JP2006045402A - Method for producing polycarbonate - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an effective washing method for polycarbonate solution in an organic solvent and process unit/piping in producing polycarbonate by an interfacial polycondensation method, and to provide an effective sealing method for the system, especially for rotating machine. <P>SOLUTION: The method for producing polycarbonate uses of an aqueous solution of organic solvent obtained by dissolving the organic solvent which is used in the polymerization, into water, in production of the polycarbonate by the interfacial polycondensation method, wherein the solution of the organic solvent is used as an aqueous washing liquid for washing the organic solution of the polycarbonate after polymerization and/or process unit/piping and an aqueous sealing liquid for the rotating machine. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for producing a polycarbonate, and more specifically, it is possible to efficiently and easily produce a polycarbonate by preventing solid phase precipitation when treating an organic solvent solution of the polycarbonate produced by an interfacial condensation polymerization method. It is about how to do.

As a method for producing polycarbonate, an interfacial polymerization method using a halogenated hydrocarbon such as methylene chloride as a solvent is widely practiced.
In the crude polycarbonate solution produced by this method, unreacted monomers, impurities generated during the polymerization reaction or impurities generated for other reasons, particularly phenols, strong alkalis, ammonium salts used as catalysts, secondary salts, The product inorganic salts and their ions are included.
When these impurities remain in the polycarbonate, they cause problems such as coloring, a decrease in thermal stability, and a decrease in steam resistance.
Therefore, generally, after removing these impurities by washing with acid, alkali, and pure water, polycarbonate is recovered by various methods to obtain a product.
The equipment and pipes for treating the polycarbonate solution use methylene chloride or pure water, which is a polymerization solvent, depending on the treatment at the time of cleaning after the end of production.
Furthermore, in a dynamic machine used for the production of polycarbonate, a chlorinated solvent suitable for the polymerization reaction has high volatility, and thus a structure such as a mechanical seal is often employed. In this case, a sealing solvent is required.
In the case of an apparatus for treating a polycarbonate solution, it is common to use a solvent of the polycarbonate solution as a sealing liquid in order to prevent the polycarbonate from being precipitated or to dissolve the precipitated polycarbonate.

Conventionally, in the production of polycarbonate, in order to ensure the quality of polycarbonate, pure water is often used at the final stage for washing the polycarbonate solution (for example, Patent Document 1).
In this washing, a method of mixing a polycarbonate solution and washing water and then separating them is taken.
In the washing water used at this time, when the solvent of the polycarbonate solution is methylene chloride, since methylene chloride is dissolved in about 1.5% by mass of water, a part of the solvent of the polycarbonate solution is transferred to the aqueous phase during washing. Polycarbonate may precipitate, resulting in a decrease in cleaning efficiency and equipment trouble.
In addition, the equipment and piping for treating the polycarbonate solution are often washed with pure water to remove the polycarbonate solution and impurities, but at this time, the polycarbonate is deposited on the equipment and the piping for the above reasons. In some cases, the cleaning efficiency may decrease.
A polycarbonate solvent is generally used as a sealing liquid for an apparatus for treating a polycarbonate solution. However, the solvent is generally expensive, and development of an inexpensive sealing liquid is desired.

Japanese Patent Publication No. 6-53793

  An object of the present invention is to develop an effective cleaning method for polycarbonate organic solvent solution and process equipment / piping, and equipment, particularly an effective sealing method for rotating equipment, in producing polycarbonate by interfacial condensation polymerization. Is.

  As a result of diligent study, the inventors of the present invention have prepared an organic solvent used for polymerization by dissolving the organic solvent used in the polymerization in water to produce an organic solvent-dissolved water. It has been found that the above object can be achieved by using it as a liquid and / or an aqueous sealing liquid, and the present invention has been completed.

That is, the present invention
1. In the production of polycarbonate by the interfacial condensation polymerization method, the organic solvent used for polymerization is dissolved in water to form organic solvent-dissolved water, and the organic solvent-dissolved water is used as the polycarbonate organic solvent solution after polymerization and / or process equipment / piping. A method for producing a polycarbonate, characterized by being used as an aqueous cleaning solution of
2. In the production of polycarbonate by the interfacial condensation polymerization method, an organic solvent used for polymerization is dissolved in water to form organic solvent-dissolved water, and the organic solvent-dissolved water is used as an aqueous sealing liquid for a rotating device. Production method,
3. The method for producing a polycarbonate according to the above 1 or 2, wherein the solvent used for the polymerization is a halogenated hydrocarbon or a mixture thereof,
4). The method for producing a polycarbonate according to the above item 3, wherein the halogenated hydrocarbon is methylene chloride,
5. The organic solvent-dissolved water relates to the method for producing a polycarbonate as described in 1 to 4 above, wherein methylene chloride is dissolved in water in a saturated amount of 50 to 100% by mass.

