JP2010047861A5 - - Google Patents

Description

Waste paper treatment method for sanitary thin paper

  The present invention relates to a technique for processing a waste paper generated when manufacturing sanitary thin paper, particularly sanitary thin paper containing glycerin, to obtain a papermaking raw material.

  Hygienic thin paper, also called moisturizing tissue or lotion tissue, in which a water-soluble moisturizing component typified by glycerin is applied to the thin paper is well known. This main sanitary thin paper is a dry type, but is superior in softness and smoothness compared to general tissue that does not contain moisture, especially those who frequently blow their nose due to hay fever. Used to be preferred. In recent years, due to reasons such as an increase in the population of hay fever and changes in lifestyle, the demand for such moisturizing tissue is increasing, and the production volume is increasing.

On the other hand, when sanitary thin paper is produced, it is unavoidable to generate waste paper. Therefore, the waste paper is dissolved again to make a papermaking raw material.
However, in the case of moisturizing tissue, because the waste paper dissolved contains glycerin, microorganisms that use glycerin as a nutrient are propagated and mold, slime, etc. are formed on the inner wall of the raw material / water pipe in the papermaking process. Generated and difficult to regenerate.

  In the normal waste paper recycling process, a slime control agent is used to prevent the generation of mold, slime, etc., but the waste paper lysate containing glycerin has a very fast growth rate of microorganisms. It cannot be controlled with a slime control agent.

In addition, since it is conceivable to sterilize and wash the papermaking system in order to suppress the growth of microorganisms, when the inventors tried it, only a few days after sterilization and washing, defects that may be caused by mold, slime, etc. However, this method was also not effective.
The waste paper containing glycerin is often discarded due to the above-mentioned difficulty of recycling. However, disposal of waste paper is not preferable from the viewpoint of effective use of resources.
JP 2004-124329 A JP2007-262585 etc.

  Then, the main subject of this invention is providing the effective processing method which makes the waste paper of the sanitary thin paper containing moisture retention components, such as glycerin, usable as a papermaking raw material.

The present invention that has solved the above-described problems and the effects thereof are as follows.
<Invention of Claim 1>
A method of treating sanitary thin paper waste paper containing water-soluble moisturizing ingredients,
The waste paper and water are mixed and stirred until the concentration of the moisturizing system component in the solid component is 7% by weight or less, and the moisturizing component derived from the waste paper is eluted in water, and then dehydrated to yield the fiber derived from the waste paper. A sanitary thin paper waste paper treatment method comprising: recovering a solid component containing selenium and returning the recovered solid component to a papermaking system continuously or stepwise.

(Function and effect)
In the present invention, the waste paper and water are mixed and stirred to elute the moisture retaining component derived from the waste paper into water. By stirring, the waste paper is loosened and finely dispersed, and elution is effectively promoted.
In the present invention, the moisturizing component is eluted and then dehydrated. Therefore, the obtained solid component is sufficiently reduced in the moisturizing component serving as a nutrient source for microorganisms.
In particular, by stirring until the concentration (adhesion amount) of the moisturizing component of the solid component is 7% by weight or less, generation of mold, slime and the like in the subsequent papermaking system can be reliably suppressed.
Therefore, after that, for example, by mixing with a papermaking raw material mainly composed of virgin pulp, it can be returned to a normal papermaking system for papermaking.

In the present invention, the solid component is characteristically returned online to the papermaking system. This online return makes it possible to reuse waste paper very effectively.
That is, in the present invention, the moisture retention component is eluted and dehydrated to greatly reduce the risk of contamination of the papermaking system, such as mold and slime generation, and by directly returning it to the papermaking system online, This has the effect of significantly reducing the processing cost.
In particular, since the papermaking system where the wastepaper is generated and the wastepaper processing system that obtains the solid component are arranged in series, the facility installation area and the wastepaper transport cost are extremely reduced.
Although the return position of the solid component is arbitrary, it is returned intermittently or continuously, for example, in the middle of the path from the storage tank to the paper machine, or the storage tank for the papermaking raw material.

Further, the papermaking system in the present invention, continuous hygiene consisting of a series of manufacturing equipment for manufacturing the sanitary thin paper by virgin pulp, old pulp and paper pulp or paper machine by adjusting the slurry of the paper material from a mixture of these pulps It means the production system of thin paper.

<Invention of Claim 2>
2. The sacrificial thin paper waste paper treatment method according to claim 1, wherein, when mixing the waste paper and water, the concentration of the solid component derived from the waste paper is adjusted to 1.5 to 4% by weight.

(Function and effect)
When the concentration is adjusted to the above-mentioned concentration, the waste paper is easily dewatered by the stirring operation and is easily subdivided into a size suitable for a papermaking raw material.

<Invention of Claim 3 >
3. The sacrificial thin paper waste paper treatment method according to claim 1, wherein stirring is performed until no fiber lump derived from the waste paper is confirmed.

