A processing aid for an extrudable food composition includes from about 60% to about 99% by weight of at least one edible emulsifier and from about 1% to about 40% by weight of a short chain carboxylic acid. The extrudable food composition may include from about 80% to about 90% by weight of a raw material; from about 1% to about 18% by weight added moisture; from about 0.1% to about 3% of a processing aid, wherein the processing aid includes at least one edible emulsifier and at least one short chain carboxylic acid. The raw material is selected from one or more of corn meal, whole grain corn meal, rice, whole grain flour, rice pea, brown rice, wheat flour, whole wheat flour, pea flour, black bean, pinto bean flour, potato flour, and mixtures thereof.

The present invention is directed to an extruded food product constituent composed of a gelling food product constituent extrudate and method of extruding a gelling food product constituent extrudate used as an ingredient of a food product normally using a gelling gum, like guar gum, xanthan gum or carrageenan as an ingredient. The gelling food product extrudate is composed of cold-water soluble gelling pregelatinized starch formed of starch in a starch-containing admixture modified by extrusion at extrusion pressures greater than 2000 PSI that gels when mixed with water, which preferably also modifies additional starch or starches in the admixture into a plurality of different molecular weight polymers of a cold-water soluble gellant that polymerize forming a gel when mixed with water, preferably forming a hydrocolloid gel, which more preferably is a self-gelling gel, which even more preferably is a thermo-reversible gel crosslinked by one or more proteins freed by or modified during extrusion. Preferred admixtures configured to produce gelling extrudates include admixtures composed of cereal grains, including sorghum, wheat, oats, barley and/or corn, and/or legumes, including chick pea, yellow pea, pea and/or lentils with legume containing admixtures producing gelling extrudates that form thicker gels whose viscosity increases over time that are well suited for use in non-dairy dairy substitutes like non-dairy butter, non-dairy creamers, non-dairy whipped cream, non-dairy yogurt, non-dairy cream cheese, non-dairy cheese, and non-dairy ice cream.

The present invention is directed to an extruded food product constituent composed of a gelling food product constituent extrudate and method of extruding a gelling food product constituent extrudate used as an ingredient of a food product normally using a gelling gum, like guar gum, xanthan gum or carrageenan as an ingredient. The gelling food product extrudate is composed of cold-water soluble gelling pregelatinized starch formed of starch in a starch-containing admixture modified by extrusion at extrusion pressures greater than 2000 PSI that gels when mixed with water, which preferably also modifies additional starch or starches in the admixture into a plurality of different molecular weight polymers of a cold-water soluble gellant that polymerize forming a gel when mixed with water, preferably forming a hydrocolloid gel, which more preferably is a self-gelling gel, which even more preferably is a thermo-reversible gel crosslinked by one or more proteins freed by or modified during extrusion. Preferred admixtures configured to produce gelling extrudates include admixtures composed of cereal grains, including sorghum, wheat, oats, barley and/or corn, and/or legumes, including chick pea, yellow pea, pea and/or lentils with legume containing admixtures producing gelling extrudates that form thicker gels whose viscosity increases over time that are well suited for use in non-dairy dairy substitutes like non-dairy butter, non-dairy creamers, non-dairy whipped cream, non-dairy yogurt, non-dairy cream cheese, non-dairy cheese, and non-dairy ice cream.

A system and method for processing a coextruded meat product including a casing enclosing a meat batter after brining in which a heated, high velocity air stream is applied to the coextruded meat product thereby mechanically removing moisture from a surface of the casing and cooking the coextruded meat product. This system and method can further improve the ability for a liquid coating to be added to the coextruded meat product in a non-drenching manner because of the superior surface preparation of the casing by the jets.

This invention relates to an alginate composition for coating food products, in particular fresh, skinless food products such as sausages, and a method for producing the alginate composition. Furthermore, the invention relates to a method for producing coated food products with the use of the alginate composition of the invention.

This invention relates to an alginate composition for coating food products, in particular fresh, skinless food products such as sausages, and a method for producing the alginate composition. Furthermore, the invention relates to a method for producing coated food products with the use of the alginate composition of the invention.

A co-extruded, dual-texture animal food is provided. The food has a dry outer portion partially surrounding a semi-moist inner portion. The inner portion has a higher or similar moisture content and a softer texture compared to the outer portion which has a lower moisture content and harder texture. The outer portion comprises cereal grain and a legume at about 75-85% of the weight of the outer portion, and an animal-based protein contributing to about 5-10% of the weight or more of the outer portion. The inner portion has animal-derived grease mixed with lactic acid at about 3% by weight of the inner portion, along with at least one meat comprising at least 3% by weight of the inner portion. The composition inhibits moisture transference within and between individual pieces of the food. The food is shelf stable and the inner and outer portions retain their hardness and moisture profiles, post-packaging.

A co-extruded, dual-texture animal food is provided. The food has a dry outer portion partially surrounding a semi-moist inner portion. The inner portion has a higher or similar moisture content and a softer texture compared to the outer portion which has a lower moisture content and harder texture. The outer portion comprises cereal grain and a legume at about 75-85% of the weight of the outer portion, and an animal-based protein contributing to about 5-10% of the weight or more of the outer portion. The inner portion has animal-derived grease mixed with lactic acid at about 3% by weight of the inner portion, along with at least one meat comprising at least 3% by weight of the inner portion. The composition inhibits moisture transference within and between individual pieces of the food. The food is shelf stable and the inner and outer portions retain their hardness and moisture profiles, post-packaging.

An improved process for the manufacturing of emulsion-type sausages into a flattened form-factor that does not require the use of individual molds.

An improved process for the manufacturing of emulsion-type sausages into a flattened form-factor that does not require the use of individual molds.