By using organic solvent-dissolved water in which an organic solvent used for polycarbonate production is dissolved in water as a polycarbonate organic solvent solution after polymerization or an aqueous cleaning solution for process equipment and piping, the cleaning efficiency is excellent and there are few impurities. Efficient production of high-quality polycarbonate is possible, and troubles in equipment and piping due to precipitation of solid phase are reduced.
Moreover, by using the organic solvent-dissolved water as an aqueous sealing liquid for a rotating device, polycarbonate can be produced at low cost without using an expensive sealing solvent.

  Hereinafter, the present invention will be described in detail.

The polycarbonate organic solvent solution in the present invention is not particularly limited, and examples thereof include an organic solvent solution in which a polycarbonate oligomer during the interfacial polycondensation reaction or a polycarbonate after completion of the interfacial polycondensation reaction is dissolved.
The interfacial polycondensation reaction includes a commonly practiced method, for example, a method of reacting phosgene with an aqueous alkali salt solution of a dihydroxy compound in the presence of an organic solvent.
Examples of the organic solvent used for the polycondensation reaction include halogenated hydrocarbons or a mixture thereof.
Specifically, a mixture containing 60% by mass or more of a halogenated hydrocarbon such as methylene chloride, dichlorobenzene, chloroform, tetrachloroethane, trichloroethane, dichloroethane, 1,2-dichloroethylene is preferable, and methylene chloride is particularly preferable.
Dihydroxy compounds used for the production of polycarbonate include 2,2-bis (4-hydroxyphenyl) propane (also known as bisphenol A), bis (4-hydroxyphenyl) methane, and 1,1-bis (4-hydroxyphenyl). Ethane, bis (4-hydroxyphenyl) alkane such as 1,1-bis (4-hydroxyphenyl) butane, bis (4-hydroxyphenyl) sulfone, bis (4-hydroxyphenyl) sulfide, bis (4-hydroxyphenyl) Examples thereof include sulfoxide and the like, or halogen-substituted dihydroxy compounds having a halogen atom such as chlorine or bromine in the hydroxybenzene nucleus.

Examples of the alkali for forming an alkali salt of a dihydroxy compound include strong base hydroxides such as sodium hydroxide and potassium hydroxide.
The above-mentioned dihydroxy compound is reacted with phosgene in an alkaline salt solution, and the resulting polycarbonate is a phloroglucin as a branching agent in addition to a normal polycarbonate obtained by the reaction of a dihydroxy compound mainly composed of bisphenol A and phosgene. Trimellitic acid, 1,1,1-tris (4-hydroxyphenyl) ethane, 1- [α-methyl-α- (4′-hydroxyphenyl) ethyl] -4- [α ′, α ″ -bis ( 4 "-hydroxyphenyl) ethyl] benzene, etc., and branched polycarbonate, halogen-containing polycarbonate containing bromine, chlorine, etc., polycarbonate copolymerized with two or more dihydroxy compounds, copolymerized with siloxane Special polycarbonates such as polycarbonate may be used.
Moreover, n-butylphenol, t-butylphenol, n-benzylphenol, n-hexylphenol, cyclohexylphenol, phenylphenol, nonylphenol, naphthylphenol, cumylphenol, di-t-butylphenol as a terminal terminator if necessary Polycarbonate using dicumylphenol or the like may be used.
The molecular weight of the polycarbonate in the polycarbonate organic solvent solution of the present invention is not particularly limited as long as it can be handled as a solution. Usually, the viscosity average molecular weight (hereinafter referred to as Mv) is 1,000 to 100,000, Preferably it is 2,000-50,000.
Moreover, the density | concentration of the polycarbonate in an organic-solvent solution is 6-30 mass% normally, Preferably it is 10-25 mass%.
When the concentration of the polycarbonate is 30% by mass or less, since the organic solvent solution is a uniform solution, handling is easy.
When the concentration of the polycarbonate is 6% by mass or more, the amount of the polycarbonate organic solvent solution is appropriate, and the economy is high.

