A robotic systems for preparing meals having: a robotic arm with a controller and a motor drive unit, an end of arm tool; a plurality of ingredient holding and dispensing assemblies, each comprising a container for holding and dispensing the ingredients; a cooking receptacle to cook ingredients placed therein; dishes storing device; a tray adapted to receive ingredients from the dispenser and be releasably gripped by the gripper; a dish and food transfer area having at least one compartment, comprising an internal access door, an external access door and at least one surface adapted for placing a dish or food; a cleaning subsystem to clean the cooking receptacle and the tray. The end of arm tool is provided with a rotary drive adapted to releasably engaged the plurality of the containers for holding a ingredients so that the rotation of the rotary drive causes the dispenser to dispense the ingredient.

Methods and apparatus for automatically preparing food for consumption in which preparation comprises dispensing, manipulation, heating, and other operations using a wide variety of ingredients. The methods and apparatus described use ingredients efficiently and maintain their quality, while avoiding contact between ingredients and apparatus to minimize the risk of system contamination.

Methods and apparatus for automatically preparing food for consumption in which preparation comprises dispensing, manipulation, heating, and other operations using a wide variety of ingredients. The methods and apparatus described use ingredients efficiently and maintain their quality, while avoiding contact between ingredients and apparatus to minimize the risk of system contamination.

A nutritional supplement containing fungal biomass having at least 100 mg/kg iron and processes for producing the nutritional supplement using filamentous fungi are described.

A nutritional supplement containing fungal biomass having at least 100 mg/kg iron and processes for producing the nutritional supplement using filamentous fungi are described.

The present application discloses a simple process for the purification of neutral human milk oligosaccharides (HMOs) produced by microbial fermentation. The process uses a combination of cationic ion exchanger treatment, an anionic ion exchanger treatment, and a nanofiltration and/or electrodialysis step, which allows efficient purification of large quantities of neutral HMOs at high purity. Contrary to the purification currently used in fermentative production of neutral HMOs, the presented process allows the provision of HMOs without the need of a chromatographic separation. The so purified HMOs may be obtained in solid form by spray drying, as crystalline material or as sterile filtered concentrate. The provided HMOs are free of proteins and recombinant material originating from the used recombinant microbial strains and thus very well-suited for use in food, medical food and feed (e.g. pet food) applications.

The present application discloses a simple process for the purification of neutral human milk oligosaccharides (HMOs) produced by microbial fermentation. The process uses a combination of cationic ion exchanger treatment, an anionic ion exchanger treatment, and a nanofiltration and/or electrodialysis step, which allows efficient purification of large quantities of neutral HMOs at high purity. Contrary to the purification currently used in fermentative production of neutral HMOs, the presented process allows the provision of HMOs without the need of a chromatographic separation. The so purified HMOs may be obtained in solid form by spray drying, as crystalline material or as sterile filtered concentrate. The provided HMOs are free of proteins and recombinant material originating from the used recombinant microbial strains and thus very well-suited for use in food, medical food and feed (e.g. pet food) applications.

A seed processing system for cottonseeds includes a fluid distribution system configured to sequentially dispense an acid solution, a base solution and a rinse liquid onto the cottonseeds. A seed applicator system defines an interior configured to hold the cottonseeds and receive the acid solution, base solution and rinse liquid dispensed from the fluid distribution system. The seed applicator system includes a rotor configured to agitate the cottonseeds in the interior as the acid solution, base solution and rinse liquid are dispensed onto the cottonseeds to effectuate mixing.

An iron-containing composition containing ferric pyrophosphate, a polyhydric alcohol, gum arabic, and gum ghatti, wherein the content of the polyhydric alcohol is from 93 to 630 parts by mass, based on 100 parts by mass of the ferric pyrophosphate, and wherein a total amount of gum arabic and gum ghatti is from 15 to 23 parts by mass, based on 100 parts by mass of the ferric pyrophosphate, and wherein a mass ratio of the content of the gum arabic to the content of the gum ghatti (gum arabic/gum ghatti) is from 0.01 to 0.5, and wherein the ferric pyrophosphate has a volume-average particle size of 0.20 μm or less. The iron-containing composition of the present invention can be used in foodstuff, feeds, cosmetics, pharmaceutical compositions, and the like.

A system for rehydrating a food item includes a housing, a casing, an actuator, a moisture source, and a plate. The moisture source includes an outlet and an enclosed vessel having liquid. The liquid is released by steam or pressure as moisture into a first end of a conduit. The system has a plate with a top surface, a bottom surface and an opening traversing between the two. A casing couples with the top surface of the plate. The second end of the conduit couples with the opening. The casing has a pivot point. An actuator couples the casing on a first end and the housing at a second end. The actuator moves the casing from a first position to a second position by rotation about the pivot point. In the first position, the moisture flows towards the plate and in the second position moisture flow is idled.