Abstract: A process for preparing a water-in-oil emulsion which emulsion comprises oil and a hardstock fraction next to an aqueous phase. The process involves blending the melted hardstock fraction with a water-continuous dispersion comprising part or all of the oil and part or all of the aqueous phase and with a fat-continuous dispersion comprising the remainder of the oil and the remainder of the aqueous phase. The combined stream is mixed by a high shear mixer with short residence time.

Abstract: Process for the preparation of an edible fat-continuous spread comprising at most 45 wt. % of fat using liquid oil, a fat powder comprising structuring fat and a water-phase, comprising the steps of: a. providing a mixture comprising the water-phase and the fat powder; b. subjecting said mixture to at least a partial vacuum; c. mixing the mixture prepared at step ‘b’ to provide a fat-continuous spread, wherein the liquid oil may be added to the mixture at any of steps ‘a’, ‘b’, or ‘c’ or when added in parts in any combination at steps ‘a’, ‘b’ and ‘c’.

Abstract: The invention relates to an edible water-in-oil emulsion comprising a fat-phase comprising a first hardstock and a second hardstock, wherein said fat-phase has a total amount of hardstock of from 2 to 60 wt.

Abstract: A process for preparing a low fat water-in-oil emulsion which emulsion comprises water, oil and a hardstock fat. The process involves combining an aqueous phase and a fat phase, wherein the fat phase comprises the hardstock fat and which fat phase is at a temperature such that the fat phase is liquid, followed by subjecting the obtained mixture to high shear mixing effected a high shear mixing device, and wherein the product exiting the high shear mixing process the product is packed without having been subject to any further mixing or working process.

Abstract: A process for preparing a water-in-oil emulsion which emulsion comprises protein, oil and a hardstock fat. The process involves blending the melted hardstock fat with a water-continuous dispersion comprising protein and oil, wherein the temperature of the aqueous dispersion being mixed with the melted hardstock fat is below 15° C., and said mixing is carried out by a high shear mixing device followed by a pin-stirrer.

Abstract: The invention relates to a compacted microporous fat powder that can suitably be used as an oil structuring agent. The compacted microporous fat powder has a freely settled density in the range of 90-600 g/l; a particle size distribution with at least 90 vol. % of the particles having a diameter in the range of 20 to 600 ?m; a maximum G?i/G?d ratio of more than 2.0, wherein G? represents the elastic modulus at 10° C. of a dispersion of 2 wt. % of the compacted fat powder in glycerol, and wherein the maximum ratio is determined by recording G?i whilst increasing the frequency from 0.1 to 15 s?1, by subsequently recording G?d whilst decreasing said frequency from 15 to 0.1 s?1 and by calculating the ratio G?i/G?d at the frequency at which said ratio is highest.

Abstract: The present invention relates to a process of compacting a microporous fat powder, notably a microporous fat powder that can suitably be used as an oil structuring agent. One aspect of the invention relates to a process for compacting a microporous fat powder, said process comprising: feeding the fat powder into the feed zone of an extruder having a forwarding screw and a barrel within which said screw is centrally positioned; rotating said forwarding screw to advance said fat powder feed through a compacting zone of the extruder where the barrel comprises a plurality of venting openings having a shorter dimension that exceeds the volume weighted average diameter of the fat powder feed and that is less than 10 mm; and expelling the compacted fat powder from the extruder; wherein the temperature of the fat powder during passage through the extruder is maintained below 40° C. and wherein the compaction factor achieved exceeds 1.

Abstract: The invention relates to a process for the manufacture of an edible water-in-oil emulsion comprising 10 to 85 wt. % of liquid oil, 0.5 to 50 wt. % of hardstock fat, 10 to 85 wt. % of a dispersed water-phase; comprising the steps of: a) providing a first water-in-oil emulsion; b) providing a second water-in-oil emulsion; and c) mixing said first and second emulsion to provide a finished edible water-in-oil emulsion. The invention further relates to water-in-oil emulsions having a distinct water-phase release profile.

Abstract: The present invention relates to a process of compacting a microporous fat powder, notably a microporous fat powder that can suitably be used as an oil structuring agent. One aspect of the invention relates to a process for compacting a microporous fat powder, said process comprising: feeding the fat powder into the feed zone of an extruder having a forwarding screw and a barrel within which said screw is centrally positioned; rotating said forwarding screw to advance said fat powder feed through a compacting zone of the extruder where the barrel comprises a plurality of venting openings having a shorter dimension that exceeds the volume weighted average diameter of the fat powder feed and that is less than 10 mm; and expelling the compacted fat powder from the extruder; wherein the temperature of the fat powder during passage through the extruder is maintained below 40° C. and wherein the compaction factor achieved exceeds 1.

Abstract: The present invention relates to a process of compacting a microporous fat powder, notably a microporous fat powder that can suitably be used as an oil structuring agent. One aspect of the invention relates to a process for compacting a microporous fat powder, said process comprising: feeding the fat powder into the feed zone of an extruder having a forwarding screw and a barrel within which said screw is centrally positioned; rotating said forwarding screw to advance said fat powder feed through a compacting zone of the extruder where the barrel comprises a plurality of venting openings having a shorter dimension that exceeds the volume weighted average diameter of the fat powder feed and that is less than 10 mm; and expelling the compacted fat powder from the extruder; wherein the temperature of the fat powder during passage through the extruder is maintained below 40° C. and wherein the compaction factor achieved exceeds 1.

