A bioreactor for high performing microbial production
The GEA Axenic® M product line is an industrial-scale bioreactor system that has been designed specifically for cultivation and precision fermentation in the food industry.
Based on a stirred tank reactor approach, the Axenic® M Bioreactor has been developed to let you unlock the benefits of fed-batch and continuous cultivation, allowing you to grow engineered cells at commercial scale.
Importantly, our Axenic® portfolio of bioreactor technology isn’t just an adaptation of units designed for pharma or traditional biotech applications. We’ve focused on developing fully regulatory compliant solutions that will let you unlock a multitude of opportunities in the exciting sector of “new foods,” including mycelium and alternative proteins.
To do this we’ve had a rethink on the design of bioreactors. Rather than expect you to adapt cells to a fixed bioreactor design, we’ve focused on cell requirements, such as oxygen transfer, temperature, and factors such as their shear sensitivity, to really understand what is needed to optimize bioreactor design and function. We’ve done this using our Virtual Bioreactor Testing technology.
GEA Virtual Bioreactor Testing is an advanced digital twin simulation tool that allows us to unpick a bioreactor design and understand what is happening within the system, and how cells will likely be affected. Using our technology we can derive important data on shear forces, optimum temperature, oxygen transfer rates, and other key criteria. With this knowledge we’ll work with you to fine tune the physical setup of your bioreactor as well as key parameters such as the delivery of oxygen and nutrients to your microbial cells, to maximize yield and efficiency. Ultimately, the results from detailed testing and validation can help you to generate proof of concept, demonstrate scale up - from lab scale, to pilot and then industrial volumes - as well as evaluate new cell strains. This depth of insight can be invaluable in helping you to innovate and generate new product types.
Whether we're discussing gas fermentation, precision fermentation, or mycelium production, some typically common factors that need to be considered include the high demand for gas transfer rates and the ability to precisely control gradients. This is why the Axenic® M design makes it possible to maintain accurate control in a half-full configuration during the initial stage of a fed-batch process, as well as when the bioreactor is completely filled. For applications with high cell growth rates our external cooling loops make it possible to utilize all capacity without needing to reduce production speed to keep the process at the optimal temperature. Importantly, and compared with traditional cooling coils, our external cooling loops help to reduce temperature variations and gradients, so you can better maintain the correct temperature throughout the tank. External cooling loops also reduce the risk of incomplete tank cleaning.
For accurate bioreactor control it's important to understand that the readings for some measurements, such as dissolved oxygen concentrations, will depend on where in the tank the measurement is made. We understand that it's important to consider probe placement, as well as provide the option for control based on gas transfer rates rather than on dissolved gas concentrations. We also offer an optional advanced sensor package that lets you measure metabolic heat generation, which can help to further optimize large scale processes.
Importantly, the Axenic® M is fully automated, with valve feedback alerting operators to any valve or system failure, and sterile barriers to media and harvest lines supporting efficient production 24/7. Our GEA Codex® process control platform helps to ensure process stability and safety during day-to-day operation, allows for precise recipe control, and reduces manual tasks, so there’s less risk of human error or contamination. The combination of automation and monitoring also helps to reduce waste and the use of resources and media. Install GEA Codex® and you can expect higher process repeatability and reliability, and reduced downtime.
Test facilities for new food applications
Partner with GEA on your new food journey, and you won’t just get state-of-the-art bioreactor equipment. We like to start with a basic design study that details what you do today, and so together we can evaluate your processes and make sure that your new facility will be a good fit with equipment upstream and downstream of the bioreactors.
At our New Food Application and Technology Center of Excellence (ATC) you can evaluate our equipment, work with GEA experts to carry out physical and computational testing, and access all of our process, engineering and cell culture/fermentation knowhow spanning multiple industries, from dairy, to brewery and pharma.
So, wherever you are on your journey, let us work with you to evaluate your needs and design a GEA bioreactor system that will match the needs of your cell-based production process.
Axenic is registered as a trademark in several countries worldwide.
GEA has combined the latest computational fluid dynamics tools and kinetic models with advanced computing power to generate a technology that can digitally mirror just about any bioreactor environment, from lab bench to industrial scale.
A cell cultivation and fermentation pilot line to fast-track innovations from the lab to commercial-scale manufacturing.
The GEA Axenic C product line is an industrial-scale bioreactor system that has been designed specifically for cultivating mammalian and other eukaryotic cells in the food industry.
GEA Axenic® P is a flexible pilot-scale bioreactor designed to help you scale up cell cultivation and precision fermentation processes for a wide range of new food application.