1) soybean oil
大豆毛油
1.
Extraction of lecithin from soybean oil.;
大豆毛油中提取卵磷脂的研究
2.
The study is extracting lecithin from soybean oil.
对从大豆毛油中提取卵磷脂的工艺进行了研究。
2) Black soybean oil
黑大豆油
1.
Low temperature pressing prepare black soybean oil and its physical and chemical characteristics;
低温压榨法生产黑大豆油及其理化特性的研究
3) Soybean oil
大豆油
1.
Preparation of ethyl ester of soybean oil and its application in printing ink;
大豆油脂肪酸乙酯的制备及其在印刷油墨中的应用
2.
Biodiesel preparation from transesterification of soybean oil by LiNO_3/ZrO_2 catalyst;
LiNO_3/ZrO_2催化大豆油酯交换制备生物柴油
3.
Extraction of lycopene and its stability,antioxidation in soybean oil;
番茄红素的提取及其在大豆油中稳定性、抗氧化性的研究
4) soybean oil sediments
大豆油脚
1.
Extracting method of soybean phospholipid in soybean oil sediments;
大豆油脚中大豆磷脂的提取
2.
Isolation and identification of phytosterol and byproducts from soybean oil sediments;
分离和鉴定大豆油脚中甾醇及副产物成分
5) soybean oil sediment
大豆油脚
1.
Preparation and properties of biodiesel from extracted oil of soybean oil sediment;
大豆油脚浸出油制备生物柴油及性能研究
2.
The soybean phosphatidylethanolamine and phosphatidylinositol were prepared by combining methods of solvents extraction and silica gel column chromatography from soybean oil sediment.
采用溶剂萃取法和柱色谱法相结合的工艺,从大豆油脚中制备肌醇磷脂,研究了不同洗脱剂对柱色谱分离脑磷脂和肌醇磷脂效果的影响。
6) soybean oil
大豆油脂
1.
Influence of soybean oil and meal qualities produced by extruding-expelling;
挤压膨化技术对大豆油脂及豆粕质量的影响
2.
Preliminary Study on risk assessment model of soybean oil oxydation established by Monte Carlo during the period of circulation;
Monte Carlo法建立大豆油脂流通过程氧化风险评估模型的初步研究
3.
Soybean oil becomes as the basis of lubricating oils in stead of mineral oil and it is an effective way to solve the energy crisis and to implement environmental protection and sustainable development.
简单介绍了绿色润滑油概念及目前国内外应用发展情况,阐述了绿色可再生资源开发的必要性及应用前景,并对大豆油脂在绿色润滑油中的应用优势及加工处理方法作了论述。
补充资料:大豆油脂肪酸
分子式:
CAS号:
性质:由约51%亚油酸,29%油酸,7%亚麻子酸以及少量的C14~C22饱和脂肪酸组成。熔点20~24℃。溶于乙醇、乙醚等有机溶剂。可以发生酯化、氨(胺)化反应,也可以与环氧乙烷反应。将大豆油在氢氧化钠溶液中水解,再用盐酸中和而制得;亦可由大豆油经加压水解制得。主要用于生产硬脂酸的原料,也可以聚合成二聚酸作为涂料用树脂的原料,还可以分馏来制取油酸和亚油酸等。
CAS号:
性质:由约51%亚油酸,29%油酸,7%亚麻子酸以及少量的C14~C22饱和脂肪酸组成。熔点20~24℃。溶于乙醇、乙醚等有机溶剂。可以发生酯化、氨(胺)化反应,也可以与环氧乙烷反应。将大豆油在氢氧化钠溶液中水解,再用盐酸中和而制得;亦可由大豆油经加压水解制得。主要用于生产硬脂酸的原料,也可以聚合成二聚酸作为涂料用树脂的原料,还可以分馏来制取油酸和亚油酸等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条