JPH06157402A - Method for recovering terephthalic acid - Google Patents

Abstract

PURPOSE:To recover terephthalic acid having less coloring at low cost from a polyester resin such as polyethylene terephthalate by effectively utilizing an alkali. CONSTITUTION:A polyester resin is hydrolyzed in the presence of an alkali, the hydrolyzed solution is neutralized with carbon dioxide in the presence of a polyhydric alcohol to precipitate terephthalic acid, which is recovered. A carbonate or bicarbonate prepared as a by-product is circulated and used as the alkali in the hydrolyzing of the polyester resin.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a method for recovering terephthalic acid from a polyester resin containing terephthalic acid such as polyethylene terephthalate (hereinafter referred to as PET) and a polyhydric alcohol as monomers.

[0002]

BACKGROUND ART Polyester resins such as PET are chemically decomposed by hydrolysis to recover terephthalic acid, and the recovered terephthalic acid is reused as a raw material for producing PET resins and the like. However, the recovered terephthalic acid is mixed with a dye or the like added when it is used as a resin. Therefore, in order to use it as a monomer for polymer synthesis, it is necessary to collect it in a state in which the dye or the like is not mixed. However, since terephthalic acid has a low vapor pressure, it is difficult to recover it by distillation. Further, since the solubility in various solvents is low, recovery by recrystallization is difficult. On the other hand, by converting terephthalic acid into a salt, it can be dissolved in water, and ordinary purification such as treatment with activated carbon and recrystallization is performed.

Conventionally, as a method for recovering terephthalic acid from a hydrolyzed liquid obtained by decomposing PET with an aqueous alkali metal hydroxide solution, a method is known in which the hydrolyzed liquid is concentrated to precipitate an alkali metal salt of terephthalic acid ( Japanese Patent Sho 52
-33622).

However, this method requires 2 or more equivalents of alkali metal hydroxide of the terephthalic acid usually produced. Further, it is necessary to neutralize the recovered alkali metal terephthalic acid salt by adding 2 equivalents or more of acid in order to further convert it into free terephthalic acid. And in this case, since neutralization was conventionally performed using a strong acid such as sulfuric acid, a neutral alkali metal salt is generated, and this alkali metal salt cannot be reused,
It cannot be said that the method is suitable for industrial implementation in terms of cost.

Also known is a method in which an aqueous sodium terephthalate solution is neutralized with pressurized carbon dioxide, terephthalic acid is deposited as crystals and recovered, and the aqueous sodium carbonate solution produced as a by-product is used as an absorbent for flue gas desulfurization. (Japanese Patent Publication No. 60-52141).

In this method, however, the aqueous sodium carbonate solution produced as a by-product can be reused, but since it is used for treating the exhaust gas of the factory, sodium carbonate will be wasted if flue gas desulfurization is not carried out. It is not an industrially advantageous method. When the aqueous solution of sodium terephthalate is neutralized as it is with carbon dioxide to recover terephthalic acid, a dye insoluble in water mixed from the polyester resin may be mixed with terephthalic acid and the terephthalic acid may be colored.

[0007]

In order to solve the above problems, an object of the present invention is to propose a method for recovering terephthalic acid which can effectively utilize alkali and can recover terephthalic acid with little coloring at low cost. That is.

[0008]

