An egg-free albumen replacement includes a starch, an edible gum and a hydrolyzed pea protein. The egg-free albumen replacement can include the hydrolyzed pea protein in an amount of 3 to 75 wt. %, based on the combined weights of the starch, edible gum and hydrolyzed pea protein in the replacement composition. At least some of the hydrolyzed pea protein in the egg-free albumen replacement can include partially hydrolyzed pea protein.

The purpose of the present invention is to provide a technology that enables control for increasing or decreasing the heat coagulation gel strength of egg white protein, and that has little effect on taste. This heat coagulation gel strength regulating agent for egg white protein contains a protein deamidase and can control the increase or decrease of the heat coagulation gel strength of egg white protein.

A method for producing water-soluble or water-dispersible microparticles, which includes preparing a solution or dispersion that contains a protein and an anionic polysaccharide and that has a pH higher than the isoelectric point of the protein, and mixing the solution or dispersion to set the pH of the solution or dispersion to a value closer to the isoelectric point.

A composition and method for supplementing food, nutrition, and diet systems with omega-6 to omega-3 balanced oils comprising a synergistic blend of at least two oils. The composition further comprises a synergistic blend of long chain omega-3 oil as a means to further increase the nutritional value. The composition provides an effective increase in therapeutic and pharmacological properties in nutrition and diet systems.

The method is for making a coating for use in reducing penetration of food dyes on an egg shell surface. The method includes admixing an edible salt compound with water in combination with a hydroxide, optionally adding an acid to lower the pH of the mixture; optionally adding a sugar alcohol; optionally adding, and mixing in, one or more of water and a food grade acid, bacterial alpha amylase, a plasticizer, a sugar, starch, cellulose/cellulose esters, gelatin, agar, gluten, casein, and protein, adding a food grade emulsifier and a fatty acid to the mixture, optionally adding a food grade clay to the mixture, heating the mixture to a temperature between 135-200 F. and adding a food grade wax, and optionally adding a silicone, cooling the mixture to produce the coating for application onto the egg shell surface.

A method for producing a foaming material for a composition to be foamed, the method includes: suspending a yeast cell residue in water; adjusting a pH of a yeast cell suspension to an acidic side; and heating a yeast cell suspension, the foaming material includes a yeast extract having a protein content of 35% by weight or more per solid content and a dietary fiber content of 30% by weight or more per solid content, and the foaming material is contained in the composition at from 0.001% to 1% by weight.

A method for producing a foaming material for a composition to be foamed, the method includes: suspending a yeast cell residue in water; adjusting a pH of a yeast cell suspension to an acidic side; and heating a yeast cell suspension, the foaming material includes a yeast extract having a protein content of 35% by weight or more per solid content and a dietary fiber content of 30% by weight or more per solid content, and the foaming material is contained in the composition at from 0.001% to 1% by weight.

Formed, ready-to-cook or ready-to-eat egg products are prepared by mixing a liquid egg composition comprising liquid egg in an amount sufficient so that the liquid egg composition is flowable at 35 F. with solid food inclusions, wherein at least 50% of the solid food inclusions have a longest dimension size of from 0.6 to 12 cm. At least about 50% of the solid food inclusions are at a temperature of less than 34 F. at the time of mixing. The resulting extrudable egg-based matrix comprises from 50 wt % to 90 wt % of the solid food inclusions, and is formed into a predetermined shape to provide a shaped, ready-to-cook or ready-to-eat egg product that is self-supporting for at least two minutes at an ambient temperature of 40 F. The shaped, ready-to-cook egg product may then be cooked.

Formed, ready-to-cook or ready-to-eat egg products are prepared by mixing a liquid egg composition comprising liquid egg in an amount sufficient so that the liquid egg composition is flowable at 35 F. with solid food inclusions, wherein at least 50% of the solid food inclusions have a longest dimension size of from 0.6 to 12 cm. At least about 50% of the solid food inclusions are at a temperature of less than 34 F. at the time of mixing. The resulting extrudable egg-based matrix comprises from 50 wt % to 90 wt % of the solid food inclusions, and is formed into a predetermined shape to provide a shaped, ready-to-cook or ready-to-eat egg product that is self-supporting for at least two minutes at an ambient temperature of 40 F. The shaped, ready-to-cook egg product may then be cooked.

A system and method for manufacturing a cooked egg product includes an automated egg cracker that receives the raw, shelled eggs from the infeed conveyor and removes the shells from the eggs; a cooking conveyor having a plurality of cooking pans that receives the whole eggs and induction heats the cooking pans sufficiently to completely cook the eggs contained in the cooking pans, resulting in cooked eggs; a pasteurization tunnel that receives the cooked eggs in the cooking pans from the induction heater; and a control that actuates the pasteurization tunnel to heat the surfaces of the eggs to a pasteurization temperature. A freezer freezes the cooked and pasteurized eggs, and a packaging machine packages the frozen, cooked and pasteurized eggs. Alternatively, the induction cooked eggs are frozen after cooking and individually vacuum packaged, sous vide heated to a pasteurization temperature, then chilled or frozen for storage or shipment.