化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
12期
3139-3143
,共5页
孙永利%卢伟%肖晓明%刘玉花%刘学宽
孫永利%盧偉%肖曉明%劉玉花%劉學寬
손영리%로위%초효명%류옥화%류학관
碳16%碳18%混合脂肪酸%分离%精馏%结晶
碳16%碳18%混閤脂肪痠%分離%精餾%結晶
탄16%탄18%혼합지방산%분리%정류%결정
C16%C18%fatty acid mixtures%separation%distillation%crystallization
C16、C18混合脂肪酸中含有很多经济价值很高的组分,若能将这些组分分离出来加以利用,将极大地提高混合脂肪酸的利用价值,因此研究C16、C18混合脂肪酸的分离技术具有非常重要的意义。本文介绍了减压精馏、低温结晶、尿素包合、银离子络合、生物酶催化法等C16、C18混合脂肪酸分离方法在近十年来的研究进展,并分析了各种分离方法的优缺点和适用范围。减压精馏可以有效地将混合脂肪酸分离成C16组分与C18组分,但该法的主要问题是加热易使不饱和组分变质。尿素包合法最常用来分离C16、C18混合脂肪酸中的饱和组分与不饱和组分,目前对该法的研究主要集中在工艺条件的优化与改善。生物酶催化法选择性高、反应条件温和、绿色环保,目前已被用来分离α-亚麻酸以及γ-亚麻酸且效果良好。最后展望了C16、C18混合脂肪酸分离技术的发展前景,指出两种或多种分离方法组合以及生物酶催化法将是未来的发展趋势。
C16、C18混閤脂肪痠中含有很多經濟價值很高的組分,若能將這些組分分離齣來加以利用,將極大地提高混閤脂肪痠的利用價值,因此研究C16、C18混閤脂肪痠的分離技術具有非常重要的意義。本文介紹瞭減壓精餾、低溫結晶、尿素包閤、銀離子絡閤、生物酶催化法等C16、C18混閤脂肪痠分離方法在近十年來的研究進展,併分析瞭各種分離方法的優缺點和適用範圍。減壓精餾可以有效地將混閤脂肪痠分離成C16組分與C18組分,但該法的主要問題是加熱易使不飽和組分變質。尿素包閤法最常用來分離C16、C18混閤脂肪痠中的飽和組分與不飽和組分,目前對該法的研究主要集中在工藝條件的優化與改善。生物酶催化法選擇性高、反應條件溫和、綠色環保,目前已被用來分離α-亞痳痠以及γ-亞痳痠且效果良好。最後展望瞭C16、C18混閤脂肪痠分離技術的髮展前景,指齣兩種或多種分離方法組閤以及生物酶催化法將是未來的髮展趨勢。
C16、C18혼합지방산중함유흔다경제개치흔고적조분,약능장저사조분분리출래가이이용,장겁대지제고혼합지방산적이용개치,인차연구C16、C18혼합지방산적분리기술구유비상중요적의의。본문개소료감압정류、저온결정、뇨소포합、은리자락합、생물매최화법등C16、C18혼합지방산분리방법재근십년래적연구진전,병분석료각충분리방법적우결점화괄용범위。감압정류가이유효지장혼합지방산분리성C16조분여C18조분,단해법적주요문제시가열역사불포화조분변질。뇨소포합법최상용래분리C16、C18혼합지방산중적포화조분여불포화조분,목전대해법적연구주요집중재공예조건적우화여개선。생물매최화법선택성고、반응조건온화、록색배보,목전이피용래분리α-아마산이급γ-아마산차효과량호。최후전망료C16、C18혼합지방산분리기술적발전전경,지출량충혹다충분리방법조합이급생물매최화법장시미래적발전추세。
C16 and C18 fatty acid mixtures contain many high value components. Separating these components could greatly increase profit. So it is of great importance to study the separation technology of C16 and C18 fatty acid mixtures. Development of C16 and C18 fatty acid mixtures separation technology in the recent 10 years is reviewed,such as vacuum distillation,urea inclusion,π-complexing with Ag+,low temperature crystallization,and lipase-catalyzed method. The advantages and disadvantages of such separation methods are discussed. Vacuum distillation can effectively separate fatty acid mixtures into C16 and C18 components. Its main problem is that unsaturated components are prone to isomerization and polymerization under heating. Urea inclusion is usually used to separate saturated and unsaturated components in C16 and C18 mixtures. Current research on this method is focused on optimization and improvement of operating conditions. Lipase-catalyzed method is of high selectivity,environmentally friendly and can be operated under mild conditions. Now it has been used to concentrateα-linolenic acid andγ-linolenic acid,achieving good separation results. The prospects of C16 and C18 fatty acid mixtures separation technology are analyzed,pointing out that combination of two or more methods and lipase-catalyzed method will be the future tendency.