The present invention is the following method for recovering terephthalic acid. (1) In a method of recovering terephthalic acid from a polyester resin containing terephthalic acid and a polyhydric alcohol as a monomer by hydrolysis, the polyester resin is hydrolyzed in the presence of an alkali, and the hydrolyzed liquid is present in the presence of a polyhydric alcohol. Terephthalic acid, characterized by neutralizing underneath with carbon dioxide to precipitate free terephthalic acid as crystals and circulating part or all of the carbonate or bicarbonate in the mother liquor as alkali in the hydrolysis process Recovery method. (2) The polyhydric alcohol contained in the mother liquor is circulated in the neutralization step, and neutralized with carbon dioxide to precipitate terephthalic acid in the presence of the polyhydric alcohol produced by hydrolysis and the circulated polyhydric alcohol. A method for recovering terephthalic acid according to the above (1), characterized in that (3) The method for recovering terephthalic acid according to the above (1) or (2), wherein neutralization with carbon dioxide is performed in the presence of a polyhydric alcohol in an amount of 1.1 mole times or more of terephthalic acid. (4) The method for recovering terephthalic acid according to any one of (1) to (3) above, wherein the polyester resin is polyethylene terephthalate. (5) The method for recovering terephthalic acid according to any one of (1) to (4) above, wherein the alkali is a hydroxide, carbonate or bicarbonate of an alkali metal or ammonium. (6) Neutralization with carbon dioxide, 10-500 kg / c
The method for recovering terephthalic acid according to any one of (1) to (5) above, which is carried out at a temperature of 0 to 100 ° C. under a carbon dioxide pressure of m ² · G.

The polyester resin to which the present invention is applied includes, in addition to PET, polyester resins containing terephthalic acid and polyhydric alcohol as monomers, such as polybutylene terephthalate and polyarylate. Further, in this polyester resin, the polybasic acid may not be all terephthalic acid, and may include, for example, isophthalic acid. When the polybasic acid is contained in this way, it may also be recovered, but these may be separated or can be used as the next production raw material in a mixed state.

Hydrolysis of the polyester resin is carried out by reacting the polyester resin with water in the presence of an alkali under heating and pressure. The heating temperature is preferably 150 to 300 ° C., and the pressure is the pressure required for maintaining water in the liquid state at the heating temperature. The pressurization can be performed with nitrogen or another inert gas, but when pressurizing with carbon dioxide, carbon dioxide liberated from the carbonate or bicarbonate used as an alkali can be circulated and used.

The alkali used for hydrolysis is L
Examples thereof include alkali metals such as i, Na, and K, alkaline earth metals, hydroxides such as ammonium, carbonates or bicarbonates, amines, etc., and hydroxides, carbonates, or bicarbonates of alkali metals or ammonium. Salt is preferred. In the present invention, as at least a part of such alkali, as will be described later, the carbonate or bicarbonate in the mother liquor produced when terephthalic acid is neutralized with carbon dioxide to precipitate terephthalic acid is circulated. To do. In this case, an alkali metal hydroxide may be added to the circulating carbonate or bicarbonate. The amount of alkali used for hydrolysis is 0.1 to 10 equivalents, preferably 1 to 7 equivalents, based on the ester groups in the polyester resin.

By the above hydrolysis reaction, the polyester resin is hydrolyzed into terephthalic acid salt or other polybasic acid salt and ethylene glycol or other polyhydric alcohol,
A hydrolyzed solution in which these are dissolved is obtained. Further, when the polyester resin contains a dye, a hydrolyzed solution in which these are dissolved or dispersed is obtained.

The hydrolyzed liquid is in the presence of a polyhydric alcohol,
Neutralize with carbon dioxide to precipitate free terephthalic acid as crystals. Since terephthalic acid salt is dissolved in the hydrolyzed liquid and pigments and other impurities are also contained, it is preferable to perform ordinary purification such as recrystallization and treatment with activated carbon before neutralization with carbon dioxide. When neutralizing terephthalate, terephthalic acid is a stronger acid than carbonic acid, and it is difficult to neutralize terephthalate under atmospheric pressure, so neutralize under pressure.

By allowing the polyhydric alcohol to be present during the neutralization, the dye contained in the polyester resin remains in the polyhydric alcohol to prevent precipitation and to prevent coloring of the recovered terephthalic acid. it can. Here, the polyhydric alcohol can be used as it is without separating the polyhydric alcohol produced by hydrolysis. However, the more polyhydric alcohol, the greater the effect of preventing the precipitation of the pigment, and thus the polyhydric alcohol in the mother liquor described later. It is preferable to add the alcohol in a circulating manner. It is desirable that the amount of polyhydric alcohol to be present is 1.1 mol times or more, preferably 1.5 to 20 mol times, and more preferably 1.5 to 5 mol times, relative to terephthalic acid.

