Systems and methods disclosed herein provide an improved high voltage plasma-based product treatment by integrating the plasma reactor into the processing container. This unique device can deliver a high throughput rate of raw food, without adverse effects on quality. The system is operationally efficient, and is capable of being scaled up or down to provide lower or higher throughput rates, depending on the product manufacturer or processor's needs. In particular, the system obviates the need for further containerization or packaging of product during pasteurization processing.

Systems and methods disclosed herein provide an improved high voltage plasma-based product treatment by integrating the plasma reactor into the processing container. This unique device can deliver a high throughput rate of raw food, without adverse effects on quality. The system is operationally efficient, and is capable of being scaled up or down to provide lower or higher throughput rates, depending on the product manufacturer or processor's needs. In particular, the system obviates the need for further containerization or packaging of product during pasteurization processing.

A cooked rice forming apparatus for forming cooked rice into a desired shape includes a light guide part that is provided with a first surface and a second surface, and is made of a material having transparency, wherein the first surface is in slidably contact with one side of the cooked rice, and has a slope, and the second surface is arranged on a lower side of the slope and on the other side of the cooked rice; a light source part that emits ultraviolet rays and is provided near the light guide part; a forming part that is arranged below a lower side of the slope, and forms the cooked rice into the desired shape; and a housing body that accommodates an input part, a discharging part, the light guide part, the light source part and the forming part, wherein the light guide part is configured such that at least the first surface and the second surface glow due to the ultraviolet rays emitted from the light source part.

A cooked rice forming apparatus for forming cooked rice into a desired shape includes a light guide part that is provided with a first surface and a second surface, and is made of a material having transparency, wherein the first surface is in slidably contact with one side of the cooked rice, and has a slope, and the second surface is arranged on a lower side of the slope and on the other side of the cooked rice; a light source part that emits ultraviolet rays and is provided near the light guide part; a forming part that is arranged below a lower side of the slope, and forms the cooked rice into the desired shape; and a housing body that accommodates an input part, a discharging part, the light guide part, the light source part and the forming part, wherein the light guide part is configured such that at least the first surface and the second surface glow due to the ultraviolet rays emitted from the light source part.

A device for processing bulk grain products includes a housing with a plurality of modules stacked on top of each other; wherein the modules are at an equal distance from each other, such that the distance is adjustable, wherein each module has horizontal ultraviolet lamps, whose position relative to each is adjustable, and each ultraviolet lamp has a protective coating for protection from mechanical damage and a protective shield above it; each module having an ultraviolet intensity sensor aimed at one of the plurality of lamps; each module having a device for cleaning the ultraviolet lamps from contamination; and each module including a vibrating mechanism; wherein the bulk grain products move from top to bottom, past the ultraviolet lamps under a force of gravity. Optionally, the device may include a bipolar ionizer and/or an infrared heater. Optionally the protective coating is made of polytetrafluoroethylene.

A device for processing bulk grain products includes a housing with a plurality of modules stacked on top of each other; wherein the modules are at an equal distance from each other, such that the distance is adjustable, wherein each module has horizontal ultraviolet lamps, whose position relative to each is adjustable, and each ultraviolet lamp has a protective coating for protection from mechanical damage and a protective shield above it; each module having an ultraviolet intensity sensor aimed at one of the plurality of lamps; each module having a device for cleaning the ultraviolet lamps from contamination; and each module including a vibrating mechanism; wherein the bulk grain products move from top to bottom, past the ultraviolet lamps under a force of gravity. Optionally, the device may include a bipolar ionizer and/or an infrared heater. Optionally the protective coating is made of polytetrafluoroethylene.

Systems and methods disclosed herein provide an improved high voltage plasma-based product treatment by integrating the plasma reactor into the processing container. This unique device can deliver a high throughput rate of raw food, without adverse effects on quality. The system is operationally efficient, and is capable of being scaled up or down to provide lower or higher throughput rates, depending on the product manufacturer or processor's needs. In particular, the system obviates the need for further containerization or packaging of product during pasteurization processing.

Systems and methods disclosed herein provide an improved high voltage plasma-based product treatment by integrating the plasma reactor into the processing container. This unique device can deliver a high throughput rate of raw food, without adverse effects on quality. The system is operationally efficient, and is capable of being scaled up or down to provide lower or higher throughput rates, depending on the product manufacturer or processor's needs. In particular, the system obviates the need for further containerization or packaging of product during pasteurization processing.

A devices (10) and method for pasteurizing and/or sterilizing particulate material. The device contain at least one electron source (20) for generating an electron beam and a treatment zone (19) in which the material is pasteurized and/or sterilized by the electron beam. The device (10) comprises a vibration surface (11) which vibrates to convey and individualize the material. The first vibration surface (11) has a plurality of grooves (12) into which the material is conveyed and individualized. The device (10) has a material channel (21) in which the material is pasteurized and/or sterilized by the electron beam in the region of the treatment zone (19). The device (10) has at least one auxiliary channel (22) through which a fluid flows, between the electron source (20) and the material channel (21), and is separated from the material channel (21). A cartridge (24) for pasteurizing and/or sterilizing particulate material is also disclosed.

A devices (10) and method for pasteurizing and/or sterilizing particulate material. The device contain at least one electron source (20) for generating an electron beam and a treatment zone (19) in which the material is pasteurized and/or sterilized by the electron beam. The device (10) comprises a vibration surface (11) which vibrates to convey and individualize the material. The first vibration surface (11) has a plurality of grooves (12) into which the material is conveyed and individualized. The device (10) has a material channel (21) in which the material is pasteurized and/or sterilized by the electron beam in the region of the treatment zone (19). The device (10) has at least one auxiliary channel (22) through which a fluid flows, between the electron source (20) and the material channel (21), and is separated from the material channel (21). A cartridge (24) for pasteurizing and/or sterilizing particulate material is also disclosed.