JP2769088B2 - Manufacturing method of wastewater treatment agent - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a semiconductor device,
Used in the treatment of wastewater generated by washing substrates
The present invention relates to a method for producing a water treatment agent .

[0002]

2. Description of the Related Art Conventionally, cleaning of semiconductor elements, printed circuit boards, and the like has been performed using a specific fluorocarbon and a chlorine-based solvent such as 1,1,1-trichloroethane. However, since the possibility of depletion of the ozone layer was pointed out in 1995,
At the end of the year, it was decided to abolish the above CFCs. For this reason, in Japan, development of alternative CFCs for cleaning in place of the above specified CFCs has been actively conducted mainly in the electric and electronic industries. At present, alternative chlorofluorocarbons, which are roughly classified into two types, a solvent-based detergent and a water-based detergent, have been developed.
All of the above solvent-based cleaning agents have flammability except for halogenated hydrocarbons, so that when used, attention must be paid to fire and explosion-proof measures are indispensable. Also,
Handle with care due to toxicity. On the other hand, the above-mentioned water-based detergent is basically not flammable and has very little danger. The above-mentioned water-based cleaning agents are roughly classified into two types: an alkali saponification type cleaning agent and a cleaning agent containing a neutral high concentration surfactant as a main component. The alkaline saponification type cleaning agent is excellent in detergency, but has a problem that, for example, electromigration occurs when the cleaning agent remains due to insufficient rinsing. From such a viewpoint, an aqueous cleaning agent containing a neutral high-concentration surfactant as a main component has recently attracted attention.

On the other hand, the above-mentioned detergent containing a neutral high-concentration surfactant as a main component is suitable for practical use because it is a non-dangerous substance, is easy to handle, and can be rinsed with water. Therefore, development of a cleaning agent containing a neutral high-concentration surfactant as a main component has been actively carried out. However, when cleaning is performed using this cleaning agent, there is a problem in treating wastewater generated after the cleaning. As this wastewater treatment, a method of treating the wastewater with a wastewater filtration system composed of activated carbon, ion exchange resin, activated sludge and the like is generally used.

[0004]

However, the above-mentioned wastewater filtration system has a problem that it is a large-scale facility and requires too much cost for processing. Furthermore, the above-mentioned cleaning agent is composed of a nonionic surfactant and water, and has a problem that the nonionic surfactant cannot be sufficiently removed. As described above, in the treatment of wastewater generated during cleaning using a cleaning agent containing a neutral high-concentration surfactant as a main component, which is attracting attention as an alternative chlorofluorocarbon,
The fact is that an effective treatment method has not yet been established and its development is strongly desired.

[0005] In order to solve such a situation, the present applicant has proposed a wastewater treatment method in which a nonionic surfactant in wastewater is precipitated by using a novolak resin as a main component and using an alkaline substance to separate the nonionic surfactant. (Japanese Patent Application No. 5-51779). However, when the supernatant treated by the above wastewater treatment method was analyzed, a substance having a high chemical oxygen demand (COD) value and not being present in the wastewater was detected. Therefore, even if this supernatant liquid is treated with activated sludge, activated carbon, or the like, the COD value of the supernatant liquid is high, and to treat it to a level at which the treatment liquid can be discharged, sophisticated and costly treatment is required.

[0006] The present invention has been made in view of such circumstances, and it is possible to easily remove impurities contained in a novolak resin and to purify a novolak resin having a small amount of impurities.
Manufactures wastewater treatment agents using purified novolak resin
Its purpose is to provide a method for producing a wastewater treatment agent .

[0007]

In order to achieve the above object, a method for producing a wastewater treatment agent according to the present invention comprises the steps of: adding an alkaline substance and water to a novolak resin to prepare an aqueous liquid of the novolak resin; A step of precipitating the novolak resin by adding an acidic substance to the aqueous liquid, and a step of purifying the novolak resin by removing the supernatant liquid in which impurities in the novolak resin are eluted from the aqueous liquid containing the precipitated substance of the novolak resin The above purified novolak resin
Wastewater by adding an alkaline substance to an aqueous liquid containing
And a step of manufacturing a treatment agent .

