The purpose of the present invention is to provide a method for producing a dainty-food-like food product that efficiently takes advantage of soybean protein and has favorable texture. A dainty-food-like food product that is thin in thickness and provides favorable texture can be obtained by causing 100 parts by weight of textured soybean protein to absorb water in a specific amount range of 100-300 parts by weight, and flattening and applying pressure on the resultant material while heating said material at 100° C. or higher.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

A method for using peptides for flavorings is described. The method includes, at least, obtaining a microalgae, extracting chlorella protein from the microalgae, modifying a factor associated with the chlorella protein to change an amino acid combination of the chlorella protein, and identifying a peptide flavoring associated with the modified amino acid combination.

In some embodiments, the present technology is directed to a plant-based meat analogue produced by the process comprising: shearing a texturized product to allow the ingress of fluids; adding the texturized product to a salt solution; and heating the texturized product in the salt solution for one or more predetermined time-periods at one or more predetermined temperature ranges. Additionally, the salt solution may comprise other ingredients. In some embodiments, the texturized product is further heated in a second solution for a second set of one or more predetermined time-periods at one or more predetermined temperature ranges. In some embodiments, the process further comprises centrifugation of the cooked texturized product.

The present disclosure relates to a rework process wherein raw material for making plant-based food products is reprocessed at the early stages of food production, thereby minimizing waste and improving food production. The rework process comprises reprocessing output material from an extruder, comprising cutting and kneading the output and pumping it back into the extruder via a pressure generated by sausage filler for another round of processing via a high moisture extrusion process.

Systems and methods are disclosed herein for a multichannel cooling die. Some embodiments present a multichannel cooling die system comprising a cooling die with an inlet for entry of an extrudate into the cooling die and an outlet for exit of the extrudate from the cooling die, a cooling core that spans the length of the cooling die between the inlet and the outlet; a flow channel that facilitates the movement of an extrudate mixture from the inlet to the outlet, an outer jacket that spans the length of the cooling die, connected between the inlet and outlet, and circumferentially surrounding the flow channel forming an outer layer of the cooling die, and one or more dividers placed in the flow channel, extending through the flow channel for a first designated length and separating the flow channel into two or more separate flow channels.

The invention relates to a leguminous plant protein composition having improved gel strength at neutral pH, and also the process for producing same.

A meat analogue may include a macrostructure of connected sheared fibers oriented parallel to one another and gaps positioned between the sheared fibers. The macrostructure may not include meat and may include a vegetable protein. An extrusion system may include an extruder and a die. The extrusion system may produce a meat analogue. A meat analogue may include a plant protein. The extruder may be connectable to the die. The extrusion system may be configured to direct a material including a vegetable protein from the extruder to the die and through a fluid path extending through the die. The die may be configured to inject a fat or a fat analogue into the material such that the fat or the fat analogue is embedded but visually distinct from the material including the vegetable protein when the fat or the fat analogue and the material exit the die.

A meat analogue may include a macrostructure of connected sheared fibers oriented parallel to one another and gaps positioned between the sheared fibers. The macrostructure may not include meat and may include a vegetable protein. An extrusion system may include an extruder and a die. The extrusion system may produce a meat analogue. A meat analogue may include a plant protein. The extruder may be connectable to the die. The extrusion system may be configured to direct a material including a vegetable protein from the extruder to the die and through a fluid path extending through the die. The die may be configured to inject a fat or a fat analogue into the material such that the fat or the fat analogue is embedded but visually distinct from the material including the vegetable protein when the fat or the fat analogue and the material exit the die.

Embodiments of the invention describe a cultured meat or food product with more desirable flavor and texture, as well as methods and compositions for producing the same. Certain embodiments are directed to methods of producing a stiffer, structured surfaces or scaffolds that mimic the extracellular matrix (ECM) and support the growth of myotubes that are interspersed with a scaffold component supporting fat cells (adipocytes) in vitro.