Algae harvesting and cultivating systems and methods for producing high concentrations of algae product with minimal energy. In an embodiment, a dead-end filtration system and method includes at least one tank and a plurality hollow fiber membranes positioned in the at least one tank. An algae medium is pulled through the hollow fiber membranes such that a retentate and a permeate are produced.

A consumable container for filling with a fluid in a bioprocessing process. The container comprises one or more sealable, removable portions, such that one or more samples of the fluid may be taken by sealing and removing one or more of said portions.

A system includes a bioreactor having an inlet and an outlet, a cell-media recirculation loop between the outlet of the bioreactor and the inlet of the bioreactor, and a mature cell separation unit positioned along the cell-media recirculation loop wherein the mature cell separation unit is configured for performing separation of mature cells from immature cells and direction of the immature cells back to the inlet of the bioreactor. The system may further include a storage unit for storing the mature cells. The mature cell separation unit may be further configured to direct the mature cells to a mature cell storage unit.

A multi-stage TFF apparatus, comprising a bioreactor capable of holding cell culture media; a first stage TFF device in fluid communication with the bioreactor; a storage tank in fluid communication with the first stage TFF device; a first recirculating loop in fluid communication with the first stage TFF device and the bioreactor; a second stage TFF device, in fluid communication with and downstream from the storage tank; and a second recirculating loop in fluid communication with the second stage TFF device and the storage tank.

A culture device and a culture method by which a substance to be cultured can be three-dimensionally cultured, and the substance thus cultured can be removed as an integrated product with multiple tubes; and a cultured organ produced by the culture method. The culture device comprises a sealed container (2) which contains the substance to be cultured (A) and is disassembled after the culture is completed; multiple ducts (3, 4, 5) arranged in the sealed container (2) and having a plurality of micropores formed on the outer peripheral surface; a culture medium-feeding device (6, 7) for feeding/circulating the culture medium (B) to at least one duct (3 or 5); an excretory device (8) connected to at least one duct (4) for excreting the waste product (C)permeating into the duct (4) through the micropores of the duct (4) from the substance to be cultured to the outside of the sealed container.

Algae harvesting and cultivating systems and methods for producing high concentrations of algae product with minimal energy. In an embodiment, a dead-end filtration system and method includes at least one tank and a plurality hollow fiber membranes positioned in the at least one tank. An algae medium is pulled through the hollow fiber membranes such that a retentate and a permeate are produced.

Process and apparatus for producing exosomes operating continuously, in which a product containing exosomes is extracted from an incubator (1); said product is subjected to tangential filtering in a concentrator (3); the product is fed in two separate flows (20, 23) to two sides (301, 302) of the concentrator (3) separated by a semi-permeable wall obtaining a concentration of the exosomes in one of the two flows; a flow of product enriched with exosomes (24) is extracted from the concentrator; a diluted product (30) after transit through the concentrator is recirculated to the incubator; thermal conditioning (2), gaseous conditioning (4) and in-line pH control are provided.

Provided is a cell culture apparatus including a cell supply unit that supplies cells; a culture medium supply unit that supplies a culture medium; an additive supply unit that supplies an additive for inducing the differentiation of undifferentiated cells; a stirring unit that stirs a processing target; a separation unit that separates a component contained in the processing target; a culture vessel that cultures the cells; a first flow channel that forms a circulation route passing through the cell supply unit, the stirring unit, the separation unit, and the culture vessel; a second flow channel that connects the culture medium supply unit and the first flow channel; a third flow channel that connects the additive supply unit and the first flow channel; and a control unit that controls the feeding of liquid through the first flow channel, the second flow channel, and the third flow channel.

A product concentration device that utilizes a reservoir connected to a hollow-fiber filter element where the reservoir can serve as a container for filtrate emanating from another filtering device, such that product in the reservoir can be stored, concentrated and/or further processed as desired. Enclosed reactor systems, each of at least three chambers, fluid flow between the chambers controlled by selectively permeable barriers, flow controlled by an alternating flow diaphragm pump.

A fermentation unit and a method of carrying out fermentation are described. The fermentation unit can be transported from one facility to another to carry out a fermentation process. The fermentation unit and method allow for the fermentation of a C1-containing substrate from a source at a particular facility to produce products such as alcohols and acids. Examples of the source of the C1-containing substrate include without limitation steel manufacturing processes, coal and biomass gasification processes, coke manufacturing processes, etc. The fermentation unit can be housed within a container having a volume of less than about 6 m.sup.3.