JP2004223481A - Method for recycling alkaline waste in aluminum processing plant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for highly efficiently crystallizing and separating aluminum hydroxide from caustic soda waste after being used for washing extrusion dies in an aluminum processing plant and recycling highly concentrated caustic soda. <P>SOLUTION: An alkaline solution having a high concentration of 200-500 g/l is used for dissolving aluminum components generated in the aluminum processing plant. A water-soluble organic solvent (methyl alcohol) is added to alkaline waste liquid containing a high concentration of the aluminum components at a molar ratio of the solvent to water in the alkaline waste liquid of 0.5-2.5, which reduces the solubility of aluminum hydroxide, thereby increasing a degree of supersaturation to precipitate crystals of aluminum hydroxide. After removing the aluminum hydroxide crystals from the alkaline waste liquid, the water-soluble organic solvent is separated from the alkaline waste liquid to be reused. The alkaline solution after separating aluminum hydroxide and the water-soluble organic solvent is reused. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method for recycling an alkaline waste liquid in an aluminum processing plant, and more particularly to an economical method for recycling a high-concentration alkaline waste liquid containing an aluminum component used for cleaning an extrusion die in an aluminum processing plant.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, etching and cleaning of an extrusion die in a surface treatment step occurring in an aluminum processing factory have been performed using high-temperature caustic soda. Among them, the technology for recycling caustic soda in the surface treatment process has been almost completed, but a more efficient treatment technology is desired. On the other hand, since the cleaning caustic soda of the extrusion molding dies has a high concentration and is difficult to recycle, it is costly to perform expensive chemical treatment and is discarded.
[0003]
As a conventional method of recycling caustic soda from caustic soda waste liquid in an aluminum processing plant, aluminum hydroxide is precipitated as crystals by crystallizing aluminum hydroxide by cooling the caustic soda waste liquid, aluminum in the waste liquid is separated and removed, and caustic soda is regenerated. It is being recycled. In the method of cooling the waste liquid, it is necessary to forcibly generate crystal nuclei or to add seed crystals in order to stably operate the crystallizer. However, the amount of aluminum to be separated and removed is limited by its solubility, resulting in inefficient operation.
[0004]
On the other hand, a method of adding alcohol, acetone, sucrose, or the like is known as a method for separating and separating alumina crystals instead of treating an alkaline waste liquid containing aluminum.
As one of them, there is a method for separating alumina by regenerating alumina from the aluminate solution obtained by the Bayer method at an increased precipitation rate using methanol or ethanol (for example, Patent Document 1). In this method for regenerating alumina, after the alcohol in the vapor phase is dissolved in the aluminate solution in the addition tower, an aqueous alcohol solution is added in a stirring tank to increase the precipitation rate.
In addition, as a crystallization method for obtaining crystals of a predetermined shape of aluminum hydroxide from a sodium aluminate solution, a method of adding alcohol or acetone (for example, Patent Document 2), a method of adding an organic substance such as sucrose or various sugars (for example, And Patent Document 3) are known.
The conventional processing technique described above is a technique for separating and removing aluminum hydroxide from a sodium aluminate solution, and is a technique for controlling the crystal shape of aluminum hydroxide.
[0005]
Even with a high concentration aluminum-containing caustic soda waste liquid, if the aqueous solution of caustic soda is diluted with water, the amount of T-Al dissolved at a low concentration of T-NaOH becomes the dissolved amount. Therefore, the aluminum hydroxide (Al (OH)) of the system is diluted. ₃ ) can be crystallized. However, in order to concentrate the diluted aqueous solution of caustic soda and recirculate it to a process performed with high-concentration caustic soda such as washing dice, equipment costs and operating costs for concentration become high, and economics are a problem. Equipment cannot be used.
[0006]
In the present invention, T-NaOH or total caustic soda is also referred to as total caustic soda, and is obtained by converting all Na components in a liquid to NaOH. For example, it can be determined from equation (1) by a titration method described later. Similarly, T-Al is also referred to as total aluminum, and means the total aluminum content in the liquid except for crystallized Al (OH) ₃ . For example, it can be determined from equation (2) by a titration method described later. The "F-NaOH" described later is also called free caustic soda or free caustic soda, and is caustic soda released in a liquid. This can also be determined from equation (3) by the titration method described later.
