JPH04193388A - Adsorbent for oily waste liquid - Google Patents

Abstract

PURPOSE:To obtain an adsorbent for oily waste liquid having excellent adsorptivity by constituting the adsorbent for oily waste liquid of dry peat chips and cotton-like fiber aggregate so that both of them give each adsorption characteristics to effectively adsorb and hold the oily waste liquid. CONSTITUTION:The oily water liquid adsorbent consists of dry peat chips and cotton-like fiber aggregate. As for the dry peat chips, for example, tundra, grass coal, wood peat and mud peat, which are pulverized into proper size for use, are exemplified. As for the cotton-like fiber aggregate, for example, fibers such as polypropylene, viscose rayon, and acetate, which are knitted in piles and subjected to shirring treatment, are used. The dry peat chips mainly adsorbs oil content such as varnish in the oily waste liquid, while the fiber aggregate mainly adsorbs the washing liquid such as kerosine by capillary phenomenon. Further, the fiber aggregate gives a bulk effect on the dry peat chips to form proper vacancies in the peat chips and to increase the adsorption area thereof.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention is an oil-based waste liquid adsorbent, in particular, a waste ink adsorbent that is produced when printing oil-based ink adhering to the plate cylinder of an offset printing machine is washed and removed with a cleaning liquid. Regarding things that can absorb.

(Prior Art and Problems to be Solved by the Invention) Conventionally, for example, in an offset printing machine, after color printing is completed, ink adhering to the plate cylinder etc. is cleaned with a cleaning liquid as a pre-process for printing ink of another color. The resulting waste ink was collected in a tray and disposed of in a waste ink reservoir. However, with this method, the waste ink easily spills, staining the clothes of the workers, and requires the waste ink to be thrown away many times during the working day, making maintenance time-consuming. Therefore, it is conceivable to use dried peat moss pieces as a commercial ink adsorbent.

However, there is a problem in that even if waste ink containing pigments and the like is adsorbed only by the peat moss pieces, the amount of adsorption is small and a desired amount of waste ink cannot be adsorbed.

In view of the above problems, the oily waste liquid adsorbent according to the present invention has the following features:
The purpose of the present invention is to provide an oily waste liquid adsorbent that has a large amount of adsorption.

(w. Means for Solving the Problem) In order to achieve the above object, the oily waste liquid adsorbent according to the present invention is constructed of dried peat strips and cotton-like fiber aggregate.

In particular, this oily waste liquid adsorbent preferably has a blending ratio of 50 to 30% by weight of dried peat strips and 50 to 70% by weight of cotton fiber aggregate.

The oil-based waste liquid adsorbent can be used alone or may be used by being filled into a bag, and the bag is not limited to a single-walled structure, but may also have a double-walled structure. .

Dry peat strips include landla, grass charcoal, tree day charcoal,
Examples include day quality day charcoal, which can be used by crushing it to any size, and commercially available ones, such as
You may use the product name BeatSorb (manufactured by BeatSorb).

Examples of the cotton-like fiber aggregate include those obtained by subjecting a fabric obtained by pile knitting fibers such as polypropylene, viscose rayon, and acetate to a yarn-yearing process, but are not necessarily limited to this. It may also be one in which fibers are directly aggregated into a cotton-like structure.

Examples of the sheet-like material forming the bag include polypropylene, nonwoven fabric made of polyester fibers, and products such as Washep Oil Catcher (trade name) and Honey Fiber (manufactured by Honey Fiber). Furthermore, when the bag body has a double structure, the inner bag is formed of the sheet-like material mentioned above, and the outer bag is made of polypropylene, a nonwoven fabric made of polyester fiber, or the product name Looklin (Asahi Kasei). It may also be formed from a sheet-like material such as Toughnel Oil Plotter (Asahi Kasei).

(Function) Dry peat strips mainly adsorb oil such as varnish in oily waste liquid, while cotton fiber aggregate mainly adsorbs cleaning liquid such as white kerosene oil in oily waste liquid by capillary action, and It imparts a bulking effect to the peat strips, forms appropriate voids between the peat strips, and increases the adsorption area of the peat strips.

