The present invention provides to a fiber washing system, optimized for the use of hydrolytic enzymes in the system. Furthermore, the present invention provides to a method for improving starch and gluten yield in a wet milling process, preferably comprising the optimized fiber washing system.

The present invention provides to a fiber washing system, optimized for the use of hydrolytic enzymes in the system. Furthermore, the present invention provides to a method for improving starch and gluten yield in a wet milling process, preferably comprising the optimized fiber washing system.

The present disclosure provides antibody cytokine engrafted proteins that bind to and stimulate intracellular signaling through a high affinity interleukin receptor. The antibody cytokine engrafted proteins find use in enhancing anti-inflammatory cell responses, and reducing pro-inflammatory effects in the treatment, amelioration and prevention of immune related disorders such as Type 1 Diabetes.

The present disclosure provides antibody cytokine engrafted proteins that bind to and stimulate intracellular signaling through a high affinity interleukin receptor. The antibody cytokine engrafted proteins find use in enhancing anti-inflammatory cell responses, and reducing pro-inflammatory effects in the treatment, amelioration and prevention of immune related disorders such as Type 1 Diabetes.

A system and method for flaking. The system includes a stationary roller, and moveable roller, and an adjustable fixator applying tension between the stationary and moveable rollers. The fixator includes a pressure transducer and a linear indicator. The transducer and indicator allow the fixator to read pressures and make fine adjustments to the fixator to obtain a desired gap between the two rollers.

The present invention provides a grain fortification system. The said system comprises a plurality of fortification tanks each containing at least one fortifying solution. The system further includes a homogenizer connected to the plurality of fortification tanks, wherein the homogenizer is adapted to receive at least one fortifying solution from the said plurality of fortification tanks to produce a homogenized fortification solution. The system further includes a fortification reactor connected to the said homogenizer. The said fortification reactor is adapted to receive the said homogenized fortification solution from the homogenizer, is adapted to receive the raw food grains, and react the said homogenized fortification solution with the said raw food grains to produce fortified grains by degassing the raw food grains at a preset degassing condition and adsorbing the said homogenized fortification solution on the degassed raw food grains in predefined controlled ambient adsorption conditions to produce fortified grains. The system further includes a fortification solution collection tank connected to the said fortification reactor at one end and to the said homogenizer at another end, wherein the said fortification solution collection tank is adapted to collect, store and recirculate a leftover fortification solution from the said fortification reactor to the said homogenizer. Also, disclosed is a process for grain fortification.

The present invention provides a grain fortification system. The said system comprises a plurality of fortification tanks each containing at least one fortifying solution. The system further includes a homogenizer connected to the plurality of fortification tanks, wherein the homogenizer is adapted to receive at least one fortifying solution from the said plurality of fortification tanks to produce a homogenized fortification solution. The system further includes a fortification reactor connected to the said homogenizer. The said fortification reactor is adapted to receive the said homogenized fortification solution from the homogenizer, is adapted to receive the raw food grains, and react the said homogenized fortification solution with the said raw food grains to produce fortified grains by degassing the raw food grains at a preset degassing condition and adsorbing the said homogenized fortification solution on the degassed raw food grains in predefined controlled ambient adsorption conditions to produce fortified grains. The system further includes a fortification solution collection tank connected to the said fortification reactor at one end and to the said homogenizer at another end, wherein the said fortification solution collection tank is adapted to collect, store and recirculate a leftover fortification solution from the said fortification reactor to the said homogenizer. Also, disclosed is a process for grain fortification.

An electromechanical nixtamalization system comprises a vertical cylindrical reactor formed by an inside container with an insulating layer, an end in the shape of a truncated cone, in which the material inlet and outlet reactor cover is provided. A reactor resistor is arranged inside the reactor and can be removed from the reactor through a resistor cover to which it is attached by one of the ends thereof, the cover being accessible from the outside through the wider end of the reactor, which is exactly opposite to the end in the shape of a truncated cone in which the material inlet and outlet is located. The reactor rotates in an oscillating manner about a horizontal rotation shaft attached to a base or structure along with bearings. A compressor introduces pressure through a pressure inlet valve located inside the reactor and a water tank located above the reactor is in communication with a lime container and in turn feeds the reactor through a valve. The gasses generated inside the reactor are used to heat the water reservoir.

The present invention provides to a fiber washing system, optimized for the use of hydrolytic enzymes in the system. Furthermore, the present invention provides to a method for improving starch and gluten yield in a wet milling process, preferably comprising the optimized fiber washing system.

The present invention provides to a fiber washing system, optimized for the use of hydrolytic enzymes in the system. Furthermore, the present invention provides to a method for improving starch and gluten yield in a wet milling process, preferably comprising the optimized fiber washing system.