A method for preparation of a composition in the form of an oil-in-water emulsion includes providing caramel, one or more phenolic compounds, vegetable oil and vinegar. The caramel is prepared from one or more monosaccharides and/or one or more disaccharides and water, and heated for a time period. The method includes mixing the caramel with one or more phenolic compounds with vegetable oil.

A method for preparation of a composition in the form of an oil-in-water emulsion includes providing caramel, one or more phenolic compounds, vegetable oil and vinegar. The caramel is prepared from one or more monosaccharides and/or one or more disaccharides and water, and heated for a time period. The method includes mixing the caramel with one or more phenolic compounds with vegetable oil.

Disclosed herein are plant-based whippable topping emulsions. In particular, described herein are plant-based emulsions that do not contain any of the eight major food allergens. In addition to plant-based products, the emulsions may generally contain vegetable oil and one or more other components such as surfactants, sugar, stabilizers, thickeners, and flavoring. Also disclosed herein are methods of making and methods of using the plant-based milk whippable topping emulsions.

Disclosed herein are plant-based whippable topping emulsions. In particular, described herein are plant-based emulsions that do not contain any of the eight major food allergens. In addition to plant-based products, the emulsions may generally contain vegetable oil and one or more other components such as surfactants, sugar, stabilizers, thickeners, and flavoring. Also disclosed herein are methods of making and methods of using the plant-based milk whippable topping emulsions.

An emulsion composition includes dry powder of dicotyledonous plant seeds in a range between 1 mass % or more and 20 mass % or less, the dry powder having an average particle size in a range between 0.2 μm or larger and 150 μm or smaller, water in a range between 20 mass % or more and 69 mass % or less, and fat and oil in a range between 21 mass % or more and 70 mass % or less.

An emulsion composition includes dry powder of dicotyledonous plant seeds in a range between 1 mass % or more and 20 mass % or less, the dry powder having an average particle size in a range between 0.2 μm or larger and 150 μm or smaller, water in a range between 20 mass % or more and 69 mass % or less, and fat and oil in a range between 21 mass % or more and 70 mass % or less.

A method is provided for preserving cooking oil in a food fryer which comprises contacting the oil in situ with at least one oil-permeable cement body which is a stand-alone block and which has been hydraulically hardened from a paste comprising (i) white OPC clinker, (ii) white OPC or (iii) a mixture of white OPC clinker and white OPC, wherein the porosity of the cement body, estimable from the difference between its water-saturated and dry weights, is 30-55%, pores in the body being oil receptive by virtue of low un-bound water content.

A method is provided for preserving cooking oil in a food fryer which comprises contacting the oil in situ with at least one oil-permeable cement body which is a stand-alone block and which has been hydraulically hardened from a paste comprising (i) white OPC clinker, (ii) white OPC or (iii) a mixture of white OPC clinker and white OPC, wherein the porosity of the cement body, estimable from the difference between its water-saturated and dry weights, is 30-55%, pores in the body being oil receptive by virtue of low un-bound water content.

Food and beverage products including natural stabilizers, and particularly to replace EDTA, are provided. In particular, the food products comprise oil-in-water emulsions and the natural stabilizers include high molecular weight polymers which are effective to extend the shelf-life of the products.

Food and beverage products including natural stabilizers, and particularly to replace EDTA, are provided. In particular, the food products comprise oil-in-water emulsions and the natural stabilizers include high molecular weight polymers which are effective to extend the shelf-life of the products.