The component and acidolysis condition of soybean hulls were primarily studied.
对大豆皮的成分、酸水解条件进行了初步研究。
The factors effected on the acidolysis of isoflavone in dry paste were also studied.
研究了干膏中酸解异黄酮的影响因素。
In this process, the acidolysis agent was produced by using urea and sulphuric acid.
该工艺将尿素与硫酸制成酸解剂,用于分解磷矿制成含n、P的尿基复合肥。
The cobalt oxide is produced from cobalt catalyst waste by using acidolysis precipitate method.
用含钴催化剂废料作原料,采用酸溶-沉淀法工艺制取氧化钴。
Uranium content in rock is positively correlative to soluble organics and acidolysis hydrocarbon by statistical count.
计算 表明:容矿层中铀和可溶有机物、酸解吸附烃含量之间具有明显的相关关系。
Compared with foe acidolysis hydrocarbon, geochemical characteristics of hydrocarbon gas and hydrogen gas are described.
探讨了土壤热蒸发烃、氢油气地球化学特征。
The scavenging capacities on DPPH radical and antioxidative activities to lard oil of the acidolysis products were improved obviously.
酸解产物清除DPPH自由基的能力和对猪油的抗氧化作用均有明显提高。
The flavone glycosides in propolis were hydrolyzed by hydrochloric acid, and the antioxidation of its acidolysis products were determined.
以盐酸为催化剂,对蜂胶黄酮苷进行酸解实验,并测定了酸解产物的抗氧化性能。
Through quite a few statistic analyses of analytical data on the acidolysis hydrocarbon standard sample, the authors determined its value and uncertainty.
通过对酸解烃标准样品的多次分析数据的统计处理,确定了该标准样品的值和不确定度。
Also, with the rate of production and content of insoluble dietary fiber as main index, the optimum processes of alkaline hydrolysis and acidolysis were investigated.
分别以产率和不溶性膳食纤维含量为主要指标,寻找碱解与酸解最佳工艺。
The research take 1,3-directional lipase as catalyst, which catalyzes acidolysis reactions of rapeseed oil and caprylic acid in free solvent to produce structured lipid of lower energy.
油脂是供能最高的一类营养物质,菜籽油在我国来源广泛,本文即以以1,3-定向脂肪酶为催化剂,使混合底物菜籽油和辛酸在无溶剂体系中进行酸解反应,以制备供能较低的结构脂质。
The technology of microcrystalline cellulose from soybean hulls was obtained by a lot of experiments made in LABS in this paper. Acidolysis of soybean hulls was the main preparation method.
探讨了在实验室条件下,采用酸水解法处理豆皮制备食用微晶纤维素的工艺条件。
Synthesis of coumarin-3-carboxylic acid through sodium ethoxide catalyzed synthesis of coumarin -3-carboxylic acid ethyl ester, followed by saponification, acidolysis cyclization was studied.
实验以水杨醛、丙二酸二乙酯为原料,乙醇钠为催化剂催化合成香豆素- 3 -羧酸乙酯,再经皂化、酸解环合合成香豆素- 3 -羧酸。
Synthesis of coumarin-3-carboxylic acid through sodium ethoxide catalyzed synthesis of coumarin -3-carboxylic acid ethyl ester, followed by saponification, acidolysis cyclization was studied.
实验以水杨醛、丙二酸二乙酯为原料,乙醇钠为催化剂催化合成香豆素- 3 -羧酸乙酯,再经皂化、酸解环合合成香豆素- 3 -羧酸。
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