Furthermore, the oil-based waste liquid adsorbent according to the present invention contains 50 to 30% by weight of dried peat strips and 50 to 70% by weight of cotton fiber aggregate.
The reason why the blending ratio is set is that if the blending ratio is outside this range, drying will be delayed and the oil adsorption power will be reduced, making it impossible to obtain the desired effect.

In addition, the bag prevents the oil-based waste liquid adsorbent from dissipating and makes cleaning up after adsorption easier, and if the bag itself can adsorb oil-based waste liquid, the amount of adsorption can be increased. It turns out.

(Example) Examples of the oily waste liquid adsorbent according to the present invention will be described below.

Example 1 2.5 g of commercially available peat moss strips (trade name BeatSorb, manufactured by BeatSorb Co., Ltd.) + 2.5 g and 12.59 g of cotton-like fiber aggregate obtained by applying shirring to a pile-knit fabric of polypropylene fibers were used. The mixed oily waste liquid adsorbent 259 is used as a sample, and the length is 2. Ocx, width! 2
It was placed on the nonwoven fabric c* so that it had a uniform thickness.

Comparative Example 1 A sample of 25 g of the same peat moss pieces used in Example 1 was placed on a nonwoven fabric in the same manner as in Example 1.

Comparative Example 2 The same cotton-like fiber aggregate 259 used in Example 1 was used as a sample and placed on a nonwoven fabric in the same manner as in Example 1.

Then, oil-based printing ink (product name Space Color, manufactured by Dainippon Ink Chemical Co., Ltd.) and cleaning liquid (product name Roll Clean,
(manufactured by Yanase Oil Co., Ltd.) at a ratio of 1 to 1 O, 150 cc of the mixture was poured into Example 1 and Comparative Example 1.2, respectively, to examine adsorption and liquid retention.

In Comparative Example 1, which used only strips of peat moss, most of the ink in the mixed liquid remained on the surface of the strips of peat moss, and the cleaning liquid leaked onto the nonwoven fabric. In addition, in Comparative Example 2 using only cotton-like fiber aggregate, the ink in the liquid mixture was almost absorbed by the cotton-like fiber aggregate, but stains caused by the cleaning liquid were observed on the nonwoven fabric to a lesser extent than in Comparative Example 1. It was done. In contrast, in Example 1, all of the mixed liquid was absorbed, there was still room for further absorption, and no stains were observed on the nonwoven fabric.

From the above results, it has been found that the oily waste liquid adsorbent according to the present invention is superior to adsorbents using only peat moss strips or cotton-like fiber aggregates in terms of adsorption amount and liquid retention.

Example 2 Length 1!00mm, width 50n+m, thickness 0.3mm
Non-woven fabric (product name: Honey Fiber, made from Honey Fiber)
is used as a cylindrical inner bag, and the cylindrical inner bag is filled with an oily waste liquid adsorbent 209 obtained by mixing the same peat moss pieces and cotton fiber aggregate used in Example 1 in various proportions, moreover,
Samples 1 to 7 were obtained by inserting the inner bag filled with the oily waste liquid adsorbent into a cylindrical outer bag made of non-woven fabric (trade name: Toughnel Oil Plotter, manufactured by Cy Petrochemical) with a length of 1100 mm and a width of 50 om. Ta.

On the other hand, an oil-based ink (trade name: Space Color, manufactured by Dainippon Ink Chemical Co., Ltd.) and a cleaning liquid (trade name: Roll Clean, manufactured by Yanase Oil Co., Ltd.) were mixed at a ratio of 1:10 to obtain a mixed solution having the same composition as in Example 1. Ta.

Then, 150 cc of the mixed solution was poured into each sample three times at one-hour intervals, for a total of 450 cc, and the adsorption and liquid retention properties were examined immediately after the third pour.

Furthermore, after leaving it in the room for 24 hours, 150 cc of the above mixture was added to each sample three times every hour for a total of 45 ml.
Immediately after the third pouring, the amount of adsorption and liquid retention were examined. The observation results are shown in Table 1.

Table 1 The meanings of ◎, ○, △, and × in the table are as follows.

◎: The cleaning liquid was completely adsorbed, and there was room for further adsorption.

O: The cleaning liquid was completely adsorbed, but there was no room for further adsorption.

△: All of the cleaning liquid was adsorbed, but dripping of the cleaning liquid was observed.

