[1]孟冠军,梁 宁,周 龙,等.产表面活性剂微生物的筛选鉴定及其所产表面活性物质的研究[J].大众科技,2019,21(11):21-24.
 Screening and Identification of Surfactant Producing Microorganisms and Study on Their Surfactant Producing Substances[J].Popular Science & Technology,2019,21(11):21-24.
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产表面活性剂微生物的筛选鉴定及其所产表面活性物质的研究()
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《大众科技》[ISSN:1008-1151/CN:45-1235/N]

卷:
21
期数:
2019年11
页码:
21-24
栏目:
轻工与化工
出版日期:
2019-11-20

文章信息/Info

Title:
Screening and Identification of Surfactant Producing Microorganisms and Study on Their Surfactant Producing Substances
作者:
孟冠军 梁 宁 周 龙 曾妍骅 莫福金
(桂林理工大学南宁分校,广西 崇左 532100)
关键词:
石油污染物微生物筛选鉴定表面活性剂
Keywords:
petroleum pollutant microbial screening and identification surfactant
文献标志码:
A
摘要:
微生物修复技术是一种治理石油污染土壤的有效、重要的技术手段,具有高效、安全、经济、无二次污染等优 点。微生物表面活性剂比化学合成表面活性剂具有更多优点,在提高石油烃的生物可利用性上更加高效,提高了微生物对石油烃的降解效率。因此,越来越多的国内外学者关注于微生物表面活性剂强化石油污染土壤降解的生物修复技术,现阶段我国应 优先考虑使用的处理技术。文章的研究重点是在自然环境中分离微生物进行富集培养,分离选育出能产生表面活性剂的优良石油降解菌种,并对其产生的表面活性剂进行离子分析、薄层分析、红外光谱分析等,确定菌株产生的表面活性剂为糖脂类阴离 子型表面活性剂。
Abstract:
Microbiological remediation technology is an effective and important technical means to treat oil-polluted soil. It has the advantages of high efficiency, safety, economy and no secondary pollution. Microbial surfactant has more advantages than synthetic surfactants, in improving oil hydrocarbon on the biological availability of more efficient, improve the efficiency of the microbial degradation of petroleum hydrocarbons. Thus more and more domestic and foreign scholars focus on the microbial surfactant strengthen the degradation of petroleum contaminated soil bioremediation technology, priority should be given to the use of technology in our country at present stage. Research emphasis of the paper is in a natural environment separating microorganism enrichment culture, breeding separation can produce excellent surfactant oil degradation strains, and the analyses ion surfactant and thin layer analysis, infrared spectrum analysis, etc., to determine the strain of surfactant for sugar, lipid anionic surfactant.

参考文献/References:

[1] Banat I M. Biosurfactant Production and possible uses in microbial enhanced oil recovery and oil pollution remediation:a review[J]. Bioresource Technology, 1995, (51): 1-12. [2] Cumaraswamy Vipulanandan, ASCE, Xupeng Ren, et al. Enhanced solubility and biodegradation of naphthalene with biosurfactant[J]. Journal of environmental engineering, 2000, 126(7): 629-634. [3] Daniel P C, Andrew J H. Microorganism selection and biosurfactant production in a continuously and perodically operated bioslurry reactor[J]. Journal of Hazardous Materials, 2001, 84(2): 253-264. [4] Singer M E, Finnerty W R. Physiology of biosurfactant synthesis by Rhodococcus species H13-A [J]. Canadian Journal of Microbiology, 1990, 36(11): 741-745. [5] Bryant R S, Stepp A K, Bertus K M, et al. Microbialenhanced waterflooding field pilots[J]. Developments in Petroleum Science, 1993(39): 289-306.

备注/Memo

备注/Memo:
【收稿日期】2019-09-05 【作者简介】孟冠军(1991-),男,桂林理工大学南宁分校教师,研究方向为三废治理。
更新日期/Last Update: 2020-02-15