The aqueous cleaning liquid of the present invention is an organic solvent-dissolved water in which an organic solvent used in the interfacial condensation polymerization method is dissolved in water, and the amount of the organic solvent dissolved is 5 to 100% by mass of the saturated dissolution amount, Preferably it is 100 mass%.
The organic solvent may be the same as the organic solvent usually used for the interfacial polycondensation method of polycarbonate, and generally includes a halogenated hydrocarbon or a mixture thereof.
Specifically, a mixture containing 60% by mass or more of a chlorinated hydrocarbon such as methylene chloride, dichlorobenzene, chloroform, tetrachloroethane, trichloroethane, dichloroethane, and 1,2-dichloroethylene is preferable. Dichloroethylene and the like are preferable.
Further, the organic solvent may be mixed with a poor solvent such as a saturated hydrocarbon or an unsaturated hydrocarbon in an amount which does not cause a problem when used as a solvent.
Examples of the method for preparing the aqueous cleaning liquid include a method in which an organic solvent and water are mixed and separated by a known method.
There is no restriction | limiting in particular as a method of mixing an organic solvent and water, There exist the method of mixing in a pipeline, the method of using a stirring tank, the method of using a static mixer.
The method for separating the aqueous cleaning liquid after mixing the organic solvent and water is not particularly limited and includes a stationary separation method and a centrifugal separation method.
Since the amount of organic solvent necessary for dissolving 50 to 100% by mass of the organic solvent in water varies depending on the type of organic solvent used and the temperature, etc., the solubility should be confirmed practically by gas chromatographic analysis or the like. .
The amount of the organic solvent necessary for saturated dissolution in water reaches saturation dissolution by the above method unless the dissolution rate of the organic solvent in water is particularly slow.
Practically, after the above operation, the solubility may be measured and compared with literature values or the like.

Examples of the aqueous cleaning liquid of the present invention include dilute aqueous alkaline cleaning liquids, pure aqueous cleaning liquids, diluted hydrochloric acid aqueous cleaning liquids, dilute sulfuric acid aqueous cleaning liquids, and the like.
Usually, impurities in polycarbonate organic solvent are dihydroxy compounds as unreacted monomers, sodium hydroxide as strong alkali, tertiary or quaternary ammonium salts used as catalysts, by-products from polymerization. Sodium chloride and the like are conceivable.
Therefore, in general, a dilute alkaline aqueous cleaning solution is used for the purpose of removing the alkali salt of the unreacted hydroxy compound, and a dilute acid aqueous cleaning solution is used for the purpose of neutralization and removal of the catalyst. A pure aqueous cleaning solution can be used for the purpose of removing the remaining acid and salt using the solution.

The use temperature of the aqueous cleaning liquid of the present invention is usually 0 to 100 ° C, preferably 0 to 90 ° C, more preferably 5 to 60 ° C.
Usually, the low temperature is not a big problem, but the water begins to freeze at 0 ° C. or lower, so it cannot be used for the above purpose.
Moreover, since it will volatilize from the water once the organic solvent melt | dissolved at high temperature, an effect may become low.

The present invention relates to a method of washing a polycarbonate organic solvent solution containing impurities using an aqueous washing liquid in the production of polycarbonate by an interfacial condensation polymerization method. (1) Mixing the polycarbonate organic solvent solution and the aqueous washing liquid. And (2) a separation step for separating the polycarbonate organic solvent solution phase and the aqueous washing liquid phase into the aqueous washing liquid phase. Cleaning is performed efficiently by preventing phase precipitation.
As described above, the washing of the polycarbonate organic solvent solution usually comprises two steps of mixing and separation.
In the mixing step, the polycarbonate organic solvent solution containing impurities and the aqueous cleaning liquid are mixed, and the impurities in the polycarbonate organic solvent solution are transferred into the aqueous cleaning liquid phase.
As the mixing means, a device used for liquid-liquid stirring and mixing can be used, but a device that has a short residence time and is compact and can provide sufficient stirring power is preferable.
As such an apparatus, a line mixer, an orifice mixer and a static mixer are suitable.
The mixed liquid obtained as described above is separated into a polycarbonate organic solvent phase and an aqueous washing liquid phase in the separation step.
As this separation method, separation can usually be performed using a stationary separation tank, a centrifugal separator, a tower separator, or the like, and a method using a coalescer is also effective.
If an aqueous cleaning solution in which an organic solvent is not dissolved is used, depending on the equipment used and the washing conditions, the polycarbonate inside the equipment will precipitate, block the piping, and adhere to the equipment for efficiency of washing and separation. May decrease.
Such a phenomenon is presumed to be due to the fact that a part of the organic solvent in the polycarbonate organic solvent solution moves to the aqueous cleaning liquid side, so that the polycarbonate concentration in the organic solvent solution increases and precipitates.
As a method for solving these problems, the aqueous cleaning liquid can be used as described above.
In particular, if the organic solvent is water in which the organic solvent is saturated and dissolved, the polycarbonate inside the device does not precipitate, and the piping is not blocked or attached to the device, so that the efficiency of cleaning and separation does not decrease.

