This application claims the benefit of PCT/EP2007/007627 filed Aug. 31, 2007, which is hereby incorporated by reference in its entirety as if fully set forth herein.
The invention relates to a continuous process for preparing cold water swelling phosphate-cross-linked (pre-)gelatinised starch derivatives. The invention relates furthermore to an extruder screw configuration provided to perform a continuous process for preparing cold water swelling phosphate-cross-linked starch derivatives.
Currently, phosphate-cross-linked starches have been prepared by reacting starch with a polyphosphate or a phosphorus oxychloride reagent, for instance POCl3.
In U.S. Pat. No. 2,852,393 and U.S. Pat. No. 2,801,242, procedures are disclosed using sodium trimetaphosphate (STMP) as the cross-linking agent. Thereby, granular cross-linked starches are disclosed which may swell but which do not disintegrate.
In U.S. Pat. No. 2,328,537 and U.S. Pat. No. 2,754,232, the use of POCl3 as cross-linking agent is disclosed as an alternative to STMP. The purpose of this cross-linking process is to provide a starch derivative which is more resistant to gelatinisation while pastes thereof have increased stability with regard to breakdown by heating, compared to untreated starches.
In a later stage, such phosphate-cross-linked starches have been further processed in order to obtain pre-gelatinised cold water swelling derivatives. Such instant derivatives are described in U.S. Pat. No. 5,187,272 and U.S. Pat. No. 4,219,646. These starches are used in convenience food applications such as sauces or microwaveable products or as thickeners for instant pudding formulations. These pre-gelatinised cross-linked starches are obtained by spray cooking or drum drying, but also extrusion processes have been used such as disclosed in WO 97/00620 or EP 0 358 444. In these patent documents, the role of the extrusion process is to gelatinise the starch and at the same time to cause some variable molecular degradation.
Thus, the prior art industrial processes as described above have a number of drawbacks:
Reactive extrusion (wherein the reaction is performed in the extruder) using phosphate-containing reagent has been disclosed in EP 0 396 226 and WO 2004/108813. In EP 0 396 226, a glass-like cross-linked starch is prepared to be used as a paint stripping agent. This modified starche therein do not have cold swelling properties. In WO 2004/108813, rye flour is modified with SMTP, thereby providing a modified flour showing improved suspension properties. This modified flour is used in paper sizing applications.
Reactive extrusion has also been described in the scientific and technical literature. In the “Journal of Food Process Engineering (2003)” and in “Carbohydrate Polymers (2005, M. Seker and M. A. Hanna) discuss the cross-linking reaction of starch in a single screw extruder. In both cases, cross-linking is performed using STMP as the reagent. Quite high concentrations of STMP are needed to provide products showing instant thickening properties. When food applications are considered, excess phosphate salts need to be removed, thereby requiring an additional purification step.
A purpose of this invention is therefore to provide an improved and simpler continuous process for preparing cold water swelling phosphate-cross-linked gelatinised starch derivatives which can be used as thickeners in food or non-food applications or as adhesives thereby overcoming the abovementioned shortcomings, including a limited number of steps, a lower consumption of energy, a reduced quantity of waste water production and a reduced chemical consumption.
The purpose of the invention is solved by providing a continuous extrusion process for preparing cold water swelling phosphate-cross-linked gelatinised starch derivatives, wherein the process consists of the subsequent steps of
With this process, first of all the number of steps is reduced to one step, and a lower consumption of energy, a reduced quantity of waste water production and a reduced chemical consumption is obtained.
Further advantages of this process is that cross-linked starches are obtained which
In a preferred continuous extrusion process according to the invention, the process consists of the subsequent steps of
In a favourable continuous extrusion process according the invention, after the recovered cross-linked, gelatinised starch is cooled to substantially room temperature, it is further reduced in size.
The needed specific mechanical input of the continuous extrusion process is situated between 350 and 1000 kJ/kg.
More preferably, the needed specific mechanical input of the continuous extrusion process is situated between 450 and 750 kJ/kg.
In a preferred embodiment of a continuous extrusion process according the invention, the ratio of dry weight starch versus water in the second partial zone of the first zone in the extruder is between 70:30 and 50:50.
With the expression “dry weight starch” is meant 100% dry starch.