[0007]
[Patent Document 1]
UK Patent No. 123184 [Patent Document 2]
JP-A-63-215509 (Claim 23)
[Patent Document 3]
JP-A-6-279022 (Claim 1)
[0008]
[Problems to be solved by the invention]
However, in the method of treating a distillation column or the like disclosed in Patent Document 1, it is necessary to prevent the problem of precipitation of aluminum hydroxide from occurring in a column other than the stirring tank, and there is a problem that control in operation becomes complicated. In particular, the method cannot be applied to alkali wastewater having a high alkali concentration, for example, an alkaline wastewater in which the total caustic soda exceeds 150 g / liter (T-NaOH 150 g / l).
The method of Patent Document 2 in which an organic solvent such as alcohol or acetone is added to a sodium aluminate solution to crystallize aluminum hydroxide relates to separation and removal of aluminum hydroxide, not regeneration of an alkaline solution containing aluminum. Moreover, this is a method for controlling the crystal shape of aluminum hydroxide. This also requires inefficient operation in alkaline wastewater having a high alkali concentration, and there has been a problem in putting the wastewater to practical use.
The method of Patent Document 3 for crystallizing aluminum hydroxide is also a method of obtaining a crystal having a predetermined crystal shape in the same region as Patent Document 2. As in Patent Document 2, there is a problem in application to waste liquid in terms of economy and the like, and practical use of waste liquid has not been achieved.
In particular, the concentration of caustic soda solution used in the cleaning process of the extrusion die is high, and the waste liquid contains T-NaOH of 200 g / l or more, and in many cases as high as 400 g / l, and an efficient treatment technique has been established. Absent. Even with the enactment of environmental legislation, including various recycling laws, efficient and economical treatment of large volumes of caustic soda effluents has been an important research topic in the aluminum industry.
[0009]
In view of such problems of the conventional technology, the inventors have been conducting basic scientific research for several years based on crystallization technology. Then, it was examined whether or not an organic solvent as a poor solvent can achieve the same or higher dilution effect as water. In addition, the inventors have found that the activity of the added aqueous solution greatly affects the crystallization of aluminum hydroxide in a caustic soda solution in which aluminum is dissolved.
Then, based on the above findings, a new caustic soda recycling technology was developed, enabling an efficient process, and leading to the present invention.
[0010]
An object of the present invention is to provide a method for efficiently crystallizing and separating aluminum hydroxide from an alkaline waste liquid containing an aluminum component used for cleaning an extrusion die of an aluminum processing plant, and recycling a high-concentration alkaline solution. To provide.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the method for recycling an alkaline waste liquid in an aluminum processing plant according to the present invention according to claim 1 is characterized in that a high-concentration alkaline waste liquid generated in an aluminum processing plant has a molar ratio of 0.5 to water. A water-soluble organic solvent of a poor solvent is added at a ratio of 2.5 to increase the degree of supersaturation by decreasing the solubility of aluminum hydroxide, crystallize aluminum hydroxide, and remove the aluminum hydroxide from the alkaline waste liquid. After the separation and removal, the water-soluble organic solvent is separated from the alkaline waste liquid and the water-soluble organic solvent is reused, and the alkaline solution regenerated by separating the aluminum hydroxide and the water-soluble organic solvent is reused. It is characterized by doing.
[0012]
By adding a water-soluble organic solvent, which is a poor solvent, to the alkaline waste liquid as described above, the solubility of aluminum hydroxide in the alkaline waste liquid is reduced, the state becomes supersaturated, and crystals can be deposited without seed crystals. The rate at which these crystals are precipitated is faster than crystallization by cooling, dilution with water, and the like, and separation can be performed efficiently, so that the apparatus can be reduced in size and processing with excellent economic efficiency can be performed.
After crystallization progresses, after removing the lower aluminum hydroxide concentrated layer, the upper aluminum hydroxide diluted layer is discharged from the crystallizer, and the water-soluble organic solvent is distilled from the diluted layer discharged liquid, membrane separation, etc. The separated aqueous solution of the alkaline waste liquid from which the water-soluble organic solvent has been separated is reused as an alkaline solution at a processing plant. Since the solubility of aluminum hydroxide is reduced by dissolving the organic solvent, the concentration of aluminum in the alkaline solution to be reused can be reduced to 1.5 wt% or less by changing the amount of the organic solvent to be added. In addition, the equipment can be composed of common simple devices such as a crystallization device, a solid-liquid separation device, and a distillation device, and the operating cost can be reduced.
[0013]
In the present invention, examples of the water-soluble organic solvent serving as a poor solvent include methyl alcohol, ethyl alcohol, acetone, methyl bromide, methyl iodide, and methylene chloride in addition to methyl alcohol. Also, from the aspect of the eccentricity factor, a material having a eccentricity of 1.8 to 0.2 is equivalent to or more effective than water. Methyl alcohol, which has a low boiling point and dissolves in a highly concentrated sodium hydroxide solution and is easily separated from an aqueous solution, is more preferable.