[0008]

In other words, the present inventor analyzed the components in the supernatant liquid generated when performing wastewater treatment using novolak resin, and found that components not contained in the wastewater were contained.
This was found to be the cause of increasing the COD value of the wastewater-treated supernatant. As a result of repeated research on a substance that causes the increase of the COD value, it was found that the substance was caused by the novolak resin. Next, as a result of repeated studies for removing impurities caused by the novolak resin, an acidic substance is added to an aqueous liquid composed of the novolak resin, an alkaline substance, and water to precipitate the novolak resin. Then, the supernatant was removed to impurities from an aqueous solution containing the precipitated material novolak resin is eluted, purified novolak resin, low novolac resin having the content of impurities is obtained, this novolak tree
When an alkaline substance is added to an aqueous liquid containing fat as a main component,
It found Rukoto wastewater treatment agent obtained has reached the present invention.

In the present invention, the term "aqueous liquid" is intended to include not only an aqueous solution but also a suspension.

Next, the present invention will be described in detail.

In the method for producing the wastewater treatment agent of the present invention, a target novolak resin, an alkaline substance, water and an acidic substance are used.

The novolak resin which is the object of the present invention is:
There is no particular limitation, and conventionally known ones can be mentioned. As the form of the novolak resin, a granular form is preferably used. The term “granular” is intended to include not only granules, powders, flakes, and marbles, but also powders formed into pellets by tableting or the like. As the granular novolak resin, it is preferable to use a resin mainly composed of a novolak resin represented by the following general formula (1). In particular, the number of repetitions n in the general formula (1) is preferably 5 to 7. By using one having a repetition number n of 5 to 7, separation of the nonionic surfactant in the wastewater from the others is more effective.

[0013]

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The alkaline substance includes alkali metal hydroxide, alkaline earth metal hydroxide, ammonia,
Amines and the like. In particular, sodium hydroxide,
It is preferred to use potassium hydroxide. The amount of the alkaline substance used is set to an amount necessary for dissolving the novolak resin. For example, the pH of the aqueous liquid containing the novolak resin as a main component is 8 or more, particularly preferably
It is preferable to mix them so as to be 9 or more.

Examples of the acidic substance used to form a precipitate consisting of the novolak resin by adding to the aqueous liquid of the novolak resin include hydrochloric acid, sulfuric acid, oxalic acid and the like. The amount of the acidic substance added may be any amount that can insolubilize the novolak resin in the aqueous liquid.
For example, the pH of the whole system is adjusted to 8 or less, preferably 7.5.
It is set to an amount that can be lowered to a substantially neutral region of 6.5.

The method for producing the wastewater treatment agent of the present invention is carried out, for example, as follows. That is, an alkaline substance and water are added to the novolak resin and stirred to prepare an aqueous liquid containing the novolak resin as a main component. Next, an acidic substance is added to the aqueous liquid of the novolak resin to precipitate the novolak resin in the aqueous liquid. Next, the supernatant liquid from which the impurities in the novolak resin are eluted is removed from the aqueous liquid containing the precipitated substance of the novolak resin. Then, the novolak resin is purified by purifying the precipitated substance of the novolak resin. If further purification of the novolak resin is desired, the above operation is repeated. After passing through such a step, the same alkaline substance as described above is added to the novolak resin to produce a wastewater treatment agent.
Can be built.

[0017] As a method for removing the upper SL on clear, and go solution is not particularly limited, for example a centrifuge, a method like using the apparatus of the dehydrator and the like. Further, as a method for further purifying the novolac resin precipitated substance remaining after removing the supernatant liquid from which impurities are eluted, a method of adding water to the substance and washing the same can be cited.