Abstract: The invention relates to a process of compacting a microporous fat powder, notably a microporous fat powder that can suitably be used as an oil structuring agent. The process comprises feeding said fat powder into the feed zone of an extruder having a forwarding screw and a barrel within which the forwarding screw is centrally positioned; rotating the forwarding screw to advance the fat powder feed through a compacting zone of the extruder, where the barrel comprises a plurality of venting openings having a shorter dimension that exceeds the volume weighted average diameter of the fat powder feed and that is less than 10 mm; and expelling the compacted fat powder from the extruder; wherein the temperature of the fat powder during passage through the extruder is maintained below 40° C. and wherein the compaction factor achieved exceeds 1.5.

Abstract: A process for preparing a water-in-oil emulsion which emulsion comprises both oil, a midstock fraction and a hardstock fraction. The process involves blending the melted hardstock fraction with a water-continuous dispersion comprising part or all of the oil and part or all of the midstock fraction, at least part of said midstock fraction being crystallized, wherein the temperature of the aqueous dispersion is below 15° C.

Abstract: A process for preparing a water-in-oil emulsion which emulsion comprises oil and a hardstock fraction next to an aqueous phase. The process involves blending the melted hardstock fraction with a water-continuous dispersion comprising part or all of the oil and part or all of the aqueous phase and with a fat-continuous dispersion comprising the remainder of the oil and the remainder of the aqueous phase. The combined stream is mixed by a high shear mixer with short residence time.

Abstract: A process for preparing a low fat water-in-oil emulsion which emulsion comprises water, oil and a hardstock fat. The process involves combining an aqueous phase and a fat phase, wherein the fat phase comprises the hardstock fat and which fat phase is at a temperature such that the fat phase is liquid, followed by subjecting the obtained mixture to high shear mixing effected a high shear mixing device, and wherein the product exiting the high shear mixing process the product is packed without having been subject to any further mixing or working process.

Abstract: A process for preparing a water-in-oil emulsion which emulsion comprises protein, oil and a hardstock fat. The process involves blending the melted hardstock fat with a water-continuous dispersion comprising protein and oil, wherein the temperature of the aqueous dispersion being mixed with the melted hardstock fat is below 15° C., and said mixing is carried out by a high shear mixing device followed by a pin-stirrer.

Abstract: The invention relates to an edible fat powder comprising at least two natural fats wherein the natural fat has a N10 of at least 10% and wherein the fat powder is a co-crystallized fat powder. The invention further relates to the use of said fat powder to prepare a fat containing emulsion. The invention also relates to a process for the preparation of said edible fat powder wherein the edible fat powder is prepared from a molten mixture comprising at least two natural fats.

Abstract: Process for the manufacture of a non-pourable edible water-in-oil emulsion comprising at least 50 wt. % of total fat, comprising the following steps: a. providing 5 to 90 wt. % of hardstock fat, based on the weight of total fat, in liquid form; b. providing a liquid mixture of water and oil, wherein the mixture has a temperature below the melting point of the hardstock fat; c. mixing the hardstock fat in liquid form with the liquid mixture of water and oil; wherein the temperature of the mixture provided at step ‘c’ is below the melting point of the hardstock fat, and wherein the amount of trans unsaturated fatty acid is less than 5 wt. %, based on the weight of total fat.

Abstract: A process for manufacturing an edible water-in-oil spread, which process has the advantages of the cool blending process for manufacturing spreads, with improved rework capabilities. This is achieved by combining a stirred tank with recirculation means.

Abstract: The present invention relates to a process of compacting a microporous fat powder, notably a microporous fat powder that can suitably be used as an oil structuring agent. One aspect of the invention relates to a process for compacting a microporous fat powder, said process comprising: feeding the fat powder into the feed zone of an extruder having a forwarding screw and a barrel within which said screw is centrally positioned; rotating said forwarding screw to advance said fat powder feed through a compacting zone of the extruder where the barrel comprises a plurality of venting openings having a shorter dimension that exceeds the volume weighted average diameter of the fat powder feed and that is less than 10 mm; and expelling the compacted fat powder from the extruder; wherein the temperature of the fat powder during passage through the extruder is maintained below 40° C. and wherein the compaction factor achieved exceeds 1.

Abstract: The invention relates to a process for the manufacture of an edible water-in-oil emulsion comprising 10 to 85 wt. % of liquid oil, 0.5 to 50 wt. % of hardstock fat, 10 to 85 wt. % of a dispersed water-phase; comprising the steps of: a) providing a first water-in-oil emulsion; b) providing a second water-in-oil emulsion; and c) mixing said first and second emulsion to provide a finished edible water-in-oil emulsion. The invention further relates to water-in-oil emulsions having a distinct water-phase release profile.