[0014]
The amount of the water-soluble organic solvent, which becomes a poor solvent with respect to the water of the alkaline waste liquid, is set to 0.5 or more in a molar ratio because the addition of less than 0.5 results in a poor solvent effect. On the other hand, if the added amount exceeds 2.5 in molar ratio, the effect of decreasing the dissolved amount of aluminum hydroxide by increasing the added amount is small, and the economical efficiency is deteriorated.
The effect of the addition of the organic solvent can be known from the relationship between the activity of the aqueous methyl alcohol solution and the mole fraction of methyl alcohol shown in FIG. That is, if the molar fraction of methyl alcohol is less than about 0.25, the difference between the activity coefficients of water and methyl alcohol becomes large, and the effect of reducing the solubility of aluminum hydroxide becomes small, which is not effective. Further, even if the molar fraction of methyl alcohol is more than about 0.70, the change in the activity coefficient between water and methyl alcohol due to the addition of methyl alcohol is not large, so that it is not efficient. Thus, from the viewpoint of the activity of the aqueous solution of methyl alcohol, the molar fraction of methyl alcohol is 0.25 to 0.75 (approximately 0.35 to 3 in molar ratio). It is preferable that the molar ratio of methyl alcohol with respect to 0.5 to 2.5 is used.
The above activity in FIG. C. Reid, J.A. M. Prausnitz and B.S. E. FIG. This is an estimated value by the UNIFAC method of "The Properties of Gases and Liquids" by Poling (4th Ed. McGraw-Hill, New York (1978)).
[0015]
Further, in the method for recycling an alkaline waste liquid in an aluminum processing plant according to claim 2, the alkaline waste liquid contains 200 to 500 g of total caustic soda per liter of the solution, and the caustic soda solution obtained by regenerating the alkaline waste liquid is used as the alkaline waste liquid. Used for generation process.
Total caustic soda generated in an aluminum processing plant can economically regenerate a highly concentrated caustic soda effluent of 200 to 500 g / l, and can be recycled to a process using a highly concentrated caustic soda solution.
[0016]
In the present invention, the alkaline waste liquid includes a single or mixed waste liquid such as lithium hydroxide, caustic soda, potassium hydroxide, calcium hydroxide, and magnesium hydroxide.
[0017]
According to a third aspect of the present invention, in the method for recycling an alkaline waste liquid in an aluminum processing plant according to the first or second aspect, the water-soluble organic solvent of the poor solvent is methyl alcohol.
Thus, the solubility of aluminum hydroxide can be reduced in a short time by using methyl alcohol which is easily available as a water-soluble organic solvent and is relatively easy to handle such as separation of an aqueous solution. As a result, the equipment for regenerating the alkaline waste liquid can be reduced in size and cost, and the operating cost can be reduced.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described.
First, a predetermined amount of 0.35 to 3 in a molar ratio of methyl alcohol as a poor water-soluble organic solvent is controlled so as to be uniformly dissolved in water of an alkaline waste liquid generated in an aluminum processing plant. While adding. Next, a crystal is grown for a predetermined time and a separation layer is formed, and separated into a crystal thick layer and a crystal dilution layer. Next, the organic solvent is separated from the drained liquid of the crystal dilution layer to obtain a highly alkaline solution, which is used as an alkaline aqueous solution and is circulated for washing the extrusion mold.
[0019]
The alkaline waste liquid treated in the present invention is a high-concentration caustic soda used for dissolving aluminum components attached to a processing jig such as a caustic soda used for surface treatment such as anodizing treatment or a die used for extruding aluminum material. , Potassium hydroxide and the like. The concentration of caustic soda (T-NaOH) used in surface treatment such as etching or anodic oxidation is usually about 50 to 100 g / l, and is used for dissolving aluminum components attached to a die or the like used for extrusion. The concentration of caustic soda is about 200 to 450 g / l.
[0020]
The effect of a poor solvent, such as methyl alcohol, on the solubility of aluminum in an aqueous solution of caustic soda due to a water-soluble organic solvent is as follows. It was investigated by measuring the amount of T-Al after a predetermined time after adding 0.35 to 3 moles.
[0021]
This test was performed as follows.