In addition, the present invention is a process for washing process equipment and piping treated with a polycarbonate organic solvent solution containing impurities using an aqueous cleaning solution in the production of polycarbonate by an interfacial condensation polymerization method. Cleaning is performed efficiently by preventing phase precipitation.
Equipment and piping used for polycarbonate production must be cleaned regularly or irregularly for maintenance, production type switching, or other reasons.
In the case of equipment and piping treated with a polycarbonate organic solvent solution, some polycarbonate solution remains in the equipment and adheres to the wall surface, etc., even if the liquid is carefully removed.
Therefore, when such equipment and piping are washed with water for cost reduction, particularly when the organic solvent is a chlorinated solvent, part or all of the solvent moves to the water side due to its characteristics, and the polycarbonate concentration is reduced. In many cases, the polycarbonate is precipitated and the polycarbonate is precipitated. As a result, the washing is not sufficient, or the deposited polycarbonate is mixed in the washing waste water, and it becomes difficult to treat the waste water.
In addition, in order to avoid such a problem, it is possible to perform equipment cleaning using an organic solvent, but in this case, a large amount of an expensive organic solvent is used, and a large amount of an organic solvent containing a small amount of polycarbonate is used. It is not economical to recycle.
Furthermore, when cleaning process equipment and piping, it is common to use organic solvents that are used in the process. However, halogenated hydrocarbons that are preferably used in polycarbonate production are highly volatile. There are many cases where collection costs are required.
As a method for solving these problems, the aqueous cleaning liquid can be used as described above.
In particular, water in which the organic solvent is saturated and dissolved can be washed without precipitation of the polycarbonate, and the polycarbonate does not precipitate in the washing waste water and does not make wastewater treatment difficult.

Furthermore, the present invention provides an aqueous seal for a rotary machine that treats an organic solvent solution containing impurities with an organic solvent-dissolved water obtained by dissolving an organic solvent used for polymerization in water when producing a polycarbonate by an interfacial condensation polymerization method. This is an efficient method for producing polycarbonate, which is used as a liquid, thereby reducing the amount of organic solvent used and greatly reducing the problem of corrosion.
In the production of polycarbonate, it is essential to use a rotating device such as a vessel having a stirrer or a pump.
In such devices, various seals are used so that the fluid on the process side does not flow out.
Among the seal structures, what is usually called a mechanical seal is reliable in sealing performance, although the seal structure is complicated.
Therefore, a chlorinated solvent typified by methylene chloride, which is particularly suitable for the interfacial condensation polymerization method, is highly volatile, but is often used as a sealing liquid.
When processing polycarbonate organic solvent solution (fluid), if polycarbonate is deposited at the seal part, troubles such as poor sealing and seizure of the rotating part may occur. Therefore, a solvent that can normally dissolve polycarbonate is used as the seal liquid. The same solvent as the polycarbonate organic solvent solution is used so that it does not cause a problem even if it is used and mixed into the process side.
In particular, when the sealing liquid is a chlorinated solvent typified by methylene chloride, the volatility is high, so that the loss is large, and a problem peculiar to the chlorinated solvent is that equipment corrosion is unavoidable.
As a method for solving these problems, the aqueous cleaning liquid can be used as described above.
In particular, when the organic solvent is saturated and dissolved, the loss amount as the organic solvent is greatly reduced, and since a large amount of water is present, the problem of corrosion is greatly reduced.

  EXAMPLES Next, although an Example demonstrates this invention still in detail, this invention is not limited at all by these examples.

