其目的是研究和优化石灰消化工艺,分析石灰消化反应机理,找到最佳的消化操作条件,提高石灰乳的活性。
Through studying and optimizing lime slaking process, it analyzed the mechanism of lime slaking reaction and found the optimum operating conditions to increase the activity of lime milk.
方法改变反应条件,优化工艺路线。
METHODS Changed the conditions of reaction, and optimized the technology and route.
本文根据正交实验原理,对天然卤水与碳酸氢铵一步反应直接生产小苏打的工艺条件进行优化。
This paper optimizes according to the principle of orthogonal experiment the process conditions for directly producing sodium bicarbonate using natural brine and ammonium bicarbonate by one step.
通过实验对反应温度、反应时间、搅拌速度等工艺条件进行了优化;
Through optimizing of process conditions, such as temperature, reaction time and stir speed etc.
合成过程中对各步进行了工艺优化,通过设计单因素实验,找到了反应的最佳条件,如溶剂、时间、投料比等,使得产品收率有了较大的提高。
Each step was optimized during Synthesis processes and single factor experiments were carried out to determine the most effective conditions such as solvent, time, material ratio and so on.
反应器网络综合优化方法在选择反应器类型和反应工艺条件时,比传统的方法表现出了很大的优势。
Methods of reactor network synthesis and optimization show great advantages compared with traditional measures when they are used to select reactor types and reaction conditions.
通过改变硫酸二乙酯的用量、水杨酸甲酯与氢氧化钾的反应时间、氢氧化钠的用量,得到了2-乙氧基苯甲酸的优化制备工艺条件。
The reaction conditions of 2-ethoxybenzoic acid were optimized by changing the amount of diethyl sulfate, reaction time of methyl salicylate and potassium hydroxide, the amount of sodium hydroxide.
对反应合成、相转移催化机理和合成工艺进行了研究和实验探索,经条件优化实验确定了较佳的合成工艺参数。
The mechanism of the reaction and that of phase transfer catalysis were studied. The process parameters were selected by optimum experiment.
通过正交试验方法对脂化反应和超临界CO2萃取工艺进行优化,得到最佳工艺条件。
The craft of esterification reaction and supercritical CO2 extraction has been optimized through the orthogonal experimental technique and we have obtained the best craft condition.
考察了影响反应的几个因素,并进行了优化,获得了该反应的较佳工艺条件。
Besides, the factors that effect the reaction are observed and optimized to obtain the optimal reacting conditions.
一种博舒替尼的制备工艺,简化反应步骤,优化反应条件,提高产率,为工业化生产铺平道路。
The invention discloses a process for preparing bosutinib, which simplifies reaction steps, optimizes reaction conditions, improves yield and paves the way for industrial production.
通过微水相优化拆分制备S-2-苯基丙酸的反应条件,确定了青霉素酰化酶拆分制备S-2-苯基丙酸的最佳工艺参数。
S-2-phenylpropionic acid was obtained by hydrolysis of 2-phenylpropionic ester catalyzed by penicillin G acylase (PGA) in the micro-aqueous phase.
研究了反应条件的影响,给出了工业生产的优化条件和工艺参数。
The factors which influence the reactions were studied. The optimum conditions and parameters were given for the production.
针对影响聚合反应的诸因素,对工艺条件进行了优化操作。
The process conditions were optimized according to the factors affecting the polymerization.
结果显示,在优化的制备工艺和应用工艺参数的条件下,使用本文中高密度反应器生物芯片对本文中所用样品的检测,可达到100%的灵敏度和100%的特异性。
The research reveals that we had a sensitivity of 100% and a specificity of 100% in the reactor under a optimized producing condition and applying condition.
结果显示,在优化的制备工艺和应用工艺参数的条件下,使用本文中高密度反应器生物芯片对本文中所用样品的检测,可达到100%的灵敏度和100%的特异性。
The research reveals that we had a sensitivity of 100% and a specificity of 100% in the reactor under a optimized producing condition and applying condition.
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