A transportable and modular field-deployable hydrolysis system for neutralizing toxic chemical agents is described. The system comprises a transportable chemical process plant that is capable of operating in a remote location without significant site infrastructure. The system is also capable of operating in a maritime, shipboard environment. A flexible design allows processing of chemical agents in both batch and continuous flow modes, as well as collection and accumulation of agents from a variety of containers whose form and size may not be known until the system is on-site.

Disclosed is a jacketed, tiered baffle, bioreactor tank comprising an outer cylindrical-shaped jacket and a cylindrical tank having an inner tank surface defining a chamber configured for supporting a flexible bag disposed within the chamber, and an outer tank surface having tiered baffles configured for routing a heat exchange fluid around the entirety of the outer tank surface, the cylindrical tank disposed axially within the outer cylindrical-shaped jacket. The outer cylindrical-shaped jacket is sealed to the cylindrical tank in a manner sufficient to prevent or minimize loss of the heat exchange fluid.

This disclosure is drawn to systems, devices, apparatuses, and/or methods, related to fuel cell cartridges. Specifically, the disclosed systems, devices, apparatuses, and/or methods relate to compact fuel cell cartridges for producing hydrogen gas for use by fuel cells. Some example fuel cell cartridges may include a reactor module for storing a reactant, a water module for storing water, and an interface coupling the reactor module and the water module. The interface may permit the water to flow from the water module to the reactor module such that the water mixes with the reactant in the reactor module to form a gas (e.g., hydrogen gas) that may exit through a gas outlet.

Disclosed is a heat exchange module for use in a chemical, pharmaceutical or biological reactor system, the module configured to be disposed in the reactor system having a flexible single use container, and including at least one thermally conductive surface adapted to contact the flexible single use container to facilitate heat transfer, and a fluid circulation path through which a heat exchange fluid can be circulated.

The current invention relates to a reactor module for converting chemical compounds into materials, gases or energy, wherein the reactor module is suitable for contiguous radial stacking, comprising: a reaction chamber and at least one inlet pressure chamber, wherein at least one tangential flow channel, connected to said inlet pressure chamber, wherein said tangential flow channel is further connected to the reaction chamber tangentially to its circular cross-section, wherein said tangential channel is suitable for directing the flow of reactant gas into the reaction chamber. The invention also relates to a reactor stack comprising two or more reactor modules contiguously stacked in the radial plane. The invention also relates to the use of aforementioned module or a stack of modules for gas conversion.

A modular system is configured to generate renewable fuel. The system includes a modular container that has inlets/outlets and houses a treatment subsystem configured to produce treated water and an electrolysis subsystem configured to perform electrolysis of the treated water to produce hydrogen and oxygen. The modular container further includes a reactor configured to perform an exothermic reaction in as little as a single pass using the hydrogen and carbon dioxide to produce the renewable fuel. The modular container can further include a post-processing subsystem configured to perform further processing of the renewable fuel.

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.

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.

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.

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.