Fed Batch Fermentation
- 网络补料分批发酵
Fed Batch Fermentation-
Trehalose accumulation condition in baker 's yeast was studied in fed batch fermentation .
对面包酵母的海藻糖积累条件及补料分批发酵进行了研究。
-
Study on Flask-shaking Fed Batch Fermentation of γ - PGA
γ-多聚谷氨酸摇瓶补料分批发酵的研究
-
A Neural Network for the Optimization of Fed batch Fermentation of Glutamic Acid
谷氨酸流加发酵过程的神经网络优化研究
-
Batch fermentation and fed batch fermentation were studied .
研究D-阿拉伯糖醇的分批发酵和分批补料发酵。
-
A fuzzy neural network was founded to simulate the process of yeast fed batch fermentation .
利用模糊神经网络构建了酵母流加发酵过程的网络模型。
-
This paper investigates the fed batch fermentation kinetics and introduces an optimal scheme for it .
最后,探讨了赖氨酸分批发酵的动力学机理,给出了流加优化方案。
-
The best way to fed batch fermentation is doing it after fermentation 2d in 2 times .
分批补料时次数不宜过多,在发酵2d后分两次补料最佳。
-
Fed batch fermentation was studied with SW0370 according to the optimum condition of batch fermentation .
以分批发酵最优条件为依据,对菌株SW0370进行了补料分批发酵研究。
-
Flask-shaking fed batch fermentation is carried out in the study by feeding glucose , ammonium acetate and ammonium sulfate and complete fermentation medium .
进行了补葡萄糖、补醋酸铵和硫酸铵和全组分补料的摇瓶补料分批发酵实验。
-
A neural network system , which composed of a simulation sub network and an optimization sub network , was developed to predict and optimize the industrial glutamic acid production of Fed batch fermentation process .
采用神经网络的方法,将模拟网络与优化网络结合组成双网系统,用于谷氨酸流加生产过程的模拟与优化分析。
-
Method The high density fermentation of genetically engineered Pichia pastoris was proceeded in a 5L bioreactor using fed batch fermentation . The fermentation temperature was set at 28-30 ℃, the pH was 5 0-5 5 , and the DO was kept over 20 % .
方法采用补料分批培养方法,在5L发酵罐中对发酵工程菌GS115/Fab进行高密度发酵,发酵温度28~30℃,pH值范围为50~55,溶氧范围20%以上;
-
A Fuzzy Controller in Fed - Batch Fermentation of Yeast
酵母流加发酵过程中的模糊控制器
-
Fed - batch Fermentation and Dynamic Model of Microbial Transglutaminase
微生物谷氨酰胺转胺酶分批补料发酵及动力学模型的研究
-
Influence of the N - source concentration on xanthan fed - batch fermentation
氮源浓度对黄原胶流加发酵过程的影响
-
Study of Substrate Inhibition and Fed Batch Culture in The Fermentation of D-Ribose
D-核糖发酵过程中底物抑制及补料的研究