JP5658929B2 - Viscosity reducing method and viscosity reducing agent - Google Patents

Description

  The present invention relates to a viscosity reducing method and a viscosity reducing agent that can be adjusted to a viscosity that is easy to handle by reducing the viscosity of a viscous polysaccharide-containing liquid.

Polysaccharides with viscosity (viscous polysaccharides) such as carrageenan and locust bean gum are added to various products such as food, cosmetics, chemicals, inks and paints for the purpose of thickening, gelling and stabilizing. Yes.
The viscous polysaccharide is usually used as a viscous polysaccharide-containing liquid in which a powdery substance is usually dissolved in a liquid. However, since a viscous polysaccharide generates a strong viscosity when dissolved in a liquid, Is difficult to handle.
Therefore, it has been studied to reduce the viscosity to a viscosity that is easy to handle in a dissolved state while maintaining the necessary viscosity.

  As a method for reducing the viscosity of the viscous polysaccharide-containing liquid, as in Patent Document 1, κ-carrageenan can be reduced in molecular weight using κ-carrageenase (carrageenan degrading enzyme) produced by certain bacteria. Known (Patent Document 1).

  However, when an enzyme is used, troublesome work such as temperature control is required, and when a large amount of enzyme is added, the cost becomes high, so that practical application is difficult.

Special Publication 2009-531055

  In view of the above conventional problems, an object of the present invention is to provide a viscosity reducing method and a viscosity reducing agent capable of easily reducing the viscosity of a solution containing a viscous polysaccharide.

  The viscosity reducing method of the present invention is to reduce the viscosity of the viscous polysaccharide-containing liquid by mixing a heated mixture obtained by mixing ammonium sulfate and a monosaccharide with a viscous polysaccharide-containing liquid containing a viscous polysaccharide. It is a feature.

  Another viscosity reduction method of the present invention is characterized in that a mixed liquid obtained by mixing ammonium sulfate, a monosaccharide and a viscous polysaccharide is heated to reduce the viscosity of the mixed liquid.

In addition, the monosaccharide, Ru Oh galactose or glucose.

Furthermore, the viscous polysaccharide is carrageenan or b over locust bean gum.

Viscosity reducing agent according to the present invention contains a heated mixture was heated a mixture containing ammonium sulfate and monosaccharides, the monosaccharide is characterized Oh Rukoto galactose or glucose.

In the viscosity reducing method of the present invention, the viscosity of the viscous polysaccharide-containing liquid can be easily reduced by mixing ammonium sulfate and a monosaccharide and adding the heated heated mixture to the viscous polysaccharide-containing liquid.
In addition, since functions other than the viscosity of the viscous polysaccharide, such as a gelling function, are not impaired, handling can be facilitated without hindering the use of the viscous polysaccharide-containing liquid for the original purpose.

  Alternatively, the viscosity of the viscous polysaccharide-containing liquid is not impaired by mixing ammonium sulfate and sugar with the viscous polysaccharide-containing liquid and heating, without impairing other functions other than the viscosity of the viscous polysaccharide, such as the gelling function. Can be reduced.

FIG. 1 is a graph showing the results of molecular weight distribution measurement.

Hereinafter, embodiments of the present invention will be described.
The viscous polysaccharide used in the present invention refers to a polysaccharide that develops viscosity when dissolved in a solvent. Specifically, it is generally used as a thickening stabilizer such as carrageenan, xanthan gum, locust bean gum, or guar gum. The polysaccharides which can be made are mentioned.
Among these, in particular, non-Newtonian polysaccharides such as carrageenan are often used as viscosity enhancing agents for foods, cosmetics, and pharmaceuticals.

Carrageenan is an anionic polymer compound composed of D-galactose and sulfuric acid. One disaccharide unit contains one sulfate ester group and one kappa (κ) carrageenan contains two. Three iota (ι) carrageenans are classified as lambda (λ) carrageenans.
Of these, κ-carrageenan is particularly widely used as a viscous polysaccharide because of its high gelling properties and high viscosity, and it can be said that handling during use is complicated.

  Further, the above-mentioned viscous polysaccharides used in the present invention may be used alone or in combination of two or more.

