Disclosed herein are platforms, systems, and methods including a cell culture system that includes a cell culture container comprising a cell culture, the cell culture receiving input cells, a cell imaging subsystem configured to acquire images of the cell culture, a computing subsystem configured to perform a cell culture process on the cell culture according to the images acquired by the cell imaging subsystem, and a cell editing subsystem configured to edit the cell culture to produce output cell products according to the cell culture process.

A system for processing biological particles including bioprocessing microfluidic devices, reservoirs, buffer tanks and two fluidic connection systems. A first fluidic connection system includes valves and connecting elements between valves, so that each reservoir or port configured to connect a reservoir may be in fluidic connection with each buffer tank, and a second fluidic connection system includes valves and connecting elements between valves, so that each bioprocessing microfluidic device may be in fluidic connection with each buffer tank.

Disclosed herein are cell processing systems, devices, and methods thereof. A system for cell processing may comprise a plurality of instruments each independently configured to perform one or more cell processing operations upon a cartridge, and a robot capable of moving the cartridge between each of the plurality of instruments.

There is disclosed a modular anaerobic digestion point-of-waste to renewable energy system. The system is directed to a modular and scalable anaerobic digestion system for point-of-waste use. The System includes a pretreatment process for removing inhibitory nutrients from a feedstock, an in-treatment process for providing clean renewable energy and a post-treatment process for further providing clean renewable energy for subsequent use. The System includes a leaching bed; a liquids tank; a mixing tank; an anaerobic digester reactor; a precipitation tank; a stripping tank; a hydrogen sulfide scrubber; a water remover; a gas bladder; a dewaterer; and a flare system.

A cell culture system includes: a first pump; and a first cell culture container and a second cell culture container. The first cell culture container has a first culture medium circulation flow path. The second cell culture container has a second culture medium circulation flow path independent of the first culture medium circulation flow path. The first culture medium circulation flow path and the second culture medium circulation flow path are fluidly connected to the first pump.

A waste treatment, pyrolysis and gasification and concerns an apparatus for syngas bio-methanation include a unit for pyrolysis/gasification receiving organic material, the unit for pyrolysis/gasification generating syngas, comprising at least one membrane reactor inside a liquid bath comprising at least one bacteria population, the membrane reactor comprising at least one hollow fiber in contact with the liquid bath, around which a biofilm is formed and into which the syngas from the unit for pyrolysis/gasification flows, so as to convert the syngas into methane. A method for bio-methanation of syngas comprising a step of providing syngas from a unit for pyrolysis/gasification to a membrane reactor inside a liquid bath comprising at least one suitable bacteria population, the membrane reactor comprising at least one hollow fiber in contact with the liquid bath, around which a biofilm is formed and into which the output syngas of the unit for pyrolysis flows, so as to convert the syngas into methane.

A cell culture matrix is provided that has a substrate with a first side, a second side opposite the first side, a thickness separating the first side and the second side, and a plurality of openings formed in the substrate and passing through the thickness of the substrate. The plurality of openings allow flow of at least one of cell culture media, cells, or cell products through the thickness of the substrate, and provides a uniform, efficient, and scalable matrix for cell seeding, proliferation, and culturing. The substrate can be formed from a woven polymer mesh material that provides a high surface area to volume ratio for cells and good fluid flow through the matrix. Bioreactor systems incorporating the cell culture matrix and related methods are also provided.

An apparatus for culturing cells includes a bioreactor. The bioreactor may be modular and may include in a chamber a fixed bed, such as an unstructured or structured fixed bed (such as a spiral bed) for culturing cells, with a return column arranged centrally within the chamber. The modular bioreactor may include a plurality of structured fixed bed arranged in a stacked configuration. The modular bioreactor may include an outer casing forming a space for conditioning (e.g., insulating, heating, cooling) at least a chamber in which cells are cultured. The bioreactor may also include an impeller with radially curved blades, and may also suspend the impeller so that it may move from side-to-side and align with an external drive. Related methods are also disclosed.

A process is provided for isolating and analyzing microorganisms contained in a sample by collecting a determined volume in a sample, the determined volume representing all or part of this sample, likely to contain at least one microorganism. The collected volume is then split up into a plurality of compartments having a culture medium, the volume of each compartment being smaller than 10 μL, each compartment being isolated from the other compartments and having no interface with the ambient atmosphere. At least one microorganism is incubated in the compartments for determined durations, and compartments are detected that contain at least one microorganism. The incubation may be extended after detecting compartments so that at least one microorganism having a defined quantity can be detected, and then the content of the detected compartments can be recovered. Finally, at least one functional parameter relative to a microorganism in the compartments is determined.

A biogas reactor is disclosed in which biogas is formed from organic matter. The biogas reactor includes a wall to form a tank structure enclosing a tubular reactor space in which organic matter can be placed to form biogas. The wall forming the tank structure is comprised of a helically wound hollow pipe profile to form a spiral arrangement. The hollow space within the hollow pipe profile accommodates a heat-transfer medium to influence the temperature of organic matter in the reactor space. Connections are provided for feeding organic matter to the reactor space and removing it from the reactor space, and one or more connections are provided for removing biogas from the reactor space. The invention also concerns methods for producing biogas and for manufacturing a biogas reactor.