化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
8期
1986-1991
,共6页
油砂%溶剂萃取%离子液体%沥青
油砂%溶劑萃取%離子液體%瀝青
유사%용제췌취%리자액체%력청
oil sands%solvent extraction%ionic liquid%bitumen
传统水洗法和溶剂萃取法萃取油砂沥青时,存在沥青中含有沙土和残沙中含有油等缺点。为解决上述缺点,本文采用不同比例的乙酸甲酯/正庚烷复合溶剂萃取油砂沥青,研究了离子液体(1-丁基-3-甲基咪唑四氟硼酸盐,[Emim]BF4)对该溶剂萃取体系的萃取率和分离洁净程度的影响。采用红外光谱仪和扫描电镜对萃取后的残沙和沥青的洁净程度进行了定性分析,并结合元素分析仪和电感耦合等离子体发射光谱仪获得萃取后残沙和沥青的洁净程度的定量结果。实验结果表明:当复合溶剂体积比为2∶3时,[Emim]BF4促使沥青回收率达到最大值94.20%,比单纯复合溶剂萃取体系的最大萃取率高7.92%;通过上述测试方法的定性和定量分析,证明了[Emim]BF4能有效解决沥青夹带沙土和残沙中含油的问题。
傳統水洗法和溶劑萃取法萃取油砂瀝青時,存在瀝青中含有沙土和殘沙中含有油等缺點。為解決上述缺點,本文採用不同比例的乙痠甲酯/正庚烷複閤溶劑萃取油砂瀝青,研究瞭離子液體(1-丁基-3-甲基咪唑四氟硼痠鹽,[Emim]BF4)對該溶劑萃取體繫的萃取率和分離潔淨程度的影響。採用紅外光譜儀和掃描電鏡對萃取後的殘沙和瀝青的潔淨程度進行瞭定性分析,併結閤元素分析儀和電感耦閤等離子體髮射光譜儀穫得萃取後殘沙和瀝青的潔淨程度的定量結果。實驗結果錶明:噹複閤溶劑體積比為2∶3時,[Emim]BF4促使瀝青迴收率達到最大值94.20%,比單純複閤溶劑萃取體繫的最大萃取率高7.92%;通過上述測試方法的定性和定量分析,證明瞭[Emim]BF4能有效解決瀝青夾帶沙土和殘沙中含油的問題。
전통수세법화용제췌취법췌취유사력청시,존재력청중함유사토화잔사중함유유등결점。위해결상술결점,본문채용불동비례적을산갑지/정경완복합용제췌취유사력청,연구료리자액체(1-정기-3-갑기미서사불붕산염,[Emim]BF4)대해용제췌취체계적췌취솔화분리길정정도적영향。채용홍외광보의화소묘전경대췌취후적잔사화력청적길정정도진행료정성분석,병결합원소분석의화전감우합등리자체발사광보의획득췌취후잔사화력청적길정정도적정량결과。실험결과표명:당복합용제체적비위2∶3시,[Emim]BF4촉사력청회수솔체도최대치94.20%,비단순복합용제췌취체계적최대췌취솔고7.92%;통과상술측시방법적정성화정량분석,증명료[Emim]BF4능유효해결력청협대사토화잔사중함유적문제。
Both traditional water extraction and solvent extraction to extract bitumen from oil sands have their drawbacks,such as sand/clay entraining into bitumen and bitumen remaining in residual sands. To resolve these problems,an ionic liquid ([Emim]BF4) was used to enhance bitumen recovery from Canadian oil sands by methyl acetate/n-heptane. FTIR and SEM were used to qualitatively analyze the cleanliness of bitumen and residual sand. Quantitative results of fine sand/clay in bitumen and organic matter remaining in residual sand were also obtained by coupling SEM with Elementar and ICP. The optimal volume ratio of methyl acetate to n-heptane was 2∶3. Meanwhile [Emim]BF4 increased bitumen recovery ratio to 94.20%, 7.92% higher than composite solvent extraction without [Emim]BF4. The results obtained from FTIR , SEM , Elementar and ICP demonstrated that [Emim]BF4 could enhance bitumen separation efficiently. Negligible sand/clay was entrained in extracted bitumen,and no IL or bitumen was found in the treated sand.