First, the concentrations of T-NaOH and F-NaOH are adjusted by adding water or caustic soda to an aluminum extrusion die washing waste liquid and changing the amount of caustic soda dissolved in water. The concentration of T-Al is adjusted by dissolving aluminum or diluting with caustic soda solution or water.
Next, a sample without addition of an organic solvent is prepared by adding an aluminum hydroxide crystal equivalent to 3 wt% of T-Al as a seed crystal. At the same time, a sample is prepared in which the amount of addition of methyl alcohol to water is changed in a molar ratio of 0.35 to 3 without a seed crystal. Then, after leaving at room temperature for 72 hours to form a crystal suspension, the sample solution was filtered to remove the crystals, and T-Al, T-NaOH and F-NaOH in the filtrate were determined.
[0022]
To determine T-NaOH and T-Al in the caustic soda solution, take a sample from the filtrate, dilute it 10 times with pure water, take 5 ml of it, add 100 ml of pure water, and use it as an indicator. A phenolphthalein solution is added and 1N-HCl (Aml) is added dropwise until the solution turns from red to white. Next, 30 ml of a 10 wt% KF aqueous solution is added to change the solution from white to red. Next, 1N-HCl (Bml) is added dropwise to change the solution from red to white.
Then, T-NaOH (g / l), T-Al (g / l) and F-NaOH are obtained by the following equations (1), (2) and (3), respectively.
[0023]
T-NaOH (g / l) = 8.0 × A × f (1)
T-Al (g / l) = 1.8 × B × f (2)
F-NaOH (g / l) = 8.0 (AB / 3) × f (3)
However, it is assumed that f = 1.
[0024]
Regarding the relationship between F-NaOH and T-Al obtained as described above, when the seed crystal was added to the caustic soda solution at 3 wt% of T-Al, and without adding the seed crystal, methyl alcohol was added to the water of the caustic soda solution. Is added in a molar ratio of 0.5 and 2.5 as shown in FIG.
From FIG. 2, by adding methyl alcohol as a water-soluble organic solvent at a molar ratio of 0.5 to 2.5 to the aluminum-containing caustic soda aqueous solution, T-Al in the caustic soda solution was crystallized by aluminum hydroxide. decrease. Thus, it can be seen that the solubility of aluminum hydroxide is reduced without using a seed crystal, that is, the degree of supersaturation of aluminum hydroxide is increased.
In addition, the case where methyl alcohol was added to the aluminum-containing caustic soda aqueous solution at a molar ratio of 0.35 or 3 was almost the same as the case where the molar ratio was 0.5 or 2.5, respectively. From this fact, when an appropriate amount of a water-soluble organic solvent such as methyl alcohol is added to an aqueous solution of aluminum-containing caustic soda, T-Al in the solution is effectively reduced, the degree of supersaturation of aluminum hydroxide is reduced, and crystals of aluminum hydroxide are increased. Obtainable. From this, even in an aluminum-containing alkaline waste liquid, methyl alcohol is added thereto to crystallize and separate aluminum hydroxide to obtain an alkaline waste liquid with reduced T-Al, and an organic solvent is separated from the alkaline waste liquid. As a result, a highly concentrated alkaline solution can be regenerated, and the alkaline solution can be circulated and used in the step of generating an alkaline waste liquid.
[0025]
In addition, to the alkaline waste liquid in which the aluminum component is dissolved, a predetermined amount of the water-soluble organic solvent which is a poor solvent as described above is added, and the solubility of the aluminum hydroxide crystal is reduced to increase the degree of supersaturation, and crystallize. The speed is controlled as follows.
The crystallization temperature of aluminum hydroxide is maintained below the boiling point of the solution so as to suppress evaporation of the water-soluble organic solvent such as methyl alcohol. Further, since the growth rate of the crystal is a function of the degree of supersaturation, the growth is performed by controlling the rate of supersaturation generation. That is, the addition rate of the water-soluble organic solvent is appropriately determined depending on whether or not the crystal grain size is adjusted. To increase the crystal grain size, the rate of addition of the water-soluble organic solvent may be reduced, and the growth rate of the crystal may be reduced. Conversely, to crystallize faster, the addition rate of the water-soluble organic solvent is increased so as to increase the crystal growth rate.
[0026]
Next, the aluminum hydroxide crystals to be crystallized precipitate in the lower layer, and are separated into a lower concentrated liquid in which the aluminum hydroxide crystals are concentrated and an upper diluted waste liquid in which the aluminum hydroxide crystals are diluted. The aluminum hydroxide crystals are separated from the alkaline waste liquor by extracting the concentrate.
