补料

补料&批式发酵生产青霉素G的最优控制策略比较

Comparision of the optimal control strategies in fed-batch penicillin G fermentation

林可霉素自控pH和连续补料发酵工艺研究

Studies on lincomycin fermentation technology in automatically controlled fermentors

多粘菌素补料分批发酵过程pH值的优化控制

Optimization Control of pH in Appending Stuff and Batch Fermentation Process of Mycetozoan-element

pH值对聚唾液酸分批发酵的影响及补料发酵

Effect of Different pH Controlled on Batch Fermentation of Polysialic Acid and Fed-batch Fermentation

高炉喷补料抗CO气体侵蚀动力学研究

Study on kinetics of carbon monoxide corrosion in gunning refractories for blast furnace

不同气相组成下高炉喷补料的抗CO侵蚀能力

Influence gas composition on corrosion resistance to CO of gunning mix for blast furnace

Fe2O3含量对高炉喷补料抗CO破坏能力的影响

Effect of Fe_2O_3 content on resistance to CO of gunning mix for blast furnace

气体组成对高炉喷补料抗CO侵蚀能力的影响

Influence of Gas Composition on Resisting Ability of Gunning Material for Blast Furnace to Carbon Monoxide Corrosion

高炉喷补料中Fe2O3含量对其抗CO破坏能力的研究

Effect of Fe_2O_3 Content in Gunning Material for BF on Ability to Resist Carbon Monoxide Damage

基于改进PSO算法的酒精发酵过程补料优化

Optimization of Feeding Rate for Alcohol Fermentation Based on Improving Particle Swarm Optimization

分批补料时次数不宜过多，在发酵2d后分两次补料最佳。

The best way to fed batch fermentation is doing it after fermentation 2d in 2 times .

结果表明，添加5%的氢气促进了CO对喷补料的侵蚀；

The results show that the addition of 5 % H_2 to pure CO accelerates the erosion of CO to the gunning material .

可溶性TRAIL蛋白的高密度培养及补料策略研究

High-cell Density Cultivation of Recombinant Escherichia coli for Production of TRAIL by Using a 2-stage Feeding Strategy

RH真空精炼炉浸渍管用热喷补料的研制

Development of the Hot Gunning Refractories for the Impregnated Tube of RH Vacuum Refining Furnace

酿酒酵母重组人α2a干扰素补料分批培养

Production of Recombinant Human Interferon α 2a by Saccharomyces cerevisiae in Fed-batch Culture

方法采用批式发酵和补料批式发酵方式，葡萄糖的补加采用逐渐增加的方式，包括pH、DO和浓度控制。

Methods The recombinant E. coli was cultured by batch and fed-batch fermentations , and the glucose was fed gradually by pH - , DO-control and constant feeding stats .

比较了酵母菌发酵生产谷胱甘肽（GSH）的几种补料分批培养方式。

Several feeding fed-batch culture methods for the production of glutathione ( GSH ) by Saccharomyces cerevisiae were compared .

Candidakrusei的分批培养与补料分批培养生产甘油

Production of glycerol in batch and fed-batch cultivation processes of Candida krusei

由此构建一种多目标粒子群优化算法（multi-objectiveparticleswarmoptimization，MOP-SO），并用于补料分批生化反应器的动态多目标优化，取得了满意的结果。

Finally , multi-objective particle swarm optimization ( MOPSO ) was proposed , and it was applied to dynamic multi-objective optimization of fed-batch bioreactor , the satisfactory solution was obtained .

基于ARM7的生物发酵智能补料控制系统

Intelligent Fed-batch Fermentation Control System Based on ARM7

为替代从国外进口的焦炉火焰焊补料，实验研制了CAE型火焰焊补料。

For replacing coke oven flame welding material imported from foreign country , based on experiment , we developed CAE type flame welding material .

在此基础上模拟了多项式补料方式，并将其运用于GSH的高密度发酵生产。

On this basis , we developed a polynomial feeding strategy , which was applied to realize the high-cell-density fermentation of glutathione .

若关系到补料、订料时，须发物料PMC、编码员、采购员。

Issue to material PMC , code programmer and purchaser if it concerns material complement or reservation .

而LBT冷补料适用的环境温度为-28°C～50°C，可在雨雪潮湿的恶劣条件下施工。

Whereas LBT cold mend material is suitable for ambient temperatures ranging-28 ° C ~ 50 ° C and is applied in atrocious condition of raining or snowing .

理论和实验研究结果表明：高炉喷补料中CO气体侵蚀的碳沉积反应依次由吸附、化学反应和扩散过程控制。

The experiment results and theoretical analysis indicated that the carbon deposition of gunning refractories for blast furnace in pure carbon monoxide was rate-controlled by adsorption , chemical reaction and diffusion process respectively .

然后确定了反复补料分批培养时更换新鲜培养基的最佳时间为每次培养进行48h后、体积比例为90%。

In repeated fed-batch culture , the optimized time and volume for refreshing culture was 90 % per 48 hours .

在此模型基础上，利用免疫遗传算法（IGA）实现对发酵过程补料优化控制参数的寻优；

Based on this SVM model , immune genetic algorithm ( IGA ) is applied to realize parameter optimization of material makeup ferment process control .

利用6通道补料摇床对CPO发酵过程的参数进行原位在线控制。

We used 6 channels feeding shaker to control the fermentation condition online .

通过对培养过程pH值调控、培养基补料以及诱导剂加入量的研究，使发酵液的腈水合酶的活力达到了6567umL菌液。

Controlling pH value , adding nutrient and optimizing the quantity of inducer during cultivation , the activity of nitrile hydratase reached 6567u / mL ( culture medium ), which was the highest value appeared in native journals .

N613发酵动力学模型和合成REPS的生理学特性进行了分析，优化了合成REPS的发酵工艺，补料分批发酵实验结果表明，REPS产量从8.21g。

By analyzing the kinetic models and physiological characteristics of REPS production , the REPS fermentation process was optimized .