In the present invention, the viscous polysaccharide-containing liquid for reducing the viscosity is preferably a solution obtained by dissolving the viscous polysaccharide in, for example, about 1% by mass of a solvent.
As the solvent, a solvent capable of dissolving a viscous polysaccharide such as water is used.

The viscosity before reducing the viscosity of the viscous polysaccharide-containing liquid as described above is usually 200 to 400 cP or more when the viscosity at 30 ° C. is carrageenan, and the time elapsed after dissolution in the solvent elapses. The viscosity increases.
Thus, a viscous polysaccharide in a state dissolved in a solvent has a high viscosity and is difficult to handle during production.

  The viscosity was measured using a digital viscometer (LVDV-I Prime) at 100 rpm in a thermostatic bath at 30 ° C. using a spindle S63 in a 100 ml viscous polysaccharide-containing solution.

  In order to reduce the viscosity of the viscous polysaccharide-containing liquid, in the present invention, a viscosity reducing agent containing ammonium sulfate and a heated mixture heated by adding a monosaccharide is added.

As the monosaccharide, galactose or glucose can be preferably used.
As these saccharides, it is preferable to select an optimum saccharide according to a viscous polysaccharide that lowers the viscosity.
For example, galactose is preferably used when the viscous polysaccharide is carrageenan, and glucose is preferably used when the viscous polysaccharide is locust bean gum.

When the monosaccharide and ammonium sulfate are mixed and heated, a heated mixture having undergone some reaction is generated, and this heated mixture is considered to have an action of lowering the viscosity of the viscous polysaccharide-containing liquid.
A method for producing a viscosity reducing agent containing the heated mixture will be described below.

  First, the monosaccharide is 1.0 to 10.0% by mass, preferably 3.0 to 6.0% by mass, more preferably 5.0% by mass, and ammonium sulfate is 0.01 to 0.1% by mass, preferably A mixed solution is prepared by dissolving in water to a concentration of about 0.01 to 0.05% by mass, more preferably about 0.03% by mass.

The mixture is heated, and the heating temperature is preferably 90 to 130 ° C., preferably 120 to 130 ° C. The heating time is 10 to 30 minutes, preferably 15 to 25 minutes. A brown heated mixture is produced.
As a heating method, it is preferable to perform high-pressure heating using an autoclave or the like.

It is considered that some reaction occurs when the monosaccharide and ammonium sulfate are mixed and heated under the heating conditions, and a heated mixture having an action of reducing the viscosity of the monosaccharide is generated.
This heated mixture may be used as a viscosity reducing agent as it is, or may be appropriately diluted with a solvent such as water to form a viscosity reducing agent.

Next, the viscosity reducing agent is added to the viscous polysaccharide-containing liquid.
The addition amount of the viscosity reducing agent can be appropriately adjusted according to the type of the viscous polysaccharide and the concentration of the viscous polysaccharide-containing liquid.

A pH adjusting agent may be added to the viscous polysaccharide-containing liquid together with the viscosity reducing agent to adjust to a predetermined pH. Although it does not specifically limit as a pH adjuster, According to the intended purpose of using a viscous polysaccharide, it is preferable to select and use suitably what does not impair the target function.
For example, inorganic acid-based pH adjusters such as phosphoric acid, sulfuric acid, and hydrochloric acid, and organic acid-based pH adjusters such as lactic acid and acetic acid.

The preferred predetermined pH is suitably adjusted to a pH in the range of 4.3 to 6.0, more preferably 4.5 to 5.3.
When the pH is higher than the above range, viscosity reduction may not be sufficient. When the pH is lower than the above range, other functions such as gelation may be affected.

  The viscosity of the viscous polysaccharide-containing liquid in which the viscosity reducing agent is mixed is reduced to about 80% to 30% compared to before mixing the viscosity reducing agent.

  In the above embodiment, the viscosity reducing agent is obtained by mixing and heating the monosaccharide and ammonium sulfate, and the viscosity reducing agent is mixed with the viscous polysaccharide-containing liquid. You may reduce the viscosity of the solution containing viscous polysaccharide by mixing sugar and ammonium sulfate and heating.

