Method for the preparation of lactic acid and calcium...

Organic compounds -- part of the class 532-570 series – Organic compounds – Carboxylic acids and salts thereof

Reexamination Certificate

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Reexamination Certificate

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06747173

ABSTRACT:

The present invention relates to the preparation of lactic acid and calcium sulphate.
It is known that (S)-lactic acid can be prepared by fermentation of sugars in water with the aid of microorganisms. Usually the pH of the fermentation medium is adjusted by adding calcium hydroxide, as a result of which calcium lactate is formed. The concentration of calcium lactate is approximately 275 g calcium lactate per litre or less. In order to be able to recover (S)-lactic acid in acid form from the fermentation medium, sulphuric acid, usually in concentrated form, is added with the formation of an aqueous solution of lactic acid and calcium sulphate dihydrate (CaSO
4
.2H
2
O), which is moderately soluble in water. The calcium sulphate dihydrate is separated from the aqueous solution of lactic acid by means of filtration, after which the aqueous solution of lactic acid is subjected to various subsequent steps in order ultimately to obtain pure lactic acid. The first step in the subsequent steps is often treatment with one or more ion exchangers. Examples for the purification and concentration of aqueous solutions of lactic acid are described, for example, in NL A 1 011 624, NL A 1 013 265 and NL A 1 013 682. It is, of course, also known that (R)-lactic acid can be prepared and purified in the manner described above.
The calcium sulphate that is obtained in the manner described above is mainly in the form of calcium sulphate dihydrate, which has the formula CaSO
4
.2H
2
O. In this description this compound is referred to as calcium sulphate dihydrate, in which context, however, this term must not be interpreted in such a restricted manner that it covers only pure CaSO
4
.2H
2
O. After all, it will be clear to those skilled in the art that other forms of calcium sulphate can be present.
Calcium sulphate dihydrate is used for various purposes, for example as a building material. A disadvantage of calcium sulphate dihydrate that is obtained according to the method described above is that it contains a large amount of free water. The free water content is as a rule approximately 25-35% by mass. Transport of this calcium sulphate dihydrate to other locations is therefore economically unattractive, in particular because appreciable quantities of water are transported. Another disadvantage of this calcium sulphate dihydrate is that it has a broad particle size distribution, is relatively highly coloured and contains a relatively large amount of impurities, which is disadvantageous for various end uses. In the case in question the calcium sulphate dihydrate also contains relatively large agglomerates of crystals, as a result of which the calcium sulphate dihydrate is difficult to filter (poor dewatering) and washing lactic acid out of the calcium sulphate dihydrate proceeds with difficulty and requires a large amount of wash water. Moreover, it has been found that other disadvantages arise on further treatment of the aqueous solution of lactic acid with one or more ion exchangers because there are relatively high concentrations of calcium and sulphate ions in the solution. As a result large quantities of regeneration agents are needed for regeneration of the ion exchangers, as a result of which the regeneration of the ion exchangers takes a great deal of time and is economically unattractive.
In WO 93/24410 a method is described for the preparation of &agr;-calcium sulphate hemihydrate by reacting an aqueous solution of calcium lactate with sulphuric acid in an aqueous system at a temperature that is higher than the transition temperature of &agr;-calcium sulphate hemihydrate/calcium sulphate. According to Example 1, the lactate concentration is 18% (m/m), the transition temperature being cited as 96.5±0.3° C. In the remainder of this description CaSO
4
.0.5H
2
O will be referred to as calcium sulphate hemihydrate, in which context this term must not be interpreted in such a restricted manner that it covers only pure CaSO
4
.0.5H
2
O. After all, it will be clear to those skilled in the art that other forms of calcium sulphate can be present.
However, according to the present invention it has been found that this transition temperature is dependent on the calcium lactate concentration used and that at relatively low temperature the solubility of calcium sulphate hemihydrate is higher than that of calcium sulphate dihydrate. For instance, the transition temperature at a lactate concentration of approximately 50% (m/m) is approximately 92° C. Consequently, fewer calcium and sulphate ions remain in the aqueous solution at high calcium lactate concentration, with the result that the pollution of the ion exchangers is low and these have to regenerated less frequently.
British Patent 1 162 514 describes a method for the preparation of phosphoric acid and calcium sulphate from phosphate ore and sulphuric acid. If this preparation is carried out at high temperature, usually between 80° and 90° C., and with a high phosphoric acid concentration (higher than 30%), calcium sulphate is formed in the hemihydrate form (CaSO
4
.0.5H
2
O).
At lower temperatures (70° to 75° C.) and a low phosphoric acid concentration (20 to 25%) calcium sulphate dihydrate is formed. One of the disadvantages of this preparation in which calcium sulphate dihydrate is obtained is that inclusion of CaHPO
4
.2H
2
O takes place in the calcium sulphate crystals formed, as a result of which impure calcium sulphate dihydrate is obtained and the yield of phosphoric acid is lower. This publication indicates that this disadvantage can be eliminated by carrying out the method in such a way that essentially calcium sulphate hemihydrate is formed, after which the calcium sulphate hemihydrate can be converted to calcium sulphate dihydrate by lowering the temperature and phosphate concentration. However, the calcium sulphate dihydrate thus obtained was still found to contain large quantities of phosphate. Another solution given was to isolate the calcium sulphate hemihydrate formed by means of filtration and then to recrystallise it in dilute phosphoric acid with the formation of calcium sulphate dihydrate. This, however, had the disadvantages that too early a conversion from the hemihydrate form to the dihydrate form took place, that this conversion took place under conditions which are unfavourable for the growth of dihydrate crystals and that the calcium sulphate dihydrate finally formed still contained large amounts of phosphate.
The method according to British Patent 1 162 514 comprises the treatment of phosphate ore with sulphuric acid or a mixture of phosphoric acid and sulphuric acid at such a temperature, preferably from 75° to 105° C., that a suspension of crystals of CaSO
4
.0.5H
2
O (calcium sulphate hemihydrate) in a concentrated phosphoric acid solution is formed. The crystals are then separated off from the concentrated phosphoric acid solution and then washed with an aqueous solution of sulphuric acid or of sulphuric acid and phosphoric acid under conditions such that the calcium sulphate hemihydrate crystals are not converted into a different crystal form, for example calcium sulphate dihydrate. In a subsequent step the calcium sulphate hemihydrate crystals are recrystallised from an aqueous solution that contains 2 to 25% by mass sulphuric acid and less than 20% by mass phosphoric acid at a temperature that is lower than 90° C.
It thus appears that the problems that are associated with the preparation of inorganic acids such as phosphoric acid are completely different to those which are associated with the preparation of organic acids such as lactic acid.


REFERENCES:
patent: 0 406 550 (1991-01-01), None
patent: 1162514 (1969-08-01), None
patent: WO 93/24410 (1993-12-01), None
patent: WO 01/25180 (2001-04-01), None
patent: WO 01/27064 (2001-04-01), None

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