Data sheetPDF
Bench-top Bioreactor
Minifors 2
Bench-top Bioreactor
Minifors 2
Jumpstart your bioprocess R&D with this compact and easy-to-use bioreactor
Easily initiate and manage cell culture or microbial experiments from research and development through process development with this plug-and-play Minifors 2 bench-top bioreactor system.
Advantages
Quickly begin your experiments
Get your experiments started quickly with minimal experience thanks to the preconfigured delivery and intuitive controls of this bench-top bioreactor. Simply connect the device, mount the vessel, connect pumps and sensors, and begin your work quickly.
Compact and easy to handle
Requiring very little space on the lab bench, this compact bench-top bioreactor is designed for optimal handling and operation. All components are easily accessible and allow for stress-free transport within the vessel holder, to and from autoclave, fitting within smaller autoclaves with only 30 cm inner diameter.
Easily automate your data management
Save time and resources by automating your data management with eve®, a web-based bioprocess platform software. Accessing your data from anywhere so you can collaborate with colleagues at different facilities, leading to faster research results.
Quickly begin your experiments
Get your experiments started quickly with minimal experience thanks to the preconfigured delivery and intuitive controls of this bench-top bioreactor. Simply connect the device, mount the vessel, connect pumps and sensors, and begin your work quickly.
Compact and easy to handle
Requiring very little space on the lab bench, this compact bench-top bioreactor is designed for optimal handling and operation. All components are easily accessible and allow for stress-free transport within the vessel holder, to and from autoclave, fitting within smaller autoclaves with only 30 cm inner diameter.
Easily automate your data management
Save time and resources by automating your data management with eve®, a web-based bioprocess platform software. Accessing your data from anywhere so you can collaborate with colleagues at different facilities, leading to faster research results.
The cookbook
A guide for biotech beginners
Download this eBook for basic concepts, recipes, and strategies for bioprocesses involving cell culture and microorganisms.
Product specifications
- Vessel sizes (and working volumes): 1.5 L (0.3 - 1 L), 3 L (0.6 - 2 L), and 6 L (1.1 - 4 L)
- Base unit dimensions (Width including operating panel x Depth including hose connection): 455 x 415 mm / 17.9 x 16.3 in.
- 4 high-performance pumps with configurable operating modes: digital (fixed-speed) or analog (variable speed)
- High end gassing with 2 microbial or 5 cell culture Mass Flow Controllers (MFCs)
Product downloads
BrochurePDF
Application notePDF
BrochurePDF
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Application notePDF
Operating manualPDF
Related publications
All publications08 Nov 2024•44 min read
A new β-galactosidase from Paenibacillus wynnii with potential for industrial applications
Researchers at the University of Hohenheim, Stuttgart, used the INFORS HT Minifors bioreactor to cultivate a promising new beta-galactosidase enzyme from Paenibacillus wynnii. Known as BgaPw, this enzyme excels in lactose hydrolysis with impressive activity and resistance to product inhibition, paving the way for industrial applications in lactose conversion.
08 Nov 2024•47 min read
Investigating biological mechanisms of colour changes in sustainable food systems: The role of Starmerella bacillaris in white wine colouration
Researchers at the Norwegian University of Life Sciences explored how yeast strains can naturally enhance color in white wine fermentation. Using the INFORS HT Multifors bioreactor and eve software, they examined Starmerella bacillaris strains that influence wine color, polyphenol content, and antioxidant properties. The findings suggest that S. bacillaris offers an eco-friendly alternative to artificial additives in winemaking, highlighting its potential to improve food quality naturally. This study paves the way for sustainable practices and innovative applications in food production and fermentation.
08 Nov 2024•44 min read
Microbial production of 3-hydroxypropionic acid by acetic acid bacteria
Researchers at Université Paris-Saclay have developed a mathematical model that accurately predicts pH and metabolite concentrations during the microbial production of 3-hydroxypropionic acid using acetic acid bacteria. Using the INFORS HT Labfors bioreactor, the study focused on the bioconversion of 1,3-propanediol, taking into account the buffering capacity of the biological medium. Their model not only provided precise predictions of microbial growth and acid concentration but also serves as a critical tool for optimizing bioprocesses, particularly in scenarios with free pH dynamics. This work lays the foundation for future advancements in the production and in-situ extraction of organic acids.
