微生物油脂

结论：资源化利用甘薯淀粉废水发酵生产微生物油脂同时降低废水COD是一条可行的途径，可以为生物柴油提供廉价油源。

Conclusion : The paper indicated that obtaining microbial oils by starch waste water fermentation While COD reducing is a practicable method , which could provide low-priced oils resource for biodiesel .

本论文以MOD-1菌株为研究对象，进行了其产油脂培养基及摇瓶发酵条件的优化，并探讨以淀粉厂废水为培养基质，发酵生产微生物油脂的可行性。

This paper optimized medium composition and fermentation conditions for lipid production from strain MOD-1 and studied on microbial oils production by strain MOD-1 growing in starch processing waste water .

CO2超临界萃取技术富集微生物油脂中花生四烯酸的研究

Study on Arachidonic Acid Richness from Microbial Oil by Supercritical CO_2 Fluid Technology

微生物油脂PUFAS微囊粉胶囊剂的药理学和毒理学研究

Study on the Toxicity and Pharmacological Effects of the Capsule of Microbial Grease PUFAs Microcapsule Powder

早期的微生物油脂研究主要集中在γ-亚麻酸（GLA）、花生四烯酸（ARA）、二十碳五烯酸（FPA）、二十二碳六烯酸（DHA）等功能性油脂的开发上。

Early research on microbial oil mainly focused on γ - linolenic acid , arachidonic acid , eicosapentaenoic acid , docosahexaenoic acid and other functional polyunsaturated fatty acids .

为了开发微生物油脂生产微生物柴油，以胶红酵母油脂为材料，以脂肪酸不饱和指数（UIFA）为指标，探讨了微生物油脂生成脂肪酸甲酯工艺的影响因素。

To produce micro-biodiesel from microbial oil , transesterification conditions were studied using oil from Rhodotorula glutinis as raw material using unsaturation index of fatty acid ( UIFA ) as index .

脲包法富集微生物油脂中花生四烯酸的研究

Enrichment of Arachidonic Acid from Microbial Oil by Urea Inclusion

利用味精废水发酵生产微生物油脂的研究

Studies on Microbial Oil Fermented in Monosodium Glutamate Waste Water

利用木质纤维素水解液发酵生产微生物油脂的研究

Study on Microbial Oil Production by Fermentation of Lignocellulose Hydrolyzate

高效液相色谱法分离纯化微生物油脂中的花生四烯酸

Isolation and Purification of Arachidonic Acid in Microbial Lipids by High Performance Liquid Chromatography

微生物油脂的生产工艺及其影响因素

Production technology and influencing factors of microorganism grease

微生物油脂是继动植物油脂后开发的一种新油脂资源。

Microbial oil is a new kind of resources after animal and vegetable oil .

加快微生物油脂研究为生物柴油产业提供廉价原料

Toward Cheaper Microbial Oil for Biodiesel Oil

微生物油脂及其生产工艺的研究进展

Microbial oils and its research advance

皮状丝孢酵母在酶法水解丢糟生产微生物油脂中的应用

Application of Trichosporon cutaneum in the Production of Microbial Oil by Enzymatic Hydrolysis of Distiller 's Grains

目的：利用甘薯淀粉废水发酵低成本获取微生物油脂。

Objective : The paper aided to obtain microbial oils of low cost by starch waste water fermentation .

微生物油脂是一种油脂新资源，该文介绍微生物油脂生产的优点、工艺、影响因素及其利用形式。

The advantage , technology , effect factors in preparation of microbial oils and its utilization were introduced in paper .

对微生物油脂的结构、原材料及其作为生物柴油原料的可行性进行了分析。

The structure of microgrease , its raw material and the feasibility of it as feedstock biodiesel production are analyzed .

生物柴油是急剧减少的化石燃料的良好的替代能源，微生物油脂被看做生物柴油生产的在成本和质量等各方面具有优势的原料。

Biodiesel is a good alternative for fossil fuels , and microbial oil is particularly the most potential raw material of biodiesel production .

近年来，以微生物油脂为原料的生物柴油的生产由于生产成本较低、油脂成分与植物油相似而受到社会各界广泛关注。

Recently , biodiesel produced from microbial lipid has been received wide attention around the world for its sustainability and similar contents with plant oil .

然而，目前微生物油脂生产成本偏高，研究工作仍以富含多不饱和脂肪酸的高附加值菌油为目标。

Up to date , high cost is still the major barrier to large-scale production of microbial oil , so research is focused on those with high poly-unsaturated fatty acids content .

本文扼要地介绍微生物油脂世界研究状况，γ&亚麻酸油脂生理功能及本项目研究初步结果。

This article briefly introduces the research situation of microbiological oil and fat in the world , physiological function of γ - linolenic acid and the preliminary result of this item .

在能源危机日益严重的情况下，利用微生物油脂为原料制备生物柴油在未来生物质能源产业中将发挥重要作用，因此获得高产油脂菌株具有重要意义。

With the energy crisis becoming more serious , the method of production biodiesel oil using microbial as an raw material will play an important role in the future biomass energy industry .

大多数微生物油脂富含可以降低血清胆固醇的不饱和脂肪酸，具有促进人类健康的重要作用，同时也可以作为生物柴油生产的油脂原料。

A lot of microbial oil is rich in polyunsaturated fatty acids which can lower the serum cholesterol . So they play an important role in the health of human being , which are also raw materials of the biodiesel production .

本研究对于提高生物质资源利用及降低微生物油脂生产成本具有重要意义，并且有助于解决以油脂为原料大规模生产生物柴油瓶颈问题。

This study is of great significance to realize the high-value utilization of biomass resources and reduce the microbial oil production cost as well . It also helps to solve the bottleneck problem of oil raw material which hinders the large-scale production and wide application of biodiesel .

目前，葡萄糖是微生物合成油脂的主要碳源。

At present , glucose is the major carbon source in the synthesis of microbial oil .

但微生物生产油脂成分复杂，难以满足生物柴油对长链单不饱和脂肪酸的要求。

However , complicated components of microbial oils can not meet the requirement of biodiesel to long-chain monounsaturated fatty acid .

综述了培养微生物生产油脂的发展历史及研究现状，讨论了产油影响因素，对于其瓶颈因素碳源和氮源的影响。

The history and development situation of the research on microbial oils including microalgae oils were reviewed in this paper .

介绍了微生物产油脂机理，讨论了产油微生物的种类及油脂合成的影响因素，并对微生物油脂制备生物柴油的应用前景进行了分析。

The paper introduces mechanism of producing oils from microorganism , expounds the species of oleaginous microorganism and the factors influencing oil synthesis , and analyzes the application prospect of biodiesel produced from microbial oils .

微生物发酵产油脂的研究进展

New Advance in Production of Lipids by Microbial Fermentation