[0027]
Then, aluminum hydroxide crystals are recovered from the concentrated aluminum hydroxide solution by dehydration. After separating the aluminum hydroxide crystals from the concentrated aluminum hydroxide solution, the alkaline waste liquid containing the water-soluble organic solvent can be replenished with the water-soluble organic solvent and used as it is for crystallization, or it can be purified and used in an aluminum extrusion die. Used for circulating aluminum. The removal of the organic solvent from the alkaline waste liquid is performed by separating the dissolved organic solvent by a method such as distillation or membrane separation.
[0028]
As an example of an apparatus for recycling an alkaline waste liquid for carrying out the above-mentioned method of the present invention, an apparatus constituted by a crystallization apparatus, a solid-liquid separation apparatus, and a solvent recovery apparatus is used.
[0029]
The crystallization device is provided with an organic solvent supply device and a stirring device so that aluminum dissolved in the waste liquid can be easily crystallized as aluminum hydroxide. In addition, an extraction pipe is provided to coagulate and precipitate the crystallized aluminum hydroxide and to take out a concentrated solution of aluminum hydroxide sludge. An organic solvent is added from an organic solvent supply device while stirring the alkaline waste liquid with a stirrer, thereby increasing the degree of supersaturation of aluminum hydroxide and increasing the amount of aluminum hydroxide crystallized.
[0030]
A pump is provided in the extraction pipe to supply the sludge concentrate to the solid-liquid separator. The supernatant layer formed on the aluminum hydroxide concentrated layer of the crystallizer has a low aluminum concentration and a high free caustic soda concentration. The solution of the supernatant layer is taken out with a supernatant extraction tube.
[0031]
The operation temperature of the crystallizer may not be controlled, and the aluminum hydroxide crystal can be easily crystallized from the alkaline waste liquid at room temperature. In addition, by using a low-boiling organic solvent, the organic solvent functions to lower the crystallization operation temperature by evaporation.
[0032]
As the solid-liquid separation device, a centrifugal separator, a filtration device, or the like can be applied, and there is no need to use a special device with small crystal grains. Therefore, the device can be simple and inexpensive.
As the solvent recovery device, a normal tray column, packed column, or the like that can perform a distillation operation can be applied. It is easy to design with these devices, and it is sufficient to pay attention in the usual treatment of the solvent, and the cost can be reduced.
[0033]
【The invention's effect】
According to the alkaline waste liquid recycling method of the present invention, the degree of supersaturation of aluminum hydroxide can be increased, and aluminum hydroxide can be easily removed by crystallization from an aluminum-containing alkaline solution. The generated high-concentration alkaline waste liquid can be recycled. That is, it is a method conforming to the recycling era. Further, according to the present invention, it is not necessary to add a seed crystal during operation, so that the crystal processing apparatus can be reduced in size and cost can be reduced.
According to the recycling method of the third aspect of the present invention, the degree of supersaturation of aluminum hydroxide can be increased, and high-concentration alkaline waste liquid generated by washing an extrusion die in an aluminum processing plant can be recycled. . In addition, the separation of the organic solvent is easy, and the equipment cost and operation cost can be reduced accordingly.
[Brief description of the drawings]
FIG. 1 is a graph showing the activity of a methyl alcohol aqueous solution.
FIG. 2 is a graph showing the relationship between F-NaOH and dissolved T-Al when methyl alcohol (organic solvent) is added and when it is not added.

Claims (3)

To reduce the solubility of aluminum hydroxide by adding a water-soluble organic solvent as a poor solvent to a high concentration of alkaline waste liquid generated in an aluminum processing plant at a molar ratio of 0.5 to 2.5 with respect to the water. To increase the degree of supersaturation, crystallize aluminum hydroxide, separate and remove the aluminum hydroxide from the alkaline waste liquid, and then separate the water-soluble organic solvent from the alkaline waste liquid to reuse the water-soluble organic solvent. A method of recycling an alkaline waste liquid in an aluminum processing plant, wherein an alkaline solution regenerated by separating the aluminum hydroxide and the water-soluble organic solvent is reused. The alkaline waste liquid in an aluminum processing plant according to claim 1, wherein the alkaline waste liquid contains 200 to 500 g of total caustic soda per liter of the solution, and a caustic soda solution obtained by regenerating the alkaline waste liquid is used in the step of generating the alkaline waste liquid. Recycling method. The method for recycling an alkaline waste liquid in an aluminum processing plant according to claim 1 or 2, wherein the water-soluble organic solvent of the poor solvent is methyl alcohol.

Images