As neutralization conditions, the pressure of carbon dioxide is 1
0 to 500 kg / cm ² · G, preferably 20 to 100
kg / cm ² · G, temperature 0 to 100 ° C, preferably 2
The temperature is preferably 0 to 50 ° C.

By neutralizing the terephthalic acid salt in this manner, terephthalic acid is liberated and precipitated as colorless crystals containing no dye. The precipitated terephthalic acid can be recovered by solid-liquid separation. As a solid-liquid separation method, any method such as centrifugation or filtration can be adopted. The terephthalic acid thus recovered can be used as a raw material for producing polyethylene terephthalate and other polyester resins.

The mother liquor from which terephthalic acid has been separated may be directly recycled to the hydrolysis step, but polyhydric alcohols such as ethylene glycol can be recovered by distillation and used as a raw material for producing polyester resins such as PET. it can.

By distilling the mother liquor, polyhydric alcohol and water are distilled out, and carbonate or bicarbonate is concentrated. Some or all of these carbonates or bicarbonates are circulated in the hydrolysis step and used as alkalis when the polyester resin is hydrolyzed. As a result, alkali can be effectively used, and alkali is hardly consumed. When a large amount of dyes and other impurities are contained, it is preferable to recover carbonates or bicarbonates from the mother liquor and circulate them. However, when there are few dyes, the mother liquor or its concentrated liquid may be circulated as it is. . In either case, when the alkali is lost, it is preferable to replenish it with a small amount of alkali metal such as alkali metal hydroxide.

When the polyhydric alcohol is circulated, the recovered polyhydric alcohol may be circulated and used, or may be circulated in the state of mother liquor or concentrated liquid. In this case, these may be directly recycled to the hydrolysis step, or may be recycled to a neutralization step independently provided after the hydrolysis step. At this time, the terephthalate salt remaining in the concentrated liquid without being recovered is also circulated at the same time.

As described above, in the method of the present invention, when the polyester resin is hydrolyzed and neutralized, the by-produced carbonate or bicarbonate is circulated and used as an alkali, so that the alkali is hardly consumed. Therefore, it is a low cost and industrially advantageous method for recovering terephthalic acid. Further, as described above, by performing the hydrolysis under the pressure of carbon dioxide,
Carbon dioxide can also be recycled. Then, by neutralizing with carbon dioxide in the presence of a polyhydric alcohol, terephthalic acid with little coloring can be recovered.

[0021]

As described above, according to the present invention, the polyester resin is hydrolyzed in the presence of alkali, and the hydrolyzed liquid is neutralized with carbon dioxide in the presence of polyhydric alcohol to precipitate terephthalic acid. Since the carbonate or bicarbonate produced as a by-product is recycled as an alkali when the polyester resin is hydrolyzed, terephthalic acid with little coloring is effectively used from the polyester resin by effectively utilizing the alkali. Can be collected at low cost.

[0022]

The present invention will be described below with reference to examples.
The present invention is not limited to these examples. In addition,% is weight%.

EXAMPLE 1 0.1 kg of a green colored PET bottle crushed to 1 cm or less and an aqueous solution containing 5% sodium hydrogen carbonate, 1% sodium hydroxide and 1.6% ethylene glycol (PET). (5 kg of water and sodium hydroxide was added to the mother liquor obtained by neutralizing sodium terephthalate with carbon dioxide and recovering terephthalic acid as crystals after hydrolysis) was charged into an autoclave and charged with nitrogen at 10 k
After pressurizing to g / cm ² · G, PET was hydrolyzed at a reaction temperature of 250 ° C. for 1 hour. Next, when it was cooled to room temperature and the product was taken out, the product was a uniform and pale yellow aqueous solution. The amount of terephthalic acid determined by liquid chromatography was 82 g. When ethylene glycol was quantified by gas chromatography, 1
It was 10 g. At this time, the molar ratio of ethylene glycol / terephthalic acid is 3.6.