(Function and effect)
It becomes easy to use as it is as a papermaking raw material.

<Invention of Claim 4 >
The sanitary thin paper waste paper treatment method according to any one of claims 1 to 3 , wherein the moisturizing component contains glycerin.

(Function and effect)
Glycerin is widely used as a moisturizing component, is excellent in hygroscopicity, and is very easily dissolved in water, so that the effects of the present invention can be obtained sufficiently and reliably.

  According to the above-mentioned present invention, the sanitary thin paper waste paper containing a moisturizing component can be used as a papermaking raw material.

Hereinafter, embodiments of the present invention will be described in detail.
The present invention is a method of treating sanitary thin paper waste paper containing a water-soluble moisturizing component.
Scrap paper is paper that cannot be produced as a defective product that occurs in the manufacturing process of a paper product, a product that occurs when the production line starts or stops, or when a trouble occurs in the production line.
The object of the present invention is damaged paper generated after the step of incorporating at least the moisturizing component into the thin paper in the manufacturing process of the sanitary thin paper containing the moisturizing component.

  In addition, for the manufacturing method of sanitary thin paper containing a moisturizing component, according to a conventionally known manufacturing method, for example, a papermaking raw material mainly composed of pulp, a wire part, a press part, a dryer part, a size press, a calendar part, etc. After the paper is made into a thin paper by passing through, etc., it can be produced according to a known method to make a hygienic thin paper containing the moisturizing component by spray coating, coater coating, printing application, etc. on the thin paper.

The basis weight of the sanitary thin paper is not particularly limited, but is preferably 10 to 20 g / m ² . In addition, when sanitary thin paper has ply structures, such as 2 plies, the basis weight per ply is meant.

  Further, the content of the moisturizing component in the sanitary thin paper containing the moisturizing component in the present invention is 5 to 50% by weight, and the sanitary thin paper containing the moisturizing component in this range is subject to the treatment method of the present invention. It becomes.

[Mixing and stirring process]
In the present invention, first, the waste paper generated when producing sanitary thin paper containing a moisturizing component is collected, mixed with water, and stirred.
Specifically, the recovered waste paper is supplied to a pulper (hereinafter referred to as a broke pulper) installed in the papermaking facility, and water is mixed and stirred to elute the moisturizing component in the wastepaper into water.

  As for the mixing and stirring device, for example, a known stirring device other than the broke pulper can be used.

  Regarding the mixing ratio of water and waste paper, water is added so that the concentration of the solid component derived from the waste paper is 1.5 to 4.0% by weight. The temperature of the added water is not particularly limited. For example, the practical range is 60 ° C. or lower, preferably 50 ° C. or lower. However, for the generation of mold, slime, etc., the temperature of the water to be added is preferably low, and the temperature of the added water is 40 ° C. or less, particularly in terms of suppressing the generation of mold, slime, etc. in the waste paper treatment system. Is preferably 25 ° C. or lower.

  The stirring is preferably performed until the waste paper is finely divided into a slurry. It is desirable to carry out at least until there is no fiber lump having a diameter of 1.0 mm or more. The stirring time varies depending on the basis weight of the waste paper and the like, but is approximately 15 to 40 minutes.

Also, preferably, moisturizing component concentration in the solid component, 7 wt% or less, preferably 6.0 wt% or less, especially 2 wt% or less, and until it is desirable to stir mixing.
If it exceeds 7% by weight, the possibility of generating mold, slime, etc. when returned to the treatment system becomes extremely high.

The concentration of the moisturizing component in the solid component here is a mixture of acetone and ethanol (volume ratio 1: 1), and is refluxed for 4 hours using a Soxhlet extractor. The calculated value.
(Formula 1) ... Amount of deposition (wt%) = [(mass of extract) / {(mass of sample) − (mass of extract)}] × 100

[Dehydration process]
After the stirring and mixing, the solution in which the moisturizing component is eluted and in which the solid content derived from the waste paper is dispersed is preferably continuously or intermittently sent to the dehydration step.
In the dehydration step, the solution and the fiber component are separated by a solid-liquid separator. As this solid-liquid separator, a valveless filter is suitable. The valveless filter is a known one and is used for recovering the fiber raw material from the waste paper or waste paper of the coated paper, and can be used without any problem in the present invention. As the dehydrator, a known dehydrator that performs solid-liquid separation other than the valveless filter can be used.

[Return processing]
After the dehydration step, the obtained solid component is returned to the papermaking system and used as a papermaking raw material. At this time, in the present invention, the solid component is returned online.
Here, online means returning via a supply path such as a dredge or a pipeline.
Specifically, the return destination is desirably a storage tank for storing a papermaking material generally installed in a thin paper manufacturing facility or in the middle of a path from the storage tank to the papermaking machine. The return may be performed continuously or intermittently.

  In addition, the solid component is returned intermittently or continuously, for example, in the middle of the path from the storage tank to the paper machine, for example, the storage tank of the papermaking raw material.

