이상원료,연이기심가공이용수도내부고함량규람불용물(QI)적영향.위차,본문개소료매초유적조성화성질,간술료매초유중QI적조성、래원화기대매초유가공이용적위해,종합대비분석료매초유정화분리상용적궤충방법.열과려법분리효솔수연만족공업수구,단공업성본교고;중력침강법조작간단,단분리효솔저;리심분리법분리효솔고,단처리량소,난이만족공업화응용;증류처리법분리효솔고,단원료이용솔저;용제췌취법용역조작,단용제수구량대;개질법효과명현,단성본교고;정전분리법능량소모저,단정전분리최가조건변동성교대;연합처리법분리효솔교고,응용전경엄활,가이작위일충정화분리적과학유효방법,병가이작위일충정화분리기술적발전추세.
Coal tar is a kind of ideal feedstock to produce high value-added carbon materials. However,its high content of quinoline insoluble(QI) limits its utilization seriously. Typical properties of coal tar are introduced first. The composition and origin of QI as well as their damages to the utilization of coal tar are described briefly. Then,methods commonly used to remove QI are reviewed and compared in detail in terms of efficiency and feasibility. The separation efficiency of hot filtering process could meet the industrial requirement,but its cost is too high. The gravity sedimentation process can be simply operated,whereas,it shows a low separation efficiency. For centrifugation and distillation,the separation efficiency is both high,but they are limited by their low handing capacity and low utilization ratio of feedstock,respectively. The operation of solvent extraction process is simple,but it consumes a great deal of solvent. The effect of modification process is obvious; however,its cost is high. The energy consumption of electrostatic separation method is low,however, the optimum condition is difficult to regulate and control. Combined process not only significantly removes QI,but also has excellent application prospect. The combined process is considered to be a scientifically feasible and effective method to remove QI in coal tar,and it can become a promising coal tar purification technology as a future research focus.