Provided herein are compositions for producing gluten-free bread products, comprising pea starch and at least about 0.5% by weight pea protein based on the total weight of the composition. Also provided are gluten-free bread and bread products, and processes for preparing the same, wherein the bread and bread products comprise pea protein and pea starch, wherein the pea protein is present at at least about 0.5% by weight pea protein based on the total weight of the product.

The present invention relates to the fields of flourless baked products. The present invention relates to improved flourless baked products that have the appearance and texture of floured baked goods, and improved methods of making the products.

The present disclosure relates to unique soluble pea protein product can be used alone to make aerated bakery products, confections, desserts, sauces, and beverages. The soluble pea protein product can be combined with insoluble pea protein product to make a range of food products with higher protein content than when insoluble, globular pea protein product is used alone, due to the viscosity reducing nature of the soluble pea protein product when it is combined with insoluble globular pea protein product. The soluble pea protein products when combined with insoluble pea protein products, make a resulting pea protein product that has a PDCAAS of about 0.75-1.00. The process to make this unique soluble pea protein includes means of selectively separating the soluble pea protein product from the insoluble fractions of ground peas, as well as selectively separating the soluble pea protein from soluble carbohydrates and ash. This Abstract is not intended to identify key features or essential features of subject matter, nor does this Abstract intend to be used to limit the scope of claimed subject matter.

Baking (e.g., pancake) mixes comprising at least one type of whole grain flour, at least one natural sweetener, at least one solid fat and a leavening system are provided herein. Packaged food products comprising single-serving containers containing said baking (e.g., pancake) mixes, as well as methods of preparing pancakes, are also provided. The baked goods (e.g., pancakes) described herein are preferably 100% whole grain and free from preservatives and/or artificial colorings.

The invention pertains to a soft-baked biscuit that is high in protein, and methods of making the same, that includes a protein component, a multi-textured mouth feel, and crispy inclusions contrasting with a moist and chewy matrix. The protein component may include a powdered protein source and a particulate protein source. The particulate protein source may be in the form of protein crisps, pops, tots, flakes, puffs, inclusions, pellets, bits, and/or particles. In some embodiments of the invention, the protein source includes a powdered protein source in an amount of about 35% by weight of the protein source to about 85% by weight protein powder and about 15% by weight to about 65% by weight particulate protein such as protein crisps. In another embodiment, the softbaked biscuit may include a protein component and a grain flour, wherein the flour is at least 4% by weight of the soft-baked biscuit. In still further embodiments of the invention, the soft-baked biscuits may be high in protein due to the inclusion of two protein sources while maintaining a low density of up to 0.92 g/cm.sup.3 and a water activity (Aw) of between about 0.5 and about 0.7.

Packaged aquafaba having a protein content by weight of at least 0.5%. The packaged aquafaba is provided in liquid form and packaged in a pouch. Methods of making aquafaba and of using aquafaba and the products resulting therefrom are also disclosed.

Disclosed are methods for separating non-soy plant materials to produce a fat-enriched fraction, a reduced-fat plant extract, reduced-fat plant protein compositions, a crude oil, plant gums, a degummed oil and a protein-fat sediment. Also disclosed are food products containing or prepared from the reduced-fat extracts, fat-enriched fraction, gums, oils, protein-fat sediments and reduced-fat protein compositions.

A process for preparing food from frozen dough portions comprising a first preparation step in a kitchen, which comprises the sub-steps of: kneading a mixture of wheat flour, boiling water and salt until the mixture reaches a doughy consistency, cooling the mixture, moulding some portions from that mixture, pre-frying the portions, and freezing the pre-fried portions;
including a second step of finishing at a consumption site, consisting of the baking of the portions with no added oil.

The invention also comprises a machine for implementing the second step and dispensing the product

A pulse protein product, which may be an isolate, produces heat-stable solutions at low pH values and is useful for the fortification of acidic beverages such as soft drinks and sports drinks without precipitation of protein. The pulse protein product is obtained by extracting a pulse protein source material with an aqueous calcium salt solution to form an aqueous pulse protein solution, separating the aqueous pulse protein solution from residual pulse protein source, adjusting the pH of the aqueous pulse protein solution to a pH of about 1.5 to about 4.4 to produce an acidified pulse protein solution, which may be dried, following optional concentration and diafiltration, to provide the pulse protein product.

The present disclosure provides a method for preparing a linseed meringue from linseed, including the following steps: S1: conducting linseed pulverizing: washing the linseed, pressing oil from washed linseed using an oil press, obtaining an oil-pressed linseed cake, and pulverizing the linseed cake into powder; S2: conducting dissolving and adding an inorganic salt to precipitate proteins; S3: conducting protein separation; S4: adding flour, starch, white granulated sugar, and egg white to separated proteins, and conducting kneading and molding; and S5: conducting frying and dehydration. In the present disclosure, raw materials such as a protein layer, flour, starch, white granulated sugar, and egg white are selected, such that a finished linseed meringue has overall crispness and is not easy to loosen and drop crumbs. The method has a relatively simple process and a high efficiency in preparing finished products. By combining frying and baking, the meringue has a significantly improved taste.