Hydrolization technology on acrylic fibers is investigated.
对腈纶纤维的水解工艺进行研究。
Hydrolization and enzyme activities of isolates were examined.
测定了分离菌株的水解活性和多种酶活。
The application of coaqulated subsidence acidification hydrolization biological contact oxidation process to treating textile dyeing wastewater was presented.
采用混凝沉淀 -酸化水解 -生物接触氧化工艺处理纺织印染废水。
It is specially proved to enhance hydrolization and crystallization in the condition of the lower titanium concentration and the higher sulfuric acid concentration.
特别对于低钛、高硫酸浓度的钛液,微波具有明显的强化作用。
The results show that under the same hydraulic retention time, the intensive adsorption hydrolization contact oxidation method is higher treating efficiency and potential.
实验表明,在相同的水力时间,采用强化吸附法吸附水解一接触氧化法工艺具有较高的效率和潜能。
The combined hydrolization method with proteinases, pepsin, trypsin, and ASI. 398 neutral proteinase was proposed. And the technological process was put forward for extraction of GAG.
提出用胃蛋白酶、胰蛋白酶和枯草杆菌中性蛋白酶结合的水解方法,并给出糖胺聚糖提取过程的工艺流程。
The combined hydrolization method with proteinases, pepsin, trypsin, and ASI. 398 neutral proteinase was proposed. And the technological process was put forward for extraction of GAG.
提出用胃蛋白酶、胰蛋白酶和枯草杆菌中性蛋白酶结合的水解方法,并给出糖胺聚糖提取过程的工艺流程。
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