  The papermaking system in the present invention refers to a continuous sanitary thin paper consisting of a series of production facilities for preparing a slurry papermaking raw material from virgin pulp, waste paper pulp or a mixed pulp thereof, and producing sanitary thin paper by a paper machine. Means manufacturing system.

[Wastewater treatment]
On the other hand, the waste water from which the moisturizing component generated by dehydration is eluted is preferably treated in a waste water treatment facility, adjusted to pH 7.5 or lower, and discharged outside the system.

[Moisturizing ingredients]
The water-soluble moisturizing component in the present invention is soluble in hot water or cold water, for example, polyhydric alcohols such as glycerin, diglycerin, propylene glycol, 1,3-butylene glycol, sorbitol, glucose, xylitol, Sugars such as maltose, maltitol, mannitol, trehalose, natural polymers such as animal, plant, microbial, and polysaccharides, glycol drugs and their derivatives, higher alcohols such as cetanol, stearyl alcohol, oleyl alcohol, collagen Hydrolyzed collagen, hydrolyzed keratin, hydrolyzed silk, ceramide and the like. The most typical ones are glycerin and sorbitol.

In the sanitary thin paper of the present invention, it is not necessarily denied that a chemical solution other than the water-soluble moisturizing component is contained. What does not originate in microbe generation | occurrence | production may be contained.
However, at least the sanitary thin paper containing the chemical solution exemplified above is a sanitary thin paper containing the moisturizing component in the present invention.

Next, since the test was conducted on the elution property of the moisturizing component in the stirring and mixing step of the waste paper of the present invention, it will be described together with the results.
The test method is to stir and mix the waste paper by the following three methods (Test Examples 1 to 3), measure the moisturizing component amount in the obtained solid component and the BOD amount in the solution, and confirm the effect of each method. did.
Test Example 1: The waste paper was put in a bucket, mixed with stirring with a hand, and then squeezed by hand to dehydrate.
Test Example 2: Waste paper and water were stirred and mixed using a household washing machine, and then dehydrated with a washing machine.
Test Example 3: Waste paper and water were stirred and mixed using a broke pulper, then supplied to a valveless filter and dehydrated.

The results in each test example are shown in Table 1. The moisturizing component in the spoiled paper used in each test example was glycerin, and its content was 28% by weight.
Each example was tested three times. The numbers in the table are the average.

Regarding the content of the moisturizing component in the broken paper and the solid component, the moisturizing component in the broken paper or in the solid component using a soxhlet extractor using a mixed solvent of acetone: ethanol (volume ratio 1: 1) Was extracted by refluxing for 4 hours and calculated by the following formula.
Adhering amount (wt%) = [(mass of extract) / {(mass of sample) − (mass of extract)}] × 100
The BOD value was measured based on JIS K 0102-21.

  From Table 1, even by a simple method such as Test Example 1, the concentration of the moisturizing component in the solid component can be reduced to 6% by weight or less, and there is a risk of generation of mold, slime, etc. even if returned to the treatment system. There can be no degree.

Then, by performing the mixing and stirring in a motor according to a household washing machine as in Test Example 2, it is possible to lower the moisturizing component concentration of more efficiently solid in component. And the dispersion | variation in the elution of a moisturizing component falls by using this apparatus.

Furthermore, if a broke pulper and a valveless filter are used, most moisturizing components can be eluted, and the effects of the present invention can be achieved more reliably and effectively. In particular, when a broke pulper and valveless filter is not variation in elution amount each time, particularly suitable for embedded Takeno as online in papermaking systems.

  As described above, the moisturizing component in the waste paper can be eluted by stirring and mixing the waste paper and water, and the solid components after the elution are returned to the paper making system even if they are returned to the paper making system. It was confirmed that the moisturizing component was sufficiently reduced to such an extent that it did not affect.

  The present invention can be used for waste paper treatment of sanitary thin paper such as tissue paper and toilet paper.

Claims (4)

A method of treating sanitary thin paper waste paper containing water-soluble moisturizing ingredients,
The waste paper and water are mixed and stirred until the concentration of the moisturizing system component in the solid component is 7% by weight or less, and the moisturizing component derived from the waste paper is eluted in water, and then dehydrated to yield the fiber derived from the waste paper. A sanitary thin paper waste paper treatment method comprising: recovering a solid component containing selenium and returning the recovered solid component to a papermaking system continuously or stepwise.   2. The sacrificial thin paper waste paper treatment method according to claim 1, wherein, when mixing the waste paper and water, the concentration of the solid component derived from the waste paper is adjusted to 1.5 to 4% by weight. 3. The sacrificial thin paper waste paper treatment method according to claim 1, wherein stirring is performed until no fiber lump derived from the waste paper is confirmed. The sacrificial thin paper waste paper processing method according to any one of claims 1 to 3 , wherein the moisturizing component contains glycerin.