Mechanically Stirred Glass Bioreactor NMSGR-102 delivers a total volume of 10 liters, ensuring efficient processing. This reactor offers a stirring speed range of 30 to 1000 rpm for smooth operation. Our unit allows precise control of pH and DO to maintain optimal process conditions. It includes a double jacket with multiple ports for easy integration. It uses a ring sparger with sterile filters for efficient aeration.
FAQ for Mechanically Stirred Glass Bioreactor NMSGR-102
1: What stirring performance does the reactor offer?
The bioreactor supports a stirring speed range of 30 to 1000 rpm, driven by a sealed mechanical shaft with a 6-blade stirrer. This ensures smooth and consistent mixing throughout the culture. Uniform agitation improves nutrient and oxygen distribution.
2: What is the total and working volume of this bioreactor?
The Mechanically Stirred Glass Bioreactor NMSGR-102 offers a total capacity of 10 L with a flexible working volume of 3 to 7 L, making it ideal for medium-scale experiments and process development. Its adjustable culture volume allows researchers to tailor operations to specific requirements.
3: How is temperature control managed in the Mechanically Stirred Glass Bioreactor NMSGR-102?
The Mechanically Stirred Glass Bioreactor NMSGR-102 maintains precise temperature control from 4°C to 60°C. The double-jacket design enhances heat transfer efficiency. This ensures stable conditions for microbial and cell culture applications.
4: How does the NMSGR-102 regulate pH and dissolved oxygen?
The Mechanically Stirred Glass Bioreactor NMSGR-102 provides precise pH control from 2.00 to 12.00 with an accuracy of ±0.05 and DO monitoring from 0 to 150% with an accuracy of ±3%. Automatic PID regulation ensures stable operating conditions, enabling reliable cultivation of sensitive organisms.
5: What are the main applications of the Mechanically Stirred Glass NMSGR-102?
It is designed for the precise cultivation of cells, microbes, and related applications. It is used in biotechnology, pharmaceutical development, and laboratory research, offering the flexibility to support both experimental and production requirements.
