1) binary strong acid
二元强酸
2) C21 dicarboxylic acid
C21二元酸
1.
Linoleic acid is combined in C21 dicarboxylic acid after conjugation and Didels - Alder reaction with acrylic acid.
以棉籽油皂脚为原料,经皂化、酸解及蒸馏得到富含亚油酸的皂脚脂肪酸,亚油酸经共轭化后和丙烯酸发生Didels-Alder反应合成了C21二元酸,共轭反应用碘为催化剂,催化剂碘的用量为亚油酸质量的0。
3) dicarboxylic acid
二元羧酸
1.
Aim To synthesize O acyl or S acyl amino acids by condensation of dicarboxylic acids and amino acids.
目的寻找能将氨基酸侧链的羟基、巯基与二元羧酸连接成酯的方法。
4) binary acid
二元酸
1.
Laboratory ex periment results show that the yields of adipic acid and binary acid come up t0 8% (wt) and 4% (wt) of BI wastewater respectivel
通过小试研究得出,已二酸和其他二元酸的收率分别约为BI废水的8%(wt)和4%(wt)。
5) dicarboxylic acids
二元酸
1.
A process and related operating conditions were studied in detail for preparing glutaricacid peroxide from a mixture of dicarboxylic acids,which is a by-product in the manufact-ure of adipic acid.
详细研究利用生产己二酸副产的混合二元酸制取过氧化戌二酸的工艺流程和操作条件。
2.
Many impurities such as carboxylic acids, dicarboxylic acids and silicon in the concentrated sodium aluminate solution influence the seeded precipitation in Bayer digestion process.
本文依据氧化铝生产实际情况,选择了三种小分子一元酸(甲酸、乙酸、丙酸)、三种小分子二元酸(草酸、丁二酸、戊二酸)和硅酸作为研究杂质,分别研究了在上述杂质存在时,不同温度条件下铝酸钠溶液种分分解率、产品粒度、x射线衍射图及产品氢氧化铝热重的变化情况,探讨了小分子有机酸分子及硅酸对种分过程的作用规律,并结合量子化学计算方法分析了小分子有机酸及硅酸的可能作用机制,并得到结论如下: 1。
3.
Concentrations of 33 fatty acids(C10~C32)and 10 dicarboxylic acids from PM2.
5中33种脂肪酸(C10~C32)和10种二元酸(diC2~diC11)的含量。
6) Dicarboxylic acids
二元羧酸
1.
Effect of dicarboxylic acids on phases compositions of calcium oxalate;
二元羧酸对草酸钙结晶的调控作用
2.
Supramolecular Complexes and Titanocene Complexes Constructed by Dicarboxylic Acids (H_2DTB, H_2TDA) and Containing N and O Ligands;
二元羧酸(H_2DTB,H_2TDA)与含氮配体构筑的超分子配合物及茂钛类配合物
补充资料:石油馏出液中的氧化轻油强酸成分与二乙醇胺的化合物
CAS:68602-96-0
分子式:C4H11NO2·W99
中文名称:石油馏出液中的氧化轻油强酸成分与二乙醇胺的化合物
英文名称:Distillates, petroleum, oxidized light, strong acid components, compds. with diethanolamine
分子式:C4H11NO2·W99
中文名称:石油馏出液中的氧化轻油强酸成分与二乙醇胺的化合物
英文名称:Distillates, petroleum, oxidized light, strong acid components, compds. with diethanolamine
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