This invention relates to making and using a stabilizer that is effective in small amounts and, particularly useful for stabilizing low solids liquids, e.g., dispersions, emulsions, and suspensions, used in foods, pharmaceuticals, nutraceuticals, and similar industrial applications, which comprises, microcrystalline cellulose, (preferably, colloidal hydrolyzed MCC); a first carboxymethyl cellulose having a viscosity of 30-85 cP at 2% in deionized water; and, a degree of carboxymethyl substitutions of 0.60 to 0.85, and a second carboxymethyl cellulose having a viscosity of 400-800 cP at 2% in deionized water, and a degree of carboxymethyl substitutions of 0.80 to 0.95; and, the stabilizer may be made by preparing a moist MCC “wetcake”; thoroughly mixing the wetcake with a dry blended mixture of low DS and medium DS, CMCs; preferably, in a MCC/low DS CMC/medium DS CMC ratio range of about 88/6/6 to about 92/4/4, adding that mixture to an extruder; preparing a slurry of the extrudate in deionized water; and, optionally, pumping the slurry to a spray dryer to produce a powder.

This invention relates to making and using a stabilizer that is effective in small amounts and, particularly useful for stabilizing low solids liquids, e.g., dispersions, emulsions, and suspensions, used in foods, pharmaceuticals, nutraceuticals, and similar industrial applications, which comprises, microcrystalline cellulose, (preferably, colloidal hydrolyzed MCC); a first carboxymethyl cellulose having a viscosity of 30-85 cP at 2% in deionized water; and, a degree of carboxymethyl substitutions of 0.60 to 0.85, and a second carboxymethyl cellulose having a viscosity of 400-800 cP at 2% in deionized water, and a degree of carboxymethyl substitutions of 0.80 to 0.95; and, the stabilizer may be made by preparing a moist MCC “wetcake”; thoroughly mixing the wetcake with a dry blended mixture of low DS and medium DS, CMCs; preferably, in a MCC/low DS CMC/medium DS CMC ratio range of about 88/6/6 to about 92/4/4, adding that mixture to an extruder; preparing a slurry of the extrudate in deionized water; and, optionally, pumping the slurry to a spray dryer to produce a powder.

Disclosed is a method of preparing a fermented milk. The method comprises: step 1, extruding whey protein at low temperature, mixing the extruded whey protein with inulin to prepare extruded whey protein isolate (WPI)-inulin composition; step 2, adding sucrose and the extruded WPI-inulin composition into the raw milk, and uniformly mixing and stirring the sucrose, the extruded WPI-inulin composition, and the raw milk to obtain a material A; step 3, preheating, homogenizing, sterilizing and cooling the material A to obtain a fermentation substrate; step 4, adding a fermentation agent into the fermentation substrate, filling the fermentation substrate in a container, and then performing heat-preserved fermentation, and ending the fermentation to obtain a material B; step 5, cooling the material B, and then refrigerating the material B to obtain fermented milk.

The present invention relates to a seaweed-based powder having a storage modulus (G′) of at least 30 Pa as determined on a 0.3 wt % aqueous dispersion of said powder and wherein said powder has a critical gelling concentration (C.sub.0) of at most 0.1 wt %. Further described herein is composition comprising the seaweed-based powder and a method of producing the seaweed-based powder.

The present invention is directed to a composition of colloidal microcrystalline cellulose, particularly for developing (uplifting) premium texture in various types of fermented or acidified milk products, preferably, yoghurt types, produced by using a colloidal microcrystalline cellulose and at least one other hydrocolloid, products made therewith and process for production of these products. The present invention is mainly directed to fermented or acidified milk products as yogurt type and ambient stable yogurt.

The present invention is directed to a composition of colloidal microcrystalline cellulose, particularly for developing (uplifting) premium texture in various types of fermented or acidified milk products, preferably, yoghurt types, produced by using a colloidal microcrystalline cellulose and at least one other hydrocolloid, products made therewith and process for production of these products. The present invention is mainly directed to fermented or acidified milk products as yogurt type and ambient stable yogurt.

This specification discloses thermally inhibited waxy cassava starches and edible compositions made therefrom. In one aspect edible compositions have improved creaminess compared to prior art starches, independent of starch usage level and the viscosity provided by the starch. In an embodiment the edible composition comprises between 0.1% and 35.0% by weight. In various embodiments the thermally inhibited waxy cassava starch has a peak viscosity of between about 100, and 2000 Brabender units or between 500 and 1500 Brabender Units.

This specification discloses thermally inhibited waxy cassava starches and edible compositions made therefrom. In one aspect edible compositions have improved creaminess compared to prior art starches, independent of starch usage level and the viscosity provided by the starch. In an embodiment the edible composition comprises between 0.1% and 35.0% by weight. In various embodiments the thermally inhibited waxy cassava starch has a peak viscosity of between about 100, and 2000 Brabender units or between 500 and 1500 Brabender Units.

The invention is about a beverage produced with vitamins, nutritious, filling, probiotic-strong, ready for direct consumption and has been developed to make the liquid beverage more useful, increasing the variety and taste, unlike standard beverage production in the food industry. In particular, the invention; relates to a ready-made liquid beverage that can contain a mixture of yogurt, water, flour, rice, chickpeas, eggs, spinach, parsley and optionally peppermint, dill, coriander and salt.

A smooth, shelf-stable aseptically thermally processed food product, as well as methods of making same using a shear sensitive thickener, are disclosed.