  In this case, after the monosaccharide and ammonium sulfate are mixed with the viscous polysaccharide dissolved in the solvent, the viscosity of the viscous polysaccharide-containing liquid can be lowered by heating.

  In this case, the concentration of the monosaccharide and ammonium sulfate is 1.0 to 10.0% by mass, preferably 3.0 to 6.0% by mass, and more preferably 5.0% of the saccharide with respect to the viscous polysaccharide-containing liquid. In the viscous polysaccharide-containing liquid, the concentration is about 0.01 to 0.1% by mass, preferably 0.01 to 0.05% by mass, and more preferably about 0.03% by mass. It is preferable to mix.

  The mixed solution is preferably heated at 90 to 130 ° C, preferably 120 to 130 ° C, and the heating time is 10 to 30 minutes, preferably 15 to 25 minutes. As the heating method, heating under high pressure conditions using an autoclave as described above is preferable.

  The viscous polysaccharide-containing liquid whose viscosity has been reduced by the viscosity reducing agent and the viscosity reducing method of the present invention is adjusted to a viscosity that is easy to handle and does not impair other functions such as gelling action. A viscous polysaccharide-containing liquid that can be easily used in the manufacturing process of various products is obtained.

  The mechanism by which the viscosity of the viscous polysaccharide-containing liquid is lowered by the viscosity reducing agent and the viscosity reducing method of the present invention is not clear, but the reaction product produced by heating sugar and ammonium sulfate is not the viscosity in the liquid. It is thought that it has the effect | action which accelerates | stimulates low molecular weight of a polysaccharide.

Hereinafter, the viscosity reducing agent and the viscosity adjusting method according to the present invention will be specifically described.
The present invention is not construed as being limited to the following test examples.

(Measurement of viscosity and pH)
Example 1
200 ml of a mixed solution in which galactose as a monosaccharide was dissolved in potassium phosphate buffer (pH 5.0) so as to be 5.0% by mass of galactose and 0.03% by mass of ammonium sulfate was prepared.
This mixture was treated with an autoclave (121 ° C., 20 minutes), concentrated 10 times with an evaporator, κ-carrageenan (product name: Wako Pure Chemical Industries, Ltd.) was added to potassium phosphate buffer (pH 5. 0) All were added to the liquid mixture added to 190 ml so that it might become 1.0 mass%.
After the addition, the product treated with shaking at 30 ° C. and 120 rpm for 4 days was set as Example 1, and the viscosity and pH were measured.
The viscosity was measured by putting 100 ml of the solution in a beaker and using a digital viscometer (LVDV-I Prime) at 100 rpm in a thermostat at 30 ° C. using a spindle S63.

Example 2
Dissolved in potassium phosphate buffer (pH 5.0) so that galactose as a monosaccharide was 5.0% by mass, ammonium sulfate was 0.03% by mass, and κ-carrageenan was 1.0% by mass as a viscous polysaccharide. 200 ml of the mixed solution was prepared.
This mixed solution was heat-treated in an autoclave (121 ° C., 20 minutes).
Thereafter, the mixture was shaken at 30 ° C. and 120 rpm for 4 days as Example 2, and the viscosity and pH were measured in the same manner as in Example 1.

Example 3
Dissolve in potassium phosphate buffer (pH 5.0) so that glucose as a monosaccharide is 5.0% by mass, ammonium sulfate is 0.03% by mass, and κ-carrageenan as a viscous polysaccharide is 1.0% by mass. 200 ml of the mixed solution was prepared.
This mixed solution was treated in an autoclave (121 ° C., 20 minutes).
Thereafter, the product treated with shaking at 30 ° C. and 120 rpm for 4 days was defined as Example 3, and the viscosity and pH were measured in the same manner as in Example 1.

Example 4
A mixed solution in which ultrapure water was dissolved so that glucose as a monosaccharide was 5.0% by mass, ammonium sulfate was 0.03% by mass, and locust bean gum was 1.0% by mass as a viscous polysaccharide Similarly, the heat treatment was carried out in an autoclave, and the mixture was allowed to stand at 4 ° C. for 3 days to be Example 4, and the viscosity and pH were measured in the same manner as in Example 1.