Example 1
Idemitsu Petrochemical Co., Ltd. Toughlon A2200 was used as the polycarbonate and dissolved in industrial methylene chloride manufactured by Tokuyama Co., Ltd. to obtain a polycarbonate solution having a concentration of 10.5% by mass.
Next, by pouring pure water and methylene chloride into the pipe at a mass ratio of 20: 1, mixing them in the pipe, and leaving it in a static separation tank for 1 hour, then separating the water layer and the oil layer, An aqueous washing solution in which methylene chloride was saturatedly dissolved was obtained.
The methylene chloride concentration in the obtained aqueous solution was measured by gas chromatography.
Gas chromatograph: manufactured by Hewlett Packard; 5890 series II
Column: HP-WAX (30 m × 0.53 mm, film thickness: 1.0 μm)
As a result of gas chromatographic measurement, the methylene chloride concentration in the aqueous cleaning solution was 1.2% by mass at 20 ° C., and it was confirmed that methylene chloride was saturated and dissolved.
The polycarbonate solution was washed with the aqueous cleaning solution at 20 ° C. and a 20% by volume aqueous phase ratio as described below.
That is, a polycarbonate solution was supplied at a supply rate of 200 liters / hr, and an aqueous solution was supplied at a supply rate of 50 liters / hr. The diameter of the turbine blade is 42.5 mm, the diameter of the second turbine blade is 48.0 mm, the rotational speed is 3,000 rpm, and the power number at the time of power calculation is the first turbine Np = 1.4 and the second turbine Np (power number) = 0. 8) and stirred at a power of 0.79 kW · hr / m ³ .
The line mixer employs a mechanical seal, and methylene chloride, which is a solvent for polycarbonate, is used as the sealing liquid.
Next, the stirring liquid was guided to a stationary separation tank and separated into a polycarbonate solution phase and an aqueous washing liquid phase.
This operation was carried out continuously for 8 hours. After the operation was stopped, the solution inside the device was drained, and as a result of observing the device and the piping part where the polycarbonate solution and the aqueous cleaning solution were mixed, precipitation of polycarbonate was observed. It was confirmed that stable operation was possible.

Comparative Example 1
The polycarbonate solution was washed under the same conditions as in Example 1 except that pure water was used as the washing liquid.
After the operation was stopped, the solution inside the device was drained, and the piping portion where the device and the polycarbonate solution and pure water were mixed was observed. As a result, polycarbonate was deposited in the device and the pipe.
In addition, precipitation of the polycarbonate was confirmed visually.
Due to the deposition of polycarbonate in the equipment and piping, there was a concern about the occurrence of troubles due to blockage of equipment and piping during continuous operation.

Example 2
The polycarbonate solution was washed under the same conditions as in Example 1 except that the aqueous cleaning solution in which methylene chloride was saturated and dissolved in Example 1 was used as the seal solution for the mechanical seal portion of the line mixer used in Example 1. went.
Although this operation was carried out continuously for 8 hours, no precipitation of polycarbonate was observed at the contact portion between the seal liquid of the line mixer and the polycarbonate solution, and it was confirmed that stable operation was possible.
By using an aqueous cleaning liquid in which methylene chloride is saturated and dissolved as an aqueous sealing liquid from a conventional sealing liquid using methylene chloride, an inexpensive polycarbonate can be produced.

Example 3
After completion of the operation of Example 1, the polycarbonate solution was drained, and the aqueous cleaning solution of Example 1 was supplied to the line mixer at a supply rate of 50 liters / hr for the purpose of equipment cleaning for 5 minutes. The equipment could be cleaned without precipitation.

Comparative Example 2
The line mixer was washed under the same conditions as in Example 3 except that pure water was used as the washing liquid. As a result, the polycarbonate was deposited from the polycarbonate solution remaining after dehydration in the equipment, and the film was formed on the equipment. Adhesion of polycarbonate was observed.
In addition, the washed water contained polycarbonate, and there was a concern about troubles such as blockage of piping due to this polycarbonate.

Claims (5)

  In producing polycarbonate by the interfacial condensation polymerization method, an organic solvent used for polymerization is dissolved in water to form organic solvent-dissolved water, and the organic solvent-dissolved water is used as a polycarbonate organic solvent solution and / or process equipment / piping after polymerization. A method for producing a polycarbonate, characterized by being used as an aqueous cleaning liquid.   In the production of polycarbonate by the interfacial condensation polymerization method, an organic solvent used for polymerization is dissolved in water to form organic solvent-dissolved water, and the organic solvent-dissolved water is used as an aqueous sealing liquid for rotating equipment. Production method.   The method for producing a polycarbonate according to claim 1 or 2, wherein the solvent used for the polymerization is a halogenated hydrocarbon or a mixture thereof.   The method for producing a polycarbonate according to claim 3, wherein the halogenated hydrocarbon is methylene chloride. The method for producing a polycarbonate according to claim 1, wherein the organic solvent-dissolved water is obtained by dissolving 50 to 100 mass% of a saturated amount of methylene chloride in water.