A system and a method for forming wafer blocks. The wafer blocks include at least three wafer sheets and at least two cream layers of two different creams. The wafer sheets and the cream layers are arranged alternately and lying parallel upon one another.

A system and a method for forming wafer blocks. The wafer blocks include at least three wafer sheets and at least two cream layers of two different creams. The wafer sheets and the cream layers are arranged alternately and lying parallel upon one another.

An enzymatically produced soluble α-glucan fiber composition is provided suitable for use as a digestion resistant fiber in food and feed applications. The soluble α-glucan fiber composition can be blended with one or more additional food ingredients to produce fiber-containing compositions. Methods for the production and use of compositions comprising the soluble α-glucan fiber are also provided.

An enzymatically produced soluble α-glucan fiber composition is provided suitable for use as a digestion resistant fiber in food and feed applications. The soluble α-glucan fiber composition can be blended with one or more additional food ingredients to produce fiber-containing compositions. Methods for the production and use of compositions comprising the soluble α-glucan fiber are also provided.

Disclosed is pearl sugar, having a biggest dimension between 5.6 and 8.0 mm, and a dissolution time at 20° C. lying between 3 minutes and 8 minutes, or a biggest dimension of smaller than 5.6, and a dissolution time at 20° C. lying between 1 minute and 3 minutes and 30 seconds. The invention further relates to a process for the preparation of pearl sugar, using a sugar-containing raw material which is brought to a moisture content lying between 0.5 and 4.0 wt. %, an average size of between 0.40 and 1.20 mm, and whereby at most 2 wt. % of particles have a size of at most 0.20 mm.

The present invention relates to flavour generation. In particular the invention relates to a method for flavour generation in a heat-treated food product using a prolidase enzyme. The invention also relates to a heat-treated food product prepared according to the method of the invention.

The present invention relates to flavour generation. In particular the invention relates to a method for flavour generation in a heat-treated food product using a prolidase enzyme. The invention also relates to a heat-treated food product prepared according to the method of the invention.

An enzymatically produced soluble α-glucan fiber composition is provided suitable for use as a digestion resistant fiber in food and feed applications. The soluble α-glucan fiber composition can be blended with one or more additional food ingredients to produce fiber-containing compositions. Methods for the production and use of compositions comprising the soluble α-glucan fiber are also provided.

An enzymatically produced soluble α-glucan fiber composition is provided suitable for use as a digestion resistant fiber in food and feed applications. The soluble α-glucan fiber composition can be blended with one or more additional food ingredients to produce fiber-containing compositions. Methods for the production and use of compositions comprising the soluble α-glucan fiber are also provided.

The present invention relates to a process for preparing a non-yeast baked product comprising i. preparing a dough comprising adding a composition comprising natamycin having needle shaped crystals to the dough wherein the mean length of the needle shaped crystals is from 0.1 to 20 μm; and ii. baking the dough.