The present document discloses a gas inlet device (21, 21a-21k) for use in a reactor for gas treatment of a substrate. The gas inlet device comprises an inlet niche having a back wall (233), and a side wall (234, 235) extending in a downstream direction (F) from the back wall (233) towards an inlet niche opening (212), an impingement surface (243), a gas orifice (210), which is configured to direct a gas flow towards the impingement surface (243), and a taper surface (244, 245), extending downstream of the impingement surface (243), such that a flow gap (213) having, along the downstream direction (F), gradually increasing cross sectional area, is formed between the side wall (234, 235) and the taper surface (244, 245).

The document further discloses a mixing device, a gas outlet device a reactor and the use of such reactor.

The present document discloses a gas inlet device (21, 21a-21k) for use in a reactor for gas treatment of a substrate. The gas inlet device comprises an inlet niche having a back wall (233), and a side wall (234, 235) extending in a downstream direction (F) from the back wall (233) towards an inlet niche opening (212), an impingement surface (243), a gas orifice (210), which is configured to direct a gas flow towards the impingement surface (243), and a taper surface (244, 245), extending downstream of the impingement surface (243), such that a flow gap (213) having, along the downstream direction (F), gradually increasing cross sectional area, is formed between the side wall (234, 235) and the taper surface (244, 245).

The document further discloses a mixing device, a gas outlet device a reactor and the use of such reactor.

The invention is an apparatus for preparing a chemical solution. A device of the present invention includes a housing including a lower chamber and an upper chamber and a dissolving bowl arranged at an interface of the lower chamber and upper chamber. The dissolving bowl includes a grid disposed within. Solid, undissolved chemical material rests on a top surface of the grid, such that the grid is able to maintain physical separation of the solid, undissolved chemical material from at least a bottom portion of the dissolving bowl. The device further includes a nozzle disposed within the dissolving bowl and positioned so as to direct flow of aqueous fluid into the dissolving bowl and towards the grid. The dissolving bowl further includes an outlet in fluid communication with the lower chamber to thereby allow for a prepared chemical solution to flow from the dissolving bowl into the lower chamber.

A nozzle for a dissolved air flotation system includes a housing, a nozzle connector, and a nozzle body. The housing has an inlet formed at one side and an outlet formed at another side. The nozzle connector couples to the inlet and has an inflow path formed in a longitudinal direction. The nozzle body is disposed in the housing, and includes: a collision portion formed at a first end portion of the nozzle body such that a fluid introduced along the inflow path of the nozzle connector 10 changes its flow direction and collides with an inner wall of a side portion of the housing, a plurality of faces formed at sides of the nozzle body, a plurality of side paths defined between the faces and the inner wall of the housing, and a spurt hole defined at a second end portion of the nozzle body.

A two-stage mixer may include a guiding element and a mixing element. The guiding element may be configured to be fixedly mounted to an interior of an exhaust conduit. The mixing element may be configured to be fixedly mounted to the interior of the exhaust conduit in a position downstream from the guiding element. The mixing element may include a central disk, a plurality of mounting arms extending radially from the central disk, and a plurality of blades extending radially from the central disk. At least one mounting arm of the plurality of mounting arms may include a fin extending therefrom, and at least one blade of the plurality of blades may include a fin extending therefrom.

A flow reactor has a module having a process fluid passage with an interior surface, a portion of the passage including a cross section along the portion having a cross-sectional shape, and a cross-sectional area with multiple minima along the passage. The cross-sectional shape varies continually along the portion and the interior surface of the portion includes either no pairs of opposing flat parallel sides or only pairs of opposing flat parallel sides which extend for a length of no more than 4 times a distance between said opposing flat parallel sides along the portion and the portion contains a plurality of obstacles distributed along the portion.

A minute bubble generator includes a flow path member including a flow path allowing a liquid to pass therethrough; and a colliding part provided in the flow path and generating minute bubbles in the liquid passing through the flow path by locally reducing a cross sectional area of the flow path. The colliding part is formed integrally with the flow path member and is provided closer to an upstream end or a downstream end relative to a lengthwise center of the flow path.

Devices and methods for extraction of a beverage from a beverage bottle, such as a wine bottle, using an extraction device. An aeration nozzle may be used to generate one or more jets of beverage arranged to expose the beverage to ambient air or other surrounding gas.

Devices and methods for extraction of a beverage from a beverage bottle, such as a wine bottle, using an extraction device. An aeration nozzle may be used to generate one or more jets of beverage arranged to expose the beverage to ambient air or other surrounding gas.

A mixer for an exhaust system for mixing reactant injected into an exhaust gas stream with exhaust gas includes a mixer body (22). The mixer body includes a reactant passage body area (24) with a reactant passage opening (26), a mixer plate body area (30) adjoining the reactant passage body area (24) on one side in a mixer longitudinal direction (L) and a mixer main body area (36) adjoining the reactant passage body area (24) in the mixer longitudinal direction (L) on another side opposite the one side.