Specifically designed to support a seamless transition from lab-scale to industrial-scale production, the research platform integrates the core technologies of fermentation science, process engineering and biofuturing to optimize the production process, increase production efficiency and guarantee the high quality and bioactivity of the final product. Our platform utilizes the latest automation and control systems, as well as advanced bioengineering technologies, to ensure precise control and repeatability of the entire amplification process.
Key core technologies include:
1. Dynamic fermentation control technology: real-time monitoring and adjustment technology is used to accurately control fermentation conditions, such as temperature, pH, dissolved oxygen and nutrient supply, to optimize the efficiency and quality of biosynthesis.
2. Scale transformation simulation: Using advanced computational models and software tools, simulate the process from pilot to pilot to mass production, predict possible challenges and adjust requirements.
3. Downstream processing technology: Develop efficient separation and purification technologies, such as chromatography, membrane separation and crystallization, to ensure product purity and activity.
4. Process optimization and engineering integration: Improve the continuity and economy of production by optimizing process flow and integrating key engineering technologies.
5. Data analysis and process control system: Use big data and machine learning technology to conduct in-depth analysis of production data to achieve process optimization and quality control.
The application of these technologies not only significantly increases our production capacity, but also guarantees a smooth transition from laboratory to industrial-scale production, while ensuring the sustainability and market competitiveness of our products.
Genetic and metabolic engineering research platform