US1928582A - Esterification of fatty acids - Google Patents

Esterification of fatty acids Download PDF

Info

Publication number
US1928582A
US1928582A US489236A US48923630A US1928582A US 1928582 A US1928582 A US 1928582A US 489236 A US489236 A US 489236A US 48923630 A US48923630 A US 48923630A US 1928582 A US1928582 A US 1928582A
Authority
US
United States
Prior art keywords
fatty acids
esterification
acids
mixtures
exceeding
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US489236A
Inventor
Wecker Ernst
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
IG Farbenindustrie AG
Original Assignee
IG Farbenindustrie AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by IG Farbenindustrie AG filed Critical IG Farbenindustrie AG
Application granted granted Critical
Publication of US1928582A publication Critical patent/US1928582A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C11ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
    • C11CFATTY ACIDS FROM FATS, OILS OR WAXES; CANDLES; FATS, OILS OR FATTY ACIDS BY CHEMICAL MODIFICATION OF FATS, OILS, OR FATTY ACIDS OBTAINED THEREFROM
    • C11C3/00Fats, oils, or fatty acids by chemical modification of fats, oils, or fatty acids obtained therefrom
    • C11C3/02Fats, oils, or fatty acids by chemical modification of fats, oils, or fatty acids obtained therefrom by esterification of fatty acids with glycerol

Definitions

  • the present invention relates to the esterification of fatty acids.
  • the remainder of fatty acid after the esterification is completed, can be removed with the aid of a physical purifying method which is not injurious to the esters obtained as for example by an extraction with ethyl alