Disclosed is a process for growing adherent cells in a containment box of a multi-parallel bioreactor, including: seeding the adherent cells on a carrier held in a culture dish; transferring the adherent cells on the carrier to a containment box of the multi-parallel bioreactor; and growing the adherent cells at a containment box while agitating the media at an impeller speed between 200 rpm to a 1200 rpm.

A fluidic system for loading a therapeutic or imaging agent into the lumen of extracellular vesicles from producer cells, including at least one container, a liquid medium contained in the container, producer cells, a liquid medium stirrer and a device for controlling the speed of the stirrer suitable for the growth of the producer cells, wherein it also includes a device for controlling the speed of the stirrer and the stirrer, of which the shape and dimensions of the container are suitable for generating a turbulent flow of the liquid medium in the container for exerting shear stresses on the producer cells in order to carry out the loading of a therapeutic or imaging agent into the lumen of the extracellular vesicles produced simultaneously by the fluidic system.

Provided is a process and material including the operation of a reactor that applies kinetic energy, heat, and pressure are performed nearly concurrently to biomass feeding of biomass to create functional soil amendment with superior SOM creation and carbon capture.

There is provided a method of controlling operation of a fed batch process in a bioreactor vessel, comprising transitioning from a batch phase to a production phase in dependence on a relationship between an oxygen supply parameter O and a dissolved oxygen value DO.

A fluidic system for producing extracellular vesicles from suspended producer cells, including at least one container, a liquid medium contained in the container, suspended producer cells, a liquid medium agitator, a device for controlling the speed of the agitator suitable for the growth of the suspended producer cells, wherein the device for controlling the speed of the agitator, the agitator and the shape and dimensions of the container are suitable for generating a turbulent flow of the liquid medium in the container for exerting shear stresses on the producer cells in order to carry out the production of extracellular vesicles, the Kolmogorov length of the flow being less than or equal to 50 μm.

The present invention provides a parallel bioreactor system, comprising: an oscillator for generating oscillating motion; a plurality of culture vessels mounted on the oscillator, wherein each culture vessel is provided with an inner cavity, the inner cavity comprises a cylindrical portion at the upper part and an inverted truncated conical bottom at the lower part, a cross section of the cylindrical portion is consistent with the cross section of the top of the inverted truncated conical bottom, and the bottom of the cylindrical portion is joined with the top of the inverted truncated conical bottom; disposable culture bags arranged in the inner cavities of the culture vessels and used for accommodating culture solution, wherein each disposable culture bag is provided with a multifunctional cover plate, and the multifunctional cover plate is connected to the top of the culture bag to seal the culture bag, and is provided with a plurality of connection holes leading to interior of the disposable culture bag; and a control system, wherein the control system controls the oscillating motion of the oscillator and parameters of the culture solution in the disposable culture bags.

The present invention relates to the cultivation of microalgae for the production of biofuels. In this scenario, the present invention provides a vertical flow agitation system for microalgae culture tanks comprising: a source of energy generation (1); an energy storage device (2); a control system (3); an electric motor (4); at least one end of travel sensor (5); an agitation plate (6); a torque transmission system (7); and at least two lateral drive elements (8).

The present invention provides a parallel bioreactor system, comprising: an oscillator for generating oscillating motion; a plurality of culture vessels mounted on the oscillator, wherein each culture vessel is provided with an inner cavity, the inner cavity comprises a cylindrical portion at the upper part and an inverted truncated conical bottom at the lower part, a cross section of the cylindrical portion is consistent with the cross section of the top of the inverted truncated conical bottom, and the bottom of the cylindrical portion is joined with the top of the inverted truncated conical bottom; disposable culture bags arranged in the inner cavities of the culture vessels and used for accommodating culture solution, wherein each disposable culture bag is provided with a multifunctional cover plate, and the multifunctional cover plate is connected to the top of the culture bag to seal the culture bag, and is provided with a plurality of connection holes leading to interior of the disposable culture bag; and a control system, wherein the control system controls the oscillating motion of the oscillator and parameters of the culture solution in the disposable culture bags.

Provided is a cell culture system capable of mixing a medium for culturing animal or plant cells. The cell culture system includes a body, a movable plate including an accommodation space accommodating a culture bag accommodating a medium to mix the medium, and being tiltable in multiple directions by a central joint mounted at a first location of the body, a first actuator mounted between the body and a second location of the movable plate to move the movable plate, a second actuator mounted between the body and a third location of the movable plate to move the movable plate, and a controller for applying a control signal to the first and second actuators, wherein a first angle between a first reference line extending from the first location to the second location, and a second reference line extending from the first location to the third location is 120°.

A bioreactor system for receiving a disposable bioreactor bag comprises a receiving container having a container wall which defines a receiving space in which the disposable bioreactor bag is received in an operating state of the bioreactor system. A stirring system projects at least partially into the receiving space and is designed and configured to stir a biomedium present in the disposable bioreactor bag in the operating state of the bioreactor system. At least one baffle, which makes the receiving space smaller and differs from the container wall, serves to reduce a laminar flow of the biomedium. A temperature control medium flows through at least part of the at least one baffle, said temperature control medium controlling the temperature of the baffle.