08 Nov 2024•44 min read
A new β-galactosidase from Paenibacillus wynnii with potential for industrial applications
Researchers at the University of Hohenheim, Stuttgart, used the INFORS HT Minifors bioreactor to cultivate a promising new beta-galactosidase enzyme from Paenibacillus wynnii. Known as BgaPw, this enzyme excels in lactose hydrolysis with impressive activity and resistance to product inhibition, paving the way for industrial applications in lactose conversion.
08 Nov 2024•47 min read
Investigating biological mechanisms of colour changes in sustainable food systems: The role of Starmerella bacillaris in white wine colouration
Researchers at the Norwegian University of Life Sciences explored how yeast strains can naturally enhance color in white wine fermentation. Using the INFORS HT Multifors bioreactor and eve software, they examined Starmerella bacillaris strains that influence wine color, polyphenol content, and antioxidant properties. The findings suggest that S. bacillaris offers an eco-friendly alternative to artificial additives in winemaking, highlighting its potential to improve food quality naturally. This study paves the way for sustainable practices and innovative applications in food production and fermentation.
08 Nov 2024•44 min read
Microbial production of 3-hydroxypropionic acid by acetic acid bacteria
Researchers at Université Paris-Saclay have developed a mathematical model that accurately predicts pH and metabolite concentrations during the microbial production of 3-hydroxypropionic acid using acetic acid bacteria. Using the INFORS HT Labfors bioreactor, the study focused on the bioconversion of 1,3-propanediol, taking into account the buffering capacity of the biological medium. Their model not only provided precise predictions of microbial growth and acid concentration but also serves as a critical tool for optimizing bioprocesses, particularly in scenarios with free pH dynamics. This work lays the foundation for future advancements in the production and in-situ extraction of organic acids.
Customer voices
The Minifors 2 was our first bioreactor, and it’s proven a reliable piece of equipment over many years. It is fully integrated with our sensors, and was great for establishing proof of concept ahead of scaling up production to larger bioreactors.
Julia ReisserCo-founder, Uluu
We are thoroughly impressed by this practical bioreactor design. It allows us to save time during calibration and preparation for cultivation.
Mohd RazifMamatHead of Technical Administration and Operation, Malaysia Genome Institute
Related articles
See all20 Sep 2024•4 min read•5•0
Sustainable dairy innovation: Daisy Lab uses precision fermentation to produce animal-free milk proteins in INFORS HT bioreactors
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.
24 Jun 2024•4 min read•5•2
Transforming bioprocess research and development with INFORS HT bioreactor system design
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.
17 Jun 2024•4 min read•4,5•0
From classrooms to pilot production: leveraging INFORS HT innovations for bioprocess scale-up
Discover how INFORS HT bioreactors and services have supported bioprocess education and research at Universiti Sains Malaysia (USM). Joo Shun TAN (陈裕声), Associate Professor, shares insights on leveraging Minifors, Multifors, and Techfors bioreactors to enhance teaching, research, and scale-up processes.
20 Sep 2024•4 min read•5•0
Sustainable dairy innovation: Daisy Lab uses precision fermentation to produce animal-free milk proteins in INFORS HT bioreactors
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.
24 Jun 2024•4 min read•5•2
Transforming bioprocess research and development with INFORS HT bioreactor system design
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.
17 Jun 2024•4 min read•4,5•0
From classrooms to pilot production: leveraging INFORS HT innovations for bioprocess scale-up
Discover how INFORS HT bioreactors and services have supported bioprocess education and research at Universiti Sains Malaysia (USM). Joo Shun TAN (陈裕声), Associate Professor, shares insights on leveraging Minifors, Multifors, and Techfors bioreactors to enhance teaching, research, and scale-up processes.
Ideal offerings to further optimize your bioprocess workflow
Bioprocess software
The eve® software integrates workflows, devices, bioprocess information and big data in a user-friendly web-based platform.
Bioreactor services
Maintain optimal performance and longevity in your bioreactors with a range of services and support.
Multifors 2 bench-top bioreactor
Manage multiple bioreactor vessels in parallel while mitigating risks during scale-up.
Bioprocess software
The eve® software integrates workflows, devices, bioprocess information and big data in a user-friendly web-based platform.
Bioreactor services
Maintain optimal performance and longevity in your bioreactors with a range of services and support.
Multifors 2 bench-top bioreactor
Manage multiple bioreactor vessels in parallel while mitigating risks during scale-up.
Consult with our experts
Reach out today to request a quote or more information regarding our Minifors bench-top bioreactor.