X: The cleaning solution was not completely adsorbed and remained.

From the results in Table 1, as an oil-based waste liquid adsorbent, the blending ratio is 3.
Q: 70-50:50, especially 40.60-50:50
It can be seen that the range of is suitable.

In addition, the adsorption amount of sample 3.4 was almost the same, but
It was found that sample 3 dries more easily. This is considered to be because larger voids are formed due to the large amount of cotton fiber aggregate blended.

Furthermore, when comparing Sample 4 of Example 2 with the same blending ratio and Example 1 described above, the total amount of the oily waste liquid adsorbent of Example 2 is 209, which is almost the same amount as the oily waste liquid adsorbent of Example 1. Despite this, Sample 4 of Example 2 adsorbed 450 cc of the mixed liquid, which is three times the adsorption amount of Example 1, within 3 hours, so the adsorption capacity was higher than that of Example 1. It can be seen that the adsorption capacity of Example 2 is greater. Therefore, if the material forming the outer bag and the inner bag is a material that easily adsorbs the ink and cleaning liquid in the oily waste liquid, it is effective in improving the adsorption characteristics.

Example 3 40g of oily waste liquid adsorbent having the same compounding ratio as Samples 2 and 4.6 of Example 2 was placed in the same inner bag as in Example 2.
Fill the outer bag and sample 8.9. I got IO.

Then, wash each sample with a cleaning solution (trade name: Roll Clean,
Pour 200cc (manufactured by Yanase Oil Co., Ltd.) to absorb the amount.

The liquid retention property was examined, and after 2 hours, 200 cc of the same cleaning solution as above was poured to check the adsorption and liquid retention properties. The observation results are shown in Table 2.

The meanings of ■, 01Δ, and X are the same as in the second embodiment described above, so the explanation will be omitted.

From this example, it was found that sample 9 with a blending ratio of 50:50 had the largest amount of adsorption and was excellent in liquid retention. It was also found that Sample 1, in which the blending ratio was 30% by weight of peat moss and the remainder was cotton-like fibrous aggregate, could be put to practical use when only the cleaning liquid was adsorbed.

Example 4 In order to select a sheet-like material suitable for the outer bag and inner bag constituting the bag body, the following experiment was conducted.

That is, a bag was formed from various sheet-like materials with a length of 10 cm and a width of 20 CI, and 10 g of the same peat moss strips used in Example 1 were filled into the bag to prepare samples 10 to 17.
I got it.

Then, wash each sample with a cleaning solution (trade name: Roll Clean,
(manufactured by Yanase Oil) 20cc for the first time, 25cc for the second time
At the third time, 35 cc of the solution was poured in succession, and the adsorption and liquid retention properties were examined each time. The observation results are shown in Table 3.

(Margins below) Table 3 The meanings of ◎, ◯, Δ, and X are the same as in Example 2, so the explanation will be omitted.

From the above observation results, the following sheet materials for bags to be filled with peat moss strips are Sample 1 (Asahi Kasei, Luclin), Sample 2 (Gunze, Polypropylene), Sample 4 (Gunze, Polyester (2')), and Sample 5. (Toshi, Washep Oil Catcher (1)) was found to be suitable.

It goes without saying that the bag is not limited to a double structure, but may also be a double structure by selecting an appropriate material.

(Effects of the Invention) As is clear from the above description, the oil-based waste liquid adsorbent according to the present invention is composed of dried peat strips and flocculent fiber aggregate, and the flocculent fiber aggregate is composed of dried peat fines. Since appropriate voids are formed between the pieces, the adsorption area of the dried peat pieces is increased. Therefore, the dried peat strips absorb oily waste liquid without clogging.

At the same time, the cotton-like fiber aggregate adsorbs and retains the oily waste liquid by capillary phenomenon, and both exhibit their respective adsorption properties to effectively adsorb and retain the oily waste liquid, resulting in excellent adsorption properties. This has the effect that an oily waste liquid adsorbent can be obtained.

Claims (2)

[Claims] (1) Oil-based waste liquid adsorbent characterized by consisting of dried peat strips and flocculent fiber aggregate (2) The weight ratio of dried peat strips and cotton fiber aggregate is 30
3. The oily waste liquid adsorbent according to claim 2, wherein the ratio is 70:50 to 50:50.