Organic compounds -- part of the class 532-570 series – Organic compounds – Oxygen containing
Reexamination Certificate
2000-06-22
2003-11-25
Shippen, Michael L. (Department: 1621)
Organic compounds -- part of the class 532-570 series
Organic compounds
Oxygen containing
Reexamination Certificate
active
06653513
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a process for producing bisphenol A having a stable color tone.
BACKGROUND ART
Bisphenol A [2,2-bis(4-hydroxyphenyl)propane] has been known to be an important compound as a starting material of engineering plastics such as a polycarbonate resin and a polyarylate resin and an epoxy resin, and the demand for it has been increased in recent years. Especially when bisphenol A is used as a starting material of a polycarbonate resin, it is required that its color tone is stable at a high temperature and coloration does not occur.
It has been known that bisphenol A is produced by condensing excess phenol and acetone in the presence of an acid catalyst and as required, a cocatalyst of a sulfur compound such as an alkyl mercaptan. In this method, various attempts have been made so far to improve the color tone of bisphenol A.
For example, JP-B-40-19333 discloses a method in which bisphenol A having an improved color tone is obtained by adding oxalic acid or citric acid to a mixture of phenol, water and bisphenol A, and then subjecting the resulting mixture to distillation. Further, JP-B-47-43937 discloses a method in which thioglycolic acid, glycolic acid or polyphosphoric acid is added. JP-A-2-231444 discloses a method in which lactic acid, malic acid or glyceric acid is added. Still further, JP-B7-78030describes a method in which an aliphatic carboxylic acid is added, and phenol is removed from a phenol adduct in vacuo by evaporation. However, these methods were all intricate requiring the addition of the third substance. Further, the effect of improving the color tone was still unsatisfactory.
Under these circumstances, the present invention has been made. It is an object of the present invention to provide a process for producing bisphenol A having a stable color tone at a high temperature and free from coloration.
DISCLOSURE OF THE INVENTION
The present inventors have assiduously conducted investigations, and have consequently found that when phenol is reacted with acetone using an acid ion-exchange resin as a catalyst and analkyl mercaptan as a cocatalyst, a concentration of an organosulfur compound in a crystallization starting material when recovering an adduct of bisphenol A and phenol as a crystal from a concentrate of the reaction mixture influences the color tone of bisphenol A at a high temperature. This finding has led to the completion of the present invention.
That is, the present invention is to provide a process for producing bisphenol A, which comprises reacting phenol with acetone in the presence of an acid ion-exchange resin as a catalyst and an alkyl mercaptan as a cocatalyst, wherein a concentration of an organosulfur compound in a crystallization starting material obtained by conducting the reaction under conditions that a reaction temperature is between 60 and 100° C., a phenol to acetone molar ratio is between 6 and 13 and an acetone to alkyl mercaptan molar ratio is between 13 and 25, distilling off unreacted acetone, by-product water and the alkyl mercaptan as the cocatalyst and further distilling off excess phenol is maintained at 200 weight ppm or less.
BEST MODE FOR CARRYING OUT THE INVENTION
The present invention is described in detail below.
In the present invention, bisphenol A is produced by reacting excess phenol with acetone in the presence of an acid ion-exchange resin as a catalyst and an alkyl mercaptan as a cocatalyst.
As the acid ion-exchange resin, for example, a sulfonic acid cation-exchange resin is preferably used. Specific examples thereof include a sulfonated styrene divinylbenzene copolymer, a sulfonated crosslinked styrene polymer, a phenol formaldehyde-sulfonic acid resin and a benzene formaldehyde-sulfonic acid resin. These may be used either singly or in combination.
As the alkyl mercaptan used as the cocatalyst, a mercaptan containing an alkyl group having from 1 to 10 carbon atoms is preferable. Specific examples thereof include methyl mercaptan, ethyl mercaptan, propyl mercaptan, octyl mercaptan and cyclohexyl mercaptan. Of these, ethyl mercaptan is especially preferable. These alkyl mercaptans may be used either singly or in combination.
The reaction method is not particularly limited. A fixed bed continuous reaction or batchwise reaction is preferable. The fixed bed continuous reaction is especially preferable. When the fixed bed continuous reaction is carried out, a liquid hourly space velocity (LHSV) is usually between 0.2 and 30 hr
−1
, preferably between 0.5 and 6 hr
−1
. When LHSV is less than 0.2hr
−1
, the productivity of bisphenol A is sometimes decreased. When it is more than 30 hr
−1
, the reactivity is sometimes decreased.
The reaction temperature has to be between 60 and 100° C. When it is less than 60° C., a phenol phase is sometimes solidified. Further, when it exceeds 100° C., deterioration of the acid ion-exchange resin is increased undesirably. The range of from 65 to 95° C. is preferable.
The phenol to acetone molar ratio has to be between 6 and 13. When it is less than 6, the concentration of the organosulfur compound in the crystallization starting material to be described later exceeds 200 weight ppm. Further, when it exceeds 13, the reaction rate is decreased, and the amount of phenol recovered is increased undesirably. The range of from 8 to 12 is preferable.
The reaction has to be conducted under a condition that the acetone to alkyl mercaptan molar ratio is between 13 and 25. When it is less than
13
, the concentration of the organosulfur compound in the crystallization starting material to be described later exceeds 200 weight ppm. Further, when it exceeds 25, the reaction rate is decreased, and the reaction selectivity is decreased undesirably. The range of from 17 to 22 is preferable.
The reaction mixture contains, other than bisphenol A, by-products such as unreacted phenol, unreacted acetone, a catalyst, by-product water, an alkylmercaptan, anorganosulfur compound other than the alkyl mercaptan and a coloring matter. Accordingly, the post-treatment is required to produce bisphenol A to comply with the object of the present invention.
Next, with respect to the reaction mixture, the catalyst is removed by separation through filtration in the batchwise reaction. The residual liquid components, namely, unreacted acetone, by-product water and the alkyl mercaptan are removed by vacuum distillation. When a distillation column is used, unreacted acetone, water and the alkyl mercaptan are removed from the top of the column, and the liquid mixture containing bisphenol A and phenol is obtained from the bottom of the column.
When phenol and acetone are reacted in the fixed bed continuous reaction, removal of the catalyst is unnecessary. The liquid components discharged from the reaction vessel are treated in the above-mentioned manner.
The vacuum distillation can be conducted at a temperature of from 70 to 180° C. and a pressure of from 50 to 600 torr. When unreacted acetone, by-product water and the alkyl mercaptan are removed using the distillation column, unreacted phenol is formed azeotropically, and a part thereof is removed outside the system from the top of the column.
Unreacted acetone, by-product water and the alkyl mercaptan as the cocatalyst are distilled off from the reaction mixture in this manner.
From the solution obtained by removing these substances from the reaction mixture, phenol is further distilled off through vacuum distillation to concentrate bisphenol A. This concentrated residue becomes a crystallization starting material in the next step.
The concentration conditions are not particularly limited. The concentration is usually conducted at a temperature of from 100 to 170° C. and a pressure of from 40 to 500 torr. When the temperature is lower than 100° C., a high degree of vacuum is required. When it is higher than 170° C., an extra step of removal of heat is required in the subsequent crystallization step. Further, the concentration of bisphenol A in the concentrated residue is preferably between 20 a
Idemitsu Petrochemical Co. Ltd.
Shippen Michael L.
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