Example 5
EXAMPLE 2 A mixed solution in which galactose as a monosaccharide was dissolved in ultrapure water so that 5.0 mass%, ammonium sulfate was 0.03% by mass, and locust bean gum as a viscous polysaccharide was 1.0 mass% In the same manner as in Example 1, the mixture was heat-treated in an autoclave and allowed to stand at 4 ° C. for 3 days to be Example 5. The viscosity and pH were measured in the same manner as in Example 1.

Comparative Example 1
200 ml of a mixed solution prepared by dissolving 0.03% by mass of ammonium sulfate and 1.0% by mass of κ-carrageenan as a viscous polysaccharide in potassium phosphate buffer (pH 5.0) was prepared. The same treatment was performed, and the viscosity and pH were measured in the same manner as in Example 1.

Comparative Example 2
200 ml of a mixed solution prepared by dissolving 0.03% by mass of ammonium sulfate and 1.0% by mass of locust bean gum as a viscous polysaccharide in ultrapure water was treated and treated in the same manner as in Example 2. As in Example 1, the viscosity and pH were measured.

In addition, the viscosity reduction rate with respect to the viscosity of the comparative example 1 of the viscosity of the said Examples 1 to 3 and the viscosity reduction rate with respect to the viscosity of the comparative example 2 of Examples 4 and 5 were each calculated as%.
The results are shown in Table 1.

  As shown in Table 1, it is apparent that the viscosity in each example is lower than that of each corresponding comparative example.

(Measurement of molecular weight reduction)
Included in the viscous polysaccharide of Example 1, the molecular weight distribution of κ-carrageenan in the viscous polysaccharide of Comparative Example 1, the viscous polysaccharides of Examples 1 and 2, and the viscous polysaccharide of Comparative Example 1 The average particle size of the particles to be measured was measured.
The measuring method is as follows.

{Measurement of molecular weight distribution}
500 ml each of the sample obtained by passing the viscous polysaccharide of Example 1 and the viscous polysaccharide of Comparative Example 1 through a 0.2 μm filter was used, and HLC-8320 GPC (gel filtration chromatography column: manufactured by Tosoh Corporation, TSK). _gel GMPW _XL , eluent: 0.1 M NaNO ₃ ), and measurement was performed at a flow rate of 1.0 ml / min.
The results are shown in the graph of FIG.

The two peaks shown in the graph of FIG. 1 indicate a peak with an average molecular weight of about 1 million and a peak of about 160,000, respectively, indicating the molecular weights of κ-carrageenan and reduced κ-carrageenan.
In Example 1, as shown in Table 2, the proportion of the low molecular weight κ-carrageenan is higher than that in Comparative Example 1.

{Measurement of average particle size}
The particle size distribution of the particles contained in Example 1, Example 2 and Comparative Example 1 was measured using a dynamic light scattering distribution measuring device (trade name: dynamic light scattering type particle size distribution measuring device, manufactured by Horiba, Ltd.). The results of measurement using LB-550) are shown in Table 3.

As shown in Table 3, it can be seen that the average particle size of the dispersed fine particles contained in the liquid is smaller in each example than in Comparative Example 1.
Although the dispersed fine particles contained in Example 1 and Example 2 are considered to be mainly κ-carrageenan particles, the particle size is smaller in each example than in the comparative example. It can be inferred that the diameter has been reduced by polymerization.

Claims (3)

A viscosity reducing method for reducing the viscosity of the viscous polysaccharide-containing liquid by mixing a heated mixture obtained by mixing ammonium sulfate and a monosaccharide with a viscous polysaccharide-containing liquid containing a viscous polysaccharide .
The monosaccharide is galactose or glucose,
The viscosity reducing method, wherein the viscous polysaccharide is carrageenan or locust bean gum . Heating the liquid mixture of ammonium sulfate and monosaccharides and viscosity polysaccharide, a viscosity reducing method Ru reduce the viscosity of the liquid mixture,
The monosaccharide is galactose or glucose,
The viscosity reducing method, wherein the viscous polysaccharide is carrageenan or locust bean gum . Containing a heated mixture of a heated mixture comprising ammonium sulfate and monosaccharides ;
Viscosity reducing agent carrageenan or locust bean gum, wherein the monosaccharide is characterized Oh Rukoto galactose or glucose.

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