The above aqueous solution was charged into the autoclave again, and 10 kg of carbon dioxide was added. The pressure at this time is 33
It was kg / cm ² · G. The crystals formed were filtered under pressure to obtain 21 g of colorless terephthalic acid. The visible absorption of this terephthalic acid was measured to be 6
It has absorption at 70 nm and its gram extinction coefficient is 0.01
It was 8. That is, colorless terephthalic acid was recovered.

A part (1 kg) of the mother liquor was taken out and distilled under reduced pressure. As a result, water and ethylene glycol were distilled off, and a mixture of sodium salt of terephthalic acid and sodium hydrogen carbonate (140 g) was obtained as a residue. This was added to 4.8 kg of the mother liquor and 0.1 kg of a PET bottle crushed to 1 cm or less, and 10 kg / cm ^{2 of} nitrogen was added.
-After pressurizing to G, it hydrolyzed at 250 degreeC for 1 hour, and the uniform pale yellow liquid containing sodium terephthalate was obtained.

Example 2 Example 2 was repeated except that the concentration of ethylene glycol in the aqueous sodium hydrogen carbonate solution used for the hydrolysis of PET was 0.5%. The molar ratio of ethylene glycol / terephthalic acid at the time of acid precipitation was 1.8, and the obtained 670n
The Gram extinction coefficient of m was 0.022.

Comparative Example 1 0.1 kg of a green colored PET bottle crushed to 1 cm or less, 5% sodium hydrogen carbonate and 1%
5 kg of an aqueous solution containing sodium hydroxide was charged into an autoclave, pressurized with nitrogen to 10 kg / cm ² · G, and then PET was hydrolyzed at a reaction temperature of 250 ° C. for 1 hour.
Then, water and ethylene glycol were distilled off under reduced pressure to obtain 412 g of a solid containing sodium terephthalate (81 g as terephthalic acid). This was dissolved in water, charged into an autoclave, pressurized with carbon dioxide to 28 kg / cm ² · G, and stirred at 40 ° C. for 1 hour.

The produced terephthalic acid was collected by filtration and found to have a weight of 22 g. The crystals are pale green, 67
The gram extinction coefficient at 0 nm was 0.052, which was higher than that of the example.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Noriyuki Watanabe 6-1-2 Waki, Waki-cho, Kuga-gun, Yamaguchi Prefecture Mitsui Petrochemical Industry Co., Ltd.

Claims (6)

[Claims] 1. A method for recovering terephthalic acid from a polyester resin containing terephthalic acid and a polyhydric alcohol as monomers by hydrolysis, wherein the polyester resin is hydrolyzed in the presence of an alkali, and the hydrolyzed liquid is a polyhydric alcohol. In the presence of the above, it is characterized by neutralizing with carbon dioxide to precipitate free terephthalic acid as crystals, and circulating part or all of the carbonate or bicarbonate in the mother liquor as an alkali in the hydrolysis step. Recovery method of terephthalic acid. 2. The polyhydric alcohol contained in the mother liquor is circulated in the neutralization step and neutralized with carbon dioxide in the presence of the polyhydric alcohol produced by hydrolysis and the circulated polyhydric alcohol to precipitate terephthalic acid. The method for recovering terephthalic acid according to claim 1, wherein 3. The method for recovering terephthalic acid according to claim 1, wherein the neutralization with carbon dioxide is carried out in the presence of 1.1 mol times or more of polyhydric alcohol with respect to terephthalic acid. 4. The method for recovering terephthalic acid according to claim 1, wherein the polyester resin is polyethylene terephthalate. 5. The alkali is an alkali metal or ammonium hydroxide, carbonate or bicarbonate.
5. The method for recovering terephthalic acid according to any one of 1 to 4. 6. Neutralization with carbon dioxide is performed in the range of 10 to 500.
The method for recovering terephthalic acid according to claim 1, wherein the method is carried out at a temperature of 0 to 100 ° C. under a carbon dioxide pressure of kg / cm ² · G.