The present disclosure relates to a process for the production of a liquid coffee concentrate that has an improved storage stability at ambient temperature. The process comprises separating coffee extract resulting in a high aromatic coffee extract and a low aromatic coffee extract and subjecting the low aromatic coffee extract to a heat treatment and, optionally, a pH rising step.

Disclosed herein are compositions and methods for modification of a food product such as a foam topping that can be used to modify a beverage or food product. In particular, described herein are methods for modifying a beverage or food product by applying to and draining, dissolving, and/or dispersing a portion of a foam food product in the beverage or food product. In addition, methods for modifying the texture of a foam food product are disclosed herein. Also described are compositions comprising gas mixtures for modifying the texture of a foam food product and a beverage or food product.

Sweetener and flavor compositions with improved taste profiles are disclosed. Also disclosed are methods of making and methods of using such sweetener and flavor compositions.

The invention describes products, uses thereof, compositions thereof, and methods to prepare products formed from Maillard reaction products from a sugar donor and/or sweet tea extracts, stevia extracts, swingle (mogroside) extracts, one or more sweet tea extract components, one or more steviol glycosides, one or more mogrosides, one or more glycosylated sweet tea glycosides, one or more glycosylated steviol glycosides or one or more glycosylated mogrosides and an amine donor/reactant.

A plant based allergen-free coffee creamer or whitener composition is described that includes components such as a) water; b) at least one sugar ingredient; c) at least one vegetal oil; d) acacia gum; e) xanthan gum, Tragacanth or gellan; and f) optionally a flavor modification agent and/or optionally a cereal component, wherein the composition is substantially free of sunflower lecithin and of nut component(s) and the components equal 100% by weight.

Sweetener and flavor compositions with improved taste profiles are disclosed. Also disclosed are methods of making and methods of using such sweetener and flavor compositions.

The present invention is directed to a food product prepared by soaking a predetermined quantity of chia seeds in liquid under a dark environment and under a temperature in a range of 32 degrees Fahrenheit to 40 degrees Fahrenheit for a predetermined period to obtain pearls of chia seeds; and adding the pearls of chia seeds to a food product. The food product is bubble drink without tapioca starch.

The present invention discloses a beverage displaying a printed design image upon a foamed portion of the beverage. The invention further discloses a device and method for same. In the invention, an automated printer is used, comprising a movable printing head, loaded with an edible liquid ink, to print a design of interest upon the beverage foam. In some embodiments, the beverage is coffee and the liquid ink is a second coffee essence. The invention additionally discloses business methods comprising printing an advertisement upon a foamed portion of a beverage, or selling a beverage displaying a printed image upon a foamed portion of the beverage.

The present invention discloses a method for batch production of espresso coffee by preparing ground coffee and water mixture in a pressure chamber, degassing the ground coffee in the pressure chamber, extracting an initial brew from the degassed ground coffee via pressure, and producing a final brew (large batch of espresso coffee) from the initial brew.

The present invention discloses a method for batch production of espresso coffee by preparing ground coffee and water mixture in a pressure chamber, degassing the ground coffee in the pressure chamber, extracting an initial brew from the degassed ground coffee via pressure, and producing a final brew (large batch of espresso coffee) from the initial brew.