1·The conversion of butyric acid was over 80%.
在此条件下正丁酸的转化率在80%以上。
2·Butyric Acid Glycerides, Glycerol, Lactic Acid and Silicon Dioxide.
丁酸甘油酯,甘油,乳酸和二氧化硅。
3·It was found that the fermentation type was a butyric acid type fermentation.
并且确定发酵类型以“丁酸型”为主。
4·Lactic acid, acetic acid and butyric acid coexisted in sour brewing products.
酸味酿造产品中乳酸、醋酸、丁酸共存,但比例不同形成的酸味特征也不同。
5·Many times, the active ingredient of such preparations is GABA, or gamma amino butyric acid.
多次的此类的准备工作的有效成分是GABA或伽玛氨基酸丁。
6·After acetic acid is consumed, butyric acid gradually transformed from being used and consumed.
丁酸在乙酸消耗后也逐渐转化被利用而消耗。
7·The mechanism of butyric acid is multifaceted and its involvement in the regulation of gene expression.
丁酸的作用机制是多方面的,其中许多机制与其参与基因表达的调控作用有关。
8·Isoamyl butyrate was synthesized from butyric acid and isoamyl catalyzed by composite solid acid as the catalyst.
用丁酸和异戊醇为原料,复合固体酸为催化剂合成了丁酸异戊酯。
9·Benzyl butyrate was synthesized from benzyl alcohol and butyric acid by esterification using ceric sulfate as catalyst.
以硫酸高铈为催化剂,丁酸和苄醇为原料合成丁酸苄酯。
10·Objective To explore the eradicating effect of butyric acid bacillary drug in childrens helicobacter pylori (HP) infection.
目的探讨酪酸菌制剂对儿童幽门螺杆菌(HP)根除的效果。
1·Female ginkgoes produce the troublesome seeds, which are covered in a fleshy coating that contains butyric acid, also found in rancid butter.
雌性的银杏树会结果实,造成困扰;果实外壳厚实,含有丁酸,这种成分也会出现在酸腐的牛油中。
2·Acid kind basically is lactic acid, acetic acid and butyric acid and caproic acid etc of organic acids, influence of liquor taste and after taste.
酸类主要是乳酸、乙酸、丁酸和己酸等有机酸类,影响白酒的口感和后味。
3·In addition, some organic acids with the bad breath, such as butyric acid and propionic acid, and indole, methyl indole compounds and cadaverine.
此外,一些有机酸也与口臭有关,如丁酸和丙酸,以及吲哚、甲基吲哚和尸胺等化合物。
4·Butyric Acid Glycerides, Glycerol, Lactic Acid and Silicon Dioxide.
丁酸甘油酯,甘油,乳酸和二氧化硅。
5·The performance of the catalysts for hydrodeoxygenation of model organic compounds, butyric acid and butanol, was investigated in a continuous fixed bed reactor.
以有机含氧化合物丁酸和丁醇为合成油品的模型化合物,在连续流动固定床反应器中考察了催化剂的加氢脱氧性能。