[0018]

As described above, the wastewater treatment agent of the present invention
Process, after novolak resin, and adding an acidic substance to an aqueous solution comprising an alkaline substance and water to precipitate the novolak resin, removing the supernatant liquid impurities from an aqueous solution containing the precipitated material novolak resin is eluted Then, the novolak resin is purified to obtain a novolak resin having a small amount of impurities.
Aqueous liquid mainly composed of purified novolak resin
Potassium is added. Because of this , this wastewater
When the treatment agent is used , the elution of impurities contained in the novolak resin into the liquid generated after treating the wastewater decreases, and the COD value of the treatment liquid decreases. Therefore, it becomes easy to effectively treat the treatment liquid with activated sludge, activated carbon, or the like, and to set a COD value, a biochemical oxygen demand (BOD) value, and the like until the wastewater can be discharged.

Next, the present invention will be described in detail based on embodiments.

[0020]

Example 1 An aqueous solution of a novolak resin was prepared by adding 32 g of sodium hydroxide and 1.216 liters of water to 320 g of a novolak type phenol / formaldehyde resin having a particle size of 0.5 mm or less. Then, 62.1 g of 37% hydrochloric acid was added to the aqueous solution to precipitate a novolak resin in the aqueous solution. Then, this is centrifuged to remove the supernatant, and the novolak resin is purified.
did. Next, the purified novolak resin is used as the main component.
Wastewater treatment by adding the alkaline substance to an aqueous liquid
An agent was manufactured.

[0021]

Example 2 An aqueous liquid was prepared by using a novolak resin from which the supernatant was removed by centrifugation in Example 1 and adding 1500 g of water thereto. Next, 5 g of hydrochloric acid having a concentration of 37% was added to the aqueous liquid to precipitate a novolak resin in the aqueous liquid. The supernatant was removed by centrifugation to purify the novolak resin. This purified
Wastewater treatment using novolak resin in the same manner as in Example 1.
An agent was manufactured.

[0022]

Example 3 A powdery novolak type phenol-formaldehyde resin was replaced with a marble type novolak type phenol-formaldehyde resin. Otherwise, Example 1
The novolak resin was purified in the same manner as
A wastewater treatment agent was manufactured using novolak resin.

[0023]

Example 4 A novolak resin from which the supernatant was removed by centrifugation in Example 3 was used, and the same process as in Example 2 was performed.

In such a process, the supernatant liquid removed by centrifugation was collected, and its COD value was measured according to the acidic potassium permanganate method. The results are shown in Table 1 below. Further, the components in each of the above supernatant liquids were analyzed by gas chromatography (Hullet Packer, HP
5971). As a result, most of the components in the supernatant, 2, 2'-methylenebis phenol,
It is a 4,4'-methylene-bis phenol was found. The gas chromatography conditions were as follows:
HP-5, carrier gas: He is 1 ml / min.

[0025]

[Table 1] ┌───┬─────────┐ │ │ COD value of supernatant liquid │ │ │ (ppm) │ ├─┬─┼─────────┤ │ Actual │1│ 4170 │ │ ├─┼─────────┤ │ │ │2│ 50 │ │ Facility │ │3│ 4560 │ │ ├─┼ │ │Example│4│ 45 │ └─┴─┴─────────┘

From the results in Table 1, it can be seen that a large amount of impurities are eluted from the novolak resin. Further, it can be seen that the elution amount of impurities is reduced by repeating the above-mentioned purification step, and the impurities are removed in the previous washing step. In addition, wastewater was treated using the wastewater treatment agent obtained in the example.
After the treatment, the COD value of the wastewater was low enough to be discharged.
To a new level.

Claims (1)

(57) [Claims] A step of preparing an aqueous solution of the novolak resin by adding an alkaline substance and water to the novolak resin; a step of precipitating the novolak resin by adding an acidic substance to the aqueous liquid; A step of purifying the novolak resin by removing the supernatant in which impurities in the novolak resin are eluted from the aqueous liquid containing the substance, and an aqueous solution containing the purified novolak resin as a main component.
A process for manufacturing a wastewater treatment agent by adding an alkaline substance to a liquid
Preparation of wastewater treatment agent characterized in that a degree.