Bench-top Bioreactor
Labfors 5 for solid substrates
Bench-top Bioreactor
Labfors 5 for solid substrates
Your ideal bioreactor system for bioprocesses and enzymatic processes with solid substrates
Increase productivity and yield during your simultaneous saccharification and fermentation (SSF) processes, breaking down high concentrations of various raw materials, with this compact Labfors 5 bench-top bioreactor.
Advantages
By controlling the temperature of both the substrate and the double jacket, the two-fold system optimizes temperature control for the entire bioprocess, preventing overheating along the interior vessel wall, and keeping enzymatic activity high.
Because liquids and solids have different mixing properties, choose from a selection of stirrers for the right stirring system no matter what the substrate. With the high-torque, direct drive motor option, the system has enough power to also mix high concentrations of various raw materials.
Further optimize your processes through automation. eve®, a web-based bioprocess platform software easily integrates with your bioreactors, so you can more efficiently control, monitor, and analyze your data.
By controlling the temperature of both the substrate and the double jacket, the two-fold system optimizes temperature control for the entire bioprocess, preventing overheating along the interior vessel wall, and keeping enzymatic activity high.
Because liquids and solids have different mixing properties, choose from a selection of stirrers for the right stirring system no matter what the substrate. With the high-torque, direct drive motor option, the system has enough power to also mix high concentrations of various raw materials.
Further optimize your processes through automation. eve®, a web-based bioprocess platform software easily integrates with your bioreactors, so you can more efficiently control, monitor, and analyze your data.
Powerful motor for mixing solid substrates and enzymatic bioprocesses
Product specifications
- Vessel size (and working volume): 3.6 L (1-2.5 L)
- Base unit with control panel dimensions (W x D x H): 464 x 462 x 996 mm
- Parallel operation via touchscreen controller up to 6 vessels
- Direct drive up to 1000 min-1 with the high-torque motor option
Product downloads
Related publications
All publicationsResearchers from the University of Athens have successfully harnessed crude glycerol, a biodiesel by-product, as a substrate for producing valuable compounds like polyols and yeast biomass. Their study highlights the adaptability of wild-type Yarrowia lipolytica strains under low pH, low temperature, and non-aseptic conditions, offering a sustainable approach to bio-based production.
Researchers at the University of Tartu, Institute of Bioengineering used adaptive laboratory evolution (ALE) to evolve Clostridium autoethanogenum into a faster-growing, yeast extract-free strain named LAbrini. This strain demonstrates improved robustness and performance in continuous bioreactor cultures, offering new potential for sustainable production of renewable chemicals and fuels.
In a new study, published on Springer Link, researchers produced a more stable and cost-effective interleukin-1 receptor antagonist (IL-1Ra) using Aspergillus oryzae. This alternative to E. coli-expressed IL-1Ra offers improved stability and bioactivity, making it a promising option for industrial-scale production. Explore the full findings and implications for therapeutic manufacturing.
Researchers from the University of Athens have successfully harnessed crude glycerol, a biodiesel by-product, as a substrate for producing valuable compounds like polyols and yeast biomass. Their study highlights the adaptability of wild-type Yarrowia lipolytica strains under low pH, low temperature, and non-aseptic conditions, offering a sustainable approach to bio-based production.
Researchers at the University of Tartu, Institute of Bioengineering used adaptive laboratory evolution (ALE) to evolve Clostridium autoethanogenum into a faster-growing, yeast extract-free strain named LAbrini. This strain demonstrates improved robustness and performance in continuous bioreactor cultures, offering new potential for sustainable production of renewable chemicals and fuels.
In a new study, published on Springer Link, researchers produced a more stable and cost-effective interleukin-1 receptor antagonist (IL-1Ra) using Aspergillus oryzae. This alternative to E. coli-expressed IL-1Ra offers improved stability and bioactivity, making it a promising option for industrial-scale production. Explore the full findings and implications for therapeutic manufacturing.
Customer voices
Prof. Dr. Christoph HerwigHead of Biochemical Engineering, Vienna Technical University
Related articles
See allAs demand for sustainable food sources surges, Daisy Lab is revolutionizing dairy production with precision fermentation technology. By using INFORS HT bioreactors, this New Zealand-based startup is producing animal-free milk proteins like whey and casein. Discover how the innovative process at Daisy Labs, now set to scale with EPA approval, is paving the way for a more sustainable future in dairy.
Discover how INFORS HT’s bioreactor systems enhance bioprocess R&D for the Agro-Biotechnology Institute. Explore their streamlined operations and optimized yields. An interview-style article with Dr. Siti Rokhiyah PhD., Head of Bioreactor Unit at the Agro-Biotechnology Institute (ABI), National Institutes of Biotechnology Malaysia (NIBM) in Malaysia.
As demand for sustainable food sources surges, Daisy Lab is revolutionizing dairy production with precision fermentation technology. By using INFORS HT bioreactors, this New Zealand-based startup is producing animal-free milk proteins like whey and casein. Discover how the innovative process at Daisy Labs, now set to scale with EPA approval, is paving the way for a more sustainable future in dairy.
Discover how INFORS HT’s bioreactor systems enhance bioprocess R&D for the Agro-Biotechnology Institute. Explore their streamlined operations and optimized yields. An interview-style article with Dr. Siti Rokhiyah PhD., Head of Bioreactor Unit at the Agro-Biotechnology Institute (ABI), National Institutes of Biotechnology Malaysia (NIBM) in Malaysia.
Ideal offerings to further optimize your bioprocess workflow
The eve® software integrates workflows, devices, bioprocess information and big data in a user-friendly web-based platform.
Maintain optimal performance and longevity in your bioreactors with a range of services and support.
Optimize your bioreactor or fermentation systems with a comprehensive range of accessories and consumables.
The eve® software integrates workflows, devices, bioprocess information and big data in a user-friendly web-based platform.
Maintain optimal performance and longevity in your bioreactors with a range of services and support.
Optimize your bioreactor or fermentation systems with a comprehensive range of accessories and consumables.