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相关概念视频

Bioreactor Design and Operational System01:29

Bioreactor Design and Operational System

220
Bioreactors are engineered vessels designed to cultivate microorganisms under controlled conditions for industrial bioprocessing. They maintain sterility and allow precise regulation of pH, temperature, oxygen, and nutrient levels to optimize microbial growth and metabolite production. Bioreactors range from small laboratory units of 1 liter to industrial systems holding up to 500,000 liters, though only about 75% of their volume is actively used for fermentation. The remaining headspace...
220
Bioreactor Controls-I01:28

Bioreactor Controls-I

103
Maintaining optimal conditions within fermenters is essential for maximizing microbial productivity and ensuring process efficiency. This lesson focuses on key parameters—temperature, foam, pH, carbon dioxide, oxygen, and pressure—and their precise measurement and control strategies in fermentation systems.Temperature ControlTemperature regulation is critical due to the exothermic nature of many fermentation processes. In small laboratory fermenters, temperature is commonly...
103
Bioreactor Controls-II01:18

Bioreactor Controls-II

82
In aerobic fermentations, oxygen is vital for microbial growth and metabolite production. Since air comprises only about 20% oxygen and the gas is poorly soluble in water—just 9 ppm at 20°C—supplying sufficient oxygen becomes a critical challenge, especially in high-demand processes like yeast growth or citric acid production. Even a fully saturated broth may offer only a few seconds of oxygen availability.To address this, sterile or scrubbed air is introduced into the...
82
Bioreactor Controls-III01:22

Bioreactor Controls-III

70
Strain improvement is a foundational strategy in industrial microbiology aimed at maximizing microbial productivity, particularly because natural isolates typically yield commercially valuable products in very low concentrations. Although optimizing the culture medium and environmental conditions can improve yields, these adjustments are inherently limited by the organism’s genetic potential. As a result, the focus shifts toward genetic modifications to enhance biosynthetic capacity. The...
70
Scale-Up Processes01:14

Scale-Up Processes

119
The scale-up of microbial fermentation processes is essential in industrial biotechnology, allowing the transition from laboratory-scale experiments to commercial-scale production while aiming to maintain product yield and quality. This process requires meticulous adjustment of equipment design, process parameters, and contamination control strategies to accommodate increasing culture volumes.At the laboratory scale, cultures are typically maintained in 1 to 10-liter glass or autoclavable...
119
Upstream Processing01:27

Upstream Processing

102
Upstream processing represents a critical phase in biomanufacturing, wherein biological systems such as microorganisms, mammalian cells, or insect cells are cultivated to produce therapeutic proteins, vaccines, enzymes, or other biologically derived products. This phase encompasses all steps from the selection and genetic manipulation of the production organism to the cultivation of cells in bioreactors under tightly controlled environmental conditions.Host Selection and Genetic OptimizationThe...
102

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相关实验视频

Updated: May 5, 2026

A Novel Bioreactor for High Density Cultivation of Diverse Microbial Communities
08:13

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在工程生物反应器中微生物社区的组装.

Savanna K Smith1, Joseph E Weaver2, Joel J Ducoste1

  • 1Department of Civil, Construction, and Environmental Engineering, North Carolina State University, Raleigh, NC, USA.

Water research
|March 30, 2024
PubMed
概括

微生物社区组合 (MCA) 分析有助于理解和预测生物反应器设计如何影响微生物组成. 这种知识可以导致更高效和更有弹性的工程生物反应器.

科学领域:

  • 环境微生物学 环境微生物学
  • 生态工程生态工程生态工程

背景情况:

  • 微生物社区组装 (MCA) 过程对于理解微生物生态系统至关重要.
  • 工程生物反应器,如活性污泥系统和厌氧消化器,依赖于复杂的微生物群落.
  • 预测和控制这些社区是优化生物反应器性能的关键.

研究的目的:

  • 审查支持MCA的生态理论.
  • 评估工程系统的MCA分析方法.
  • 为使用MCA在生物反应器设计和操作中的工程师提供指导.

主要方法:

  • 关于生态理论和MCA方法的文献综述.
  • 在工程生物反应器中分析MCA应用.
  • 从案例研究中汲取经验教训.

主要成果:

  • MCA为了解生物反应器中的微生物动态提供了一个框架.
  • 目前的MCA方法可以适应分析生物反应器微生物群落.
  • 案例研究证明了MCA在提高生物反应器效率和弹性方面的潜力.

结论:

  • MCA为设计和管理工程生物反应堆提供了宝贵的见解.
关键词:
微生物社区的组装.生物反应器的生物反应器

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  • 对生物反应器MCA的进一步研究可以提高可预测性和控制性.
  • 环境工程师可以利用MCA来创建更强大,更有效的生物反应器系统.