An exhaust gas aftertreatment system includes an exhaust gas conduit a mixer, and a plurality of flow disrupters. The exhaust gas conduit is centered on a conduit center axis and includes an inner surface. The mixer includes a mixer body and an upstream vane plate. The upstream vane plate has a plurality of upstream vanes. At least one of the upstream vanes is coupled to the mixer body. The flow disrupters are disposed downstream of the mixer and circumferentially around the conduit center axis. Each of the flow disrupters is coupled to the exhaust gas conduit or integrally formed with the exhaust gas conduit. Each of the flow disrupters extends inwardly from the inner surface.

A flammable gas diluter includes: a dilution vessel comprising an outer envelope defining a longitudinal flow passage from an inlet to an outlet; at least one air inlet for directing a flow of air into the inlet of the diluter; and a flammable gas inlet arrangement. The dilution vessel has a plurality of gas flow directing formations arranged between the flammable gas inlet arrangement and the outlet, each being at a different position along a length of the dilution vessel. At least one of the plurality of gas flow formations is an inwardly directing gas flow formation for directing gas flow away from the outer envelope and at least one of the gas flow formations is an outwardly directing gas flow formation for directing gas flow towards the outer envelope.

A flammable gas diluter includes a dilution vessel having an outer envelope defining a longitudinal flow passage from an inlet to an outlet; at least one air inlet assembly for directing a flow of air into the inlet of the dilution vessel; a flammable gas inlet arrangement located towards an inlet end of the dilution vessel; two gas flow generators configured to pump a flow of air into the air inlet assembly, the two gas flow generators being located upstream of the flammable gas inlet arrangement; and two dampers, each of the dampers being mounted between a corresponding gas flow generator and the dilution vessel. Control circuitry is configured to open a damper during an operational mode of the corresponding gas flow generator and to close the damper when the corresponding gas flow generator is stopped in standby mode.

An internal gas distributor for a container includes a stagnation plate that provides an impinging surface for gas flowing through a gas inlet of a container. The internal gas distributor further includes a guide vane weir that is disposed of downstream of the stagnation plate. The guide vane weir includes guide vanes disposed on an internal periphery of the first guide vane weir configured to deflect gas to a predefined angular range and slots configured to enable gas to travel in an undeflected manner. Various custom-designed internal gas distributors suited for various containers and/or applications are possible. The internal gas distributor provides a uniform and consistent gas flow for the container.

A static mixer for use with biopharmaceutical compositions includes a shell and a core. The shell defines a flow channel therethrough. The shell is formed as a lattice structure that defines a plurality of voids in fluid communication with the flow channel. The core is disposed within the flow channel of the shell. The core is configured to mix a first fluid and a second fluid together as the first fluid and the second fluid flow through the flow channel. The first fluid or the second fluid is a biopharmaceutical composition.