The cross-linking of the obtained gelatinised starch by means of POCl3 in the second and third zone in the extruder is preferably performed at temperatures measured and monitored between 70° C. and 90° C.
In an advantageous continuous extrusion process according to the invention, the cross-linking of the obtained gelatinised starch by means of POCl3 in the second and third zone in the extruder is performed at temperatures measured and monitored between 75° C. and 85° C.
In a preferred embodiment of a continuous extrusion process according to the invention, the further reduction of the recovered and cooled cross-linked gelatinised starch is done by milling.
Preferably, the continuous feeding of an alkaline starch is performed by means of a dosing system.
In a favourable continuous extrusion process according to the invention, the extrusion process is performed using a single screw, a twin screw co-rotating or a twin screw counter-rotating configuration in the extruder.
In a preferred embodiment of the invention an extruder screw configuration is provided allowing the performing of the continuous process for preparing cold water swelling phosphate-cross-linked gelatinised starch derivatives according to the invention, wherein
The extruder screw configuration according to the invention is preferably provided for performing a continuous extrusion process according to the invention as described above.
This invention will now be illustrated by the following graphs and examples which should be considered as being not limiting to the scope of the invention as such and as expressed in the following claims, wherein reference numerals are used to refer to the attached drawings, wherein
Rheological properties of the phosphate cross-linked, gelatinised starches of the invention are illustrated in
In
In
In
Furthermore, it should be emphasized that, compared to prior art methods using STMP in reactive extrusion processes, the process of the invention uses up to 10 times less reagent in order to obtain the same cross-linking degree. As a result thereof, residual phosphate is almost non-existing thereby allowing the use of the starches of the invention in food application, this without additional and costly purification steps.
The reaction is performed using the following extruder set-up:
Alkaline waxy corn starch is prepared by spraying a 25 w/w % NaOH solution onto commercial waxy corn starch (11-13% moisture) in a Lödige continuous mixer (CP20 PI). The amount of NaOH sprayed onto the starch is between 0.2-2.2% on dry starch. The alkaline starch is used as is.
Extrusion
Reaction is performed according to the procedures disclosed above using a screw configuration as shown in
As the substrate waxy maize starch is used and the alkali concentration selected is 1.2% NaOH on dry starch.
The effect of the cross-linking agent on the gelatinised starch was determined by measuring the viscosity of a 6.3% w/w starch dispersion using a Brabender viscograph. All samples were neutralised providing dispersions having a pH of about 5.5.
Viscosity data are provided in table 2.
This table illustrates the effect of the quantity of POCl3 used, at the same alkali concentration, on the viscosity.
Reaction is performed according to the procedures disclosed above using a screw configuration as shown in
As the substrate waxy maize starch is used and the alkali concentration selected is 0.6% NaOH on dry starch.
The effect of the cross-linking agent on the gelatinised starch was determined by measuring the viscosity of a 6.3% w/w starch dispersion using a Brabender viscograph. All samples were neutralised providing dispersions having a pH of about 5.5.
Viscosity data are provided in table 4.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2007/007627 | 8/31/2007 | WO | 00 | 3/29/2010 |
Publishing Document | Publishing Date | Country | Kind |
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WO2009/026948 | 3/5/2009 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2328537 | Fulton et al. | Sep 1943 | A |
2754232 | Wetzstein et al. | Jul 1956 | A |
2801242 | Kerr et al. | Jul 1957 | A |
2852393 | Kerr et al. | Sep 1958 | A |
4219646 | Rubens | Aug 1980 | A |
5187272 | Katcher et al. | Feb 1993 | A |
Number | Date | Country |
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0358444 | Mar 1990 | EP |
0396226 | Nov 1990 | EP |
WO 9700620 | Jan 1997 | WO |
WO 2004085481 | Oct 2004 | WO |
WO2004108813 | Dec 2004 | WO |
Entry |
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Seker et al.; Properties of cross-linked starch produced in a single screw extruder with and without a mixing element; Jour. of Food Process Eng.; 27(2004) pp. 47-63. |
Seker & Hanna; Cross-linking starch at various moisture contents by phosphate substitution in an extruder; Carbohydrate Polymers; 59 (2005); pp. 541-544. |
Number | Date | Country | |
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20100210834 A1 | Aug 2010 | US |