The present disclosure relates to a mixer device having a housing including at least first and second adjacent mixing cells (2, 3), each cell (2, 3) including a fluid inlet opening (21, 31) and a fluid outlet opening (22, 32), the inlet opening being offset from the outlet opening so that the axis of the inlet opening is parallel to the axis of the outlet opening, the outlet opening of the first cell being connected to the inlet opening of the second cell via a connecting channel.

Systems and methods are provided for improving the flow distribution in the high temperature zone of a cyclic flow reactor, such as a reverse flow reactor. The systems can include a plurality of mixing plates that can facilitate mixing of flows that have been maintained separately until a mixing location. Based in part on the use of a plurality of mixing plates, methods are provided for operating a reverse flow reactor with a temperature profile that has improved uniformity across the cross-section of the reactor. In some aspects, a flame diffuser can be included downstream from the plurality of mixing plates to further improve the uniformity of the temperature distribution.

Systems and methods are provided for improving the flow distribution in the high temperature zone of a cyclic flow reactor, such as a reverse flow reactor. The systems can include a plurality of mixing plates that can facilitate mixing of flows that have been maintained separately until a mixing location. Based in part on the use of a plurality of mixing plates, methods are provided for operating a reverse flow reactor with a temperature profile that has improved uniformity across the cross-section of the reactor. In some aspects, a flame diffuser can be included downstream from the plurality of mixing plates to further improve the uniformity of the temperature distribution.

A fluid processing apparatus includes: a casing having a fluid inlet pipe and a fluid outlet pipe; multiple rectifying plates with holes in parallel with each other provided within the casing on a side of the fluid inlet pipe, the rectifying plates being perpendicular to a longitudinal axis of the casing; and a light source for irradiating fluid passing from the fluid inlet pipe through the casing to the fluid outlet pipe with ultraviolet rays.

A mixing unit includes a mixing body having mixing elements that are stacked in a stacking direction and that extend in an extending direction. The mixing elements have a plurality of first through holes to form a flow path therein, and are arranged such that part or all of the first through holes in one of the mixing elements communicate with first through holes in the adjacent mixing elements to allow fluid to be passed in the direction in which the mixing element extends.

The disclosure is directed to a beverage nozzle for mixing at least a first beverage ingredient and a second beverage ingredient into a homogeneous mixture. The beverage nozzle comprising a housing comprising a first portion and a second portion and a first inlet in fluid communication with the housing. The first inlet is configured to provide the first beverage ingredient to the housing. The beverage nozzle also includes a second inlet in fluid communication with the housing. The second inlet is configured to provide the second beverage ingredient to the housing. In addition, the beverage nozzle includes a mixing core disposed within the housing. The mixing core is configured to mix the first beverage ingredient and the second beverage ingredient into the homogeneous mixture. Further, the beverage nozzle includes an outlet disposed about the housing, wherein the homogeneous mixture exits the housing by way of the outlet.

A mixing element for a static mixer for installation into a tubular mixer housing has a longitudinal axis along which at least one first and one second installation body are arranged behind one another. An inlet element is provided which is arranged upstream of the first installation body, wherein the inlet element and the first installation body are connected to one another via a connection element. The inlet element has a body which can be sealingly taken up at the peripheral side in the mixer housing. The body has a first inlet passage and a second inlet passage, wherein the first inlet passage has a first entry opening and a first exit opening, wherein the second inlet passage has a second entry opening and a second exit opening so that the corresponding component can be conducted through the corresponding inlet passage.

A beverage nozzle for mixing at least a first beverage ingredient and a second beverage ingredient into a homogeneous mixture is disclosed herein. The beverage nozzle may include a housing having a first portion and a second portion. A first inlet may be in fluid communication with the housing. The first inlet may be configured to provide the first beverage ingredient to the housing. A second inlet may be in fluid communication with the housing. The second inlet may be configured to provide the second beverage ingredient to the housing. The beverage nozzle also may include a mixing core disposed within the housing. The mixing core may be configured to mix the first beverage ingredient and the second beverage ingredient into the homogeneous mixture. An outlet may be disposed about the housing. The homogeneous mixture may exit the housing by way of the outlet.

A co-extrusion device includes at least one first inlet port to receive a first material, at least one second inlet port to receive a second material, a first combining channel arranged to receive the first material and the second material and combine the first and second materials into a first combined flow flowing in a first direction, a splitter channel arranged to receive the first combined flow and to split the first combined flow into at least two split flows in a second direction at least partially orthogonal to the first direction, wherein each split flow consists of the first and second materials, a second combining channel arranged to receive the split flows and combine the split flows into a second combined flow in the first direction, and at least one exit orifice arranged to allow the materials to exit the device as a single flow.

The present disclosure relates to a mixer device having a housing including at least first and second adjacent mixing cells (2, 3), each cell (2, 3) including a fluid inlet opening (21, 31) and a fluid outlet opening (22, 32), the inlet opening being offset from the outlet opening so that the axis of the inlet opening is parallel to the axis of the outlet opening, the outlet opening of the first cell being connected to the inlet opening of the second cell via a connecting channel.