Family of Thermo Scientific DynaDrive Single-Use Bioreactors with capacities of 5,000 L, 3,000 L, 500 L, and 50 L.

Dynamic cell culture performance with right sizing flexibility

With a continued focus on large-scale monoclonal antibody production, and tremendous growth of gene therapy and viral vector vaccines, companies are facing the decision on how to scale manufacturing processes efficiently. The Thermo Scientific DynaDrive Single-Use Bioreactor (S.U.B.) is the latest advancement based on our history of proven single-use innovation, offering superior performance to accommodate volumes from pilot to production.



Substitute high costs for high performance with the DynaDrive S.U.B.

  • Ability to decrease the cost of production by 25% through the reduction of equipment, materials, consumables, and labor, enabled by the increased reactor size, lowering the number of production batches required for a given volumetric demand.
  • Provides a lower average cost per gram and net present cost of investment up to scales of 4,200 kilograms per year of production.

Download White Paper

  • Leveraging higher in-vessel turndown ratios to run multiple stages in a single bioreactor can reduce the number of bags loaded and unloaded as well as the number of bioreactors needed overall in the facility.
  • Available in 50 L, 500 L, 3,000 L, and 5,000 L providing efficiency in manufacturing with improved mass transfer and mixing; this allows for the use of the same technology over a larger range of facility networks thus simplifying process transfers from research and development to commercial manufacturing phases.

Read Application Note

  • The DynaDrive S.U.B. has been designed specifically to increase power input per volume (PIV). The flexible drive train includes multiple impellers that provide more PIV while still maintaining reasonable RPM and tip speeds. The unique drive train is also flexible, which allows the BPC to be folded to minimize the size of packaging and improve BPC deployment and disassembly.
  • A >10:1 turndown ratio allows you to optimize the seed train which helps reduce labor and risk while improving facility space utilization. With this turndown ratio, you can transfer highly concentrated cells directly from cell culture flasks to the bioreactor.
  • Ability to decrease the cost of production by 25% through the reduction of equipment, materials, consumables, and labor, enabled by the increased reactor size, lowering the number of production batches required for a given volumetric demand.
  • Provides a lower average cost per gram and net present cost of investment up to scales of 4,200 kilograms per year of production.

Download White Paper

  • Leveraging higher in-vessel turndown ratios to run multiple stages in a single bioreactor can reduce the number of bags loaded and unloaded as well as the number of bioreactors needed overall in the facility.
  • Available in 50 L, 500 L, 3,000 L, and 5,000 L providing efficiency in manufacturing with improved mass transfer and mixing; this allows for the use of the same technology over a larger range of facility networks thus simplifying process transfers from research and development to commercial manufacturing phases.

Read Application Note

  • The DynaDrive S.U.B. has been designed specifically to increase power input per volume (PIV). The flexible drive train includes multiple impellers that provide more PIV while still maintaining reasonable RPM and tip speeds. The unique drive train is also flexible, which allows the BPC to be folded to minimize the size of packaging and improve BPC deployment and disassembly.
  • A >10:1 turndown ratio allows you to optimize the seed train which helps reduce labor and risk while improving facility space utilization. With this turndown ratio, you can transfer highly concentrated cells directly from cell culture flasks to the bioreactor.

Ordering information

Bioprocessing resources

Access a targeted collection of scientific application notes, case studies, posters, white papers and more for bioprocessing:

For research use or further manufacturing. Not for diagnostic use or direct administration into humans or animals.