脂肽-糖脂混合型生物表面活性剂的性能及助剂

化工进展

脂肽-糖脂混合型生物表面活性剂的性能及助剂

刘皓1，3，杨欢2，3，袁涛1，3，李煦2，3，端木勉1，3，于慧敏2，3

1山东宝莫生物化工股份有限公司，山东东营 257081；2清华大学化学工程系，北京 100084；3清华大学（化工系）-山东宝莫生物化工股份有限公司生物化学品联合研究中心，北京 100084

出版日期:2013-12-05 发布日期:2013-12-04

Characterization of a lipopeptide-glycolipid blend biosurfactant and the effect of alcohol cosurfactant

LIU Hao1，3，YANG Huan2，3，YUAN Tao1，3，LI Xu2，3，DUAN-MU Mian1，3，YU Huimin2，3

1Shandong Polymer Bio-chemicals Co.，Ltd.，Dongying 257081，Shandong，China；2Department of Chemical Engineering，Tsinghua University，Beijing 100084，China；3Tsinghua University (DCE)-Shandong Polymer Bio-Chemicals Co. Ltd.，Joint Research Center for Bio-Chemicals，Beijing 100084，China

Online:2013-12-05 Published:2013-12-04

摘要/Abstract

摘要： 分离提取了枯草芽孢杆菌Bacillus subtilis THY-8发酵产物中的生物表面活性剂，采用飞行时间质谱鉴定为鼠李糖脂和表面活性素、芬芥素等的混合物。考察了该混合型生物表面活性剂的性能，研究了其对油砂原油的驱油效率，并探索了合适的助剂种类及配伍浓度。结果表明，THY-8所产的脂肽-糖脂混合型生物表面活性剂具有良好的表面活性、热稳定性和乳化性，pH值为5.5时表面张力为27.59 mN/m，临界胶束浓度为15 mg/L；在70 ℃放置5天，表面张力基本不变；可将液体石蜡乳化形成粒径10～30 μm的乳液。正辛醇助剂与该混合生物表面活性剂复配后界面张力降低到10?3 mN/m，驱油效率提高3.2倍。含0.9 g/L生物表面活性剂的发酵液驱油效果与正辛醇-生物表面活性剂复配体系相当。

关键词: 生物表面活性剂, 脂肽-糖脂, 表面/界面张力, 复配助剂, 驱油效率

Abstract: Biosurfactants (BS) produced by Bacillus subtilis THY-8 were extracted and identified as a blend of rhamnolipid，surfactin and fengycin，etc，by MALDI-TOF Mass Spectrometry. The blend BS remained stable when stayed at 70℃ for 5 days；and the surface tension and critical micelle concentration were 27.59 mN/m and 15 mg/L at pH5.5，respectively. When treated by BS，the liquid paraffin was emulsified into small drops in the diameter of 10—30 μm，and high recovery efficiency of crude oil from oil-sand was also obtained. Cosurfactants of BS were explored and 1-octanol was determined to be one of the optimal ones. The 1-octanol/BS complex reduced the interfacial tension of crude oil/mineralized water to 10-3 mN/m together with 3.2-fold-enhanced oil recovery efficiency. Equivalent oil washing capability was also obtained by fermentation broth with as low as 0.9 g/L BS，revealing that potential application of BS in enhanced oil recovery is promising.

Key words: biosurfactants, lipopeptide-glycolipid, surface/interfacial tension, cosurfactant, oil recovery efficiency

刘皓1，3，杨欢2，3，袁涛1，3，李煦2，3，端木勉1，3，于慧敏2，3. 脂肽-糖脂混合型生物表面活性剂的性能及助剂[J]. 化工进展.

LIU Hao1，3，YANG Huan2，3，YUAN Tao1，3，LI Xu2，3，DUAN-MU Mian1，3，YU Huimin2，3. Characterization of a lipopeptide-glycolipid blend biosurfactant and the effect of alcohol cosurfactant[J]. Chemical Industry and Engineering Progree.

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