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1)  biolipid [,baiəu'laipid]
生物油脂
2)  microbial oil
微生物油脂
1.
After nitrogen depletion,significant fatty acid quantities were accumulated inside the fungal mycelia(50%~55%,weight oil ratio in dry biomass),resulting in a notable microbial oil production of 18.
氮源耗尽后,菌体中重要的脂肪酸得到积累,其油脂含量为50%~55%,微生物油脂产量为18。
2.
The advantage, technology, effect factors in preparation of microbial oils and its utilization were introduced in paper.
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。
3.
The microbial oil richen in AA has been refined.
对经过发酵、浸提得到的富含AA的微生物油脂进行脱胶、碱炼、脱色、脱臭等精炼处理。
3)  microorganism grease
微生物油脂
1.
One option could be the exploitation of carbohydrate-based microorganism greasea,s it consists of similar fatty acids to that of plant oila,nd some organisms may also produce glycerides with high content of poly-unsatu-rated fatty acids(PUFAs).
生物油脂主要是微生物利用碳水化合物合成的甘油酯,其脂肪酸组成和植物油相近,有的还含有较丰富的多不饱和脂肪酸,具有广阔的开发应用前景。
2.
This thesis summarized the significance and production technology of studying and developing microorganism grease.
阐述了研究开发微生物油脂的意义、生产工艺以及影响微生物积累油脂的各种主要因素。
3.
The transesterification of microorganism grease with short-chain alcohols,in the presence of base-catalyst,by means of low frequency ultrasound(28 and 40kHz) in order to obtain biodiesel fuel was studied.
研究了在低频超声波(28 kHz和40 kHz)的辅助作用下,微生物油脂与短链醇在碱催化作用下进行酯交换反应。
4)  microbial oils
微生物油脂
1.
Research advance and prospect in microbial oils;
生物油脂的研究进展及展望
2.
The application and transformation of cellulosic biomass can settle the issue of agriculture,renewable energy and environmental pollution,in which cellulase is responsible for conversion of renewable cellulosic biomass to simple sugars for fermentation to ethanol,?H2 and microbial oils and has been paid more and more attention.
纤维素酶能有效地将纤维素物质水解成单糖,进而发酵生产乙醇、氢气以及微生物油脂等,因此纤维素酶日益受到人们的关注。
3.
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.
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。
5)  microbial lipids
微生物油脂
1.
Research on cellulase cooperative hydrolysis of corn stalk and microbial lipids fermentation from hydrolysates;
多纤维素酶协同降解玉米秸秆及水解液微生物油脂发酵研究
6)  microbial lipid
微生物油脂
1.
Progress in and prospect of microbial lipid production by fermentation;
生物油脂研究进展及展望
2.
Fermentation of Spartina anglica acid hydrolysate by Trichosporon cutaneum for microbial lipid production;
皮状丝孢酵母利用大米草水解液发酵生产微生物油脂
3.
The history and development situation of the research on microbial lipids were reviewed, and the effects of carbon source?nitrogen source?temperature?pH value?culture time and aeration on producing lipid were introduced.
综述了国内外微生物油脂发展和研究的现状,分析了碳源、氮源、温度、pH值、培养时间、通气量等对菌体生长及油脂积累的影响,阐述了微生物油脂生产工艺中的一些关键环节,包括菌体的预处理、微生物油脂的提取、微生物油脂的精炼和分析等,展望了微生物油脂未来的发展方向和在生物柴油制备中的应用前景。
补充资料:动物油脂与硫化植物油脂的混合物
CAS:68990-99-8
中文名称:动物油脂与硫化植物油脂的混合物
英文名称:Fats, animal, mixed with vegetable oils, sulfurized; Fats,animal,mixed with vegetable oils,sulfurized
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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