A particulate solid fat composition comprising coconut oil is prepared by a method comprising heating a fat composition comprising coconut oil, cooling the melted fat composition with stirring to provide a substantially uniform solid fat composition, and chopping the solid fat by a food cutting device under chilling conditions at a temperature low enough to form a a substantially uniform particulate solid fat composition wherein at least 90% of the particles have a particle size of from 1.5 mm to 26 mm. The substantially uniform particulate solid fat composition is substantially compositionally uniform, or is substantially visually uniform, and/or is substantially uniform in color. This particulate solid fat composition is mixed with a hydrated plant protein composition under chilling conditions at a temperature low enough to maintain the particulate nature of the solid fat composition to form an animal meat mimic.

Tofu products and methods of making the same. The tofu products may include one or more layers. A first layer may include added fat, and a second layer may include no added fat. The fat may be introduced into the soymilk prior to curdling. The first and second layers may be layered to form a layered tofu product such as a bacon analog.

Tofu products and methods of making the same. The tofu products may include one or more layers. A first layer may include added fat, and a second layer may include no added fat. The fat may be introduced into the soymilk prior to curdling. The first and second layers may be layered to form a layered tofu product such as a bacon analog.

A high protein food may be produced via an extrusion process whereby acid casein is mixed with whey protein, alkali and water. Upon exiting the extruder, the mixture may be cut, dried, and/or tempered, milled and screened before being further processed or packaged. The final product may be configured as a crisp high protein food or a powdered high protein food. The protein content of the end product may be approximately 90-95% on a dry weight basis.

This invention is related to fat-free, starch-free protein food that can be processed into noodles, spherical and rice-similar shapes, which consist of 2 parts: the first part are boiled water, egg white powder and/or soy protein, and/or whey protein, and/or pea protein, and/or brown rice protein, and sodium alginate; and the second part are boiled water and calcium chloride concentration as solid gel agent. Fat-free, starch-free protein food in noodles form has 0.5-5 mm diameter, spherical and rice-similar shapes have 2-5 millimetres diameter. Protein foods can be substituted for noodles or glass noodles, or beverages and desserts. This product is a nutritious health food, a good choice for patients and those who want to supplement protein to be able to eat in a variety way and more appetizing.

This invention is related to fat-free, starch-free protein food that can be processed into noodles, spherical and rice-similar shapes, which consist of 2 parts: the first part are boiled water, egg white powder and/or soy protein, and/or whey protein, and/or pea protein, and/or brown rice protein, and sodium alginate; and the second part are boiled water and calcium chloride concentration as solid gel agent. Fat-free, starch-free protein food in noodles form has 0.5-5 mm diameter, spherical and rice-similar shapes have 2-5 millimetres diameter. Protein foods can be substituted for noodles or glass noodles, or beverages and desserts. This product is a nutritious health food, a good choice for patients and those who want to supplement protein to be able to eat in a variety way and more appetizing.

The present technology is directed to a system for vacuum cooking a non-animal protein, High Moisture Extrusion (HME) food product using steam injection. In various instances the system may comprise: a vacuum cooking food processing system. In various instances the vacuum cooking food processing system may comprise a vacuum tumbler. In some embodiments, the vacuum tumbler may comprise: a vacuum sensor; a temperature sensor; a vacuum valve; a steam injector; and a dosing nozzle.

A device for transferring molten proteinaceous extrudate material from the exit of an extrusion cooker barrel to a cooling die whilst promoting or maintaining laminar flow of said molten extrudate.

A device for transferring molten proteinaceous extrudate material from the exit of an extrusion cooker barrel to a cooling die whilst promoting or maintaining laminar flow of said molten extrudate.

An embodiment of the present invention relates to protein granules containing a soy protein as a main component, the protein granules having an average particle diameter of 150 μm to 220 μm, a homogeneity U of 0.58 or less, a content ratio (volume ratio) of a coarse powder having a particle diameter of 300 μm or more of 27% or less, and a content ratio (volume ratio) of a fine powder having a particle diameter of 100 μm or less of 30% or less.