Organic compounds -- part of the class 532-570 series – Organic compounds – Fatty compounds having an acid moiety which contains the...
Patent
1997-10-22
1999-05-11
Geist, Gary
Organic compounds -- part of the class 532-570 series
Organic compounds
Fatty compounds having an acid moiety which contains the...
554195, C11B7/00
Patent
active
059028904
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a process for recovering carotene from a native fat or oil, more particularly from palm oil.
Depending on its origin, crude palm oil contains between 500 and 3,000 ppm of carotinoids containing a high proportion of beta-carotene and relatively low concentrations of tocopherols, tocotrienols and sterols.
Among the carotinoids, there are the oxygen-containing derivatives (xanthophylls) and the carotenes. The most well-known carotenes are alpha-, beta- and gamma-carotene and also lycopene. Beta-carotene occurs predominantly in nature and is the actual provitamin A. Since the carotenes are natural compounds and since they all show pronounced provitamin A activity, they are widely used as antioxidants or as dyes in commercial applications in the pharmaceutical industry, in the food industry and in the manufacture of cosmetics. More recently, the tumor-inhibiting activity of beta-carotene has been repeatedly demonstrated so that it is now also used in the prophylaxis of cancer.
2. Discussion of the Related Art
Several different processes for recovering carotene from palm oil or at least for concentrating carotene are known from the prior art.
In some known processes, the palm oil is first transesterified and/or saponified and then concentrated by extraction or distillation. Thus, according to U.S. Pat. No. 2,460,796, the palm oil is first transesterified with methanol. After the reaction mixture has settled out, the upper phase consisting of fatty acid methyl ester with dissolved carotene is washed with a mixture of alcohol and water and then with water alone. The complete or partial removal of the fatty acid methyl ester, which may be used for the production of soap, by distillation leaves a carotene concentrate. The distillation step is carried out in vacuo at temperatures of up to 150.degree. C. The total distillation time mentioned in this document is around 5 hours.
The disadvantage of this known process lies in the high temperatures to which the heat-sensitive carotene is exposed and which rule out a high yield of carotene.
In another process known from U.S. Pat. No. 2,572,467, palm oil is first saponified (Examples I and II). Dilute sulfuric acid is added to the reaction mixture to obtain the corresponding free fatty acids. After settling, the fatty acid phase is dissolved in acetone and filtered. The filtrate is repeatedly cooled and refiltered to obtain a residue consisting of fatty acids and a carotene-containing solution from which carotene can be crystallized out at -70.degree. C.
In a variant of this known process, transesterification with methanol replaces saponification of the palm oil with subsequent acid treatment (Examples III and IV of the same U.S. patent).
In a process described in U.S. Pat. No. 2,652,433, palm oil is subjected both to transesterification and to saponification. After neutralization and filtration, the crude palm oil is transesterified with methanol. Saponification of the ester phase is followed by an extraction step with petroleum ether or chloroform. The residue obtained after removal of the petroleum ether by distillation contains around 3% of carotene.
U.S. Pat. No. 5,157,132, which was published in 1992, discloses a process for concentrating carotene from palm oil which also begins with a transesterification step. The ester-rich phase obtained after settling is extracted with methanol and water to obtain a phase rich in carotene. Repeated extraction with methanol leaves a concentrated methanol/carotene mixture from which the alcohol is removed by evaporation in vacuo (Example I). In addition, the carotene-containing fatty acid methyl ester can be saponified after the transesterification step before it is extracted with petroleum ether. In this process, therefore, all the carotene-containing fatty acid methyl ester is saponified (Example II).
According to GB 2,218,989 A, the crude palm oil is subjected after transesterification with methanol to liquid chromatography with methanol and a mixtur
REFERENCES:
patent: 2432021 (1947-12-01), Larner
patent: 2460796 (1949-02-01), Eckey et al.
patent: 2484040 (1949-10-01), Lange et al.
patent: 2572467 (1951-10-01), Gebhart
patent: 2652433 (1953-09-01), Blaizot
patent: 5157132 (1992-10-01), Tan et al.
patent: 5514820 (1996-05-01), Assmann et al.
Johannisbauer Wilhelm
Jordan Volkmar
Nitsche Michael
Carr Deborah D
Geist Gary
Henkel Kommanditgesellschaft auf Aktien
J. Murphy Glenn E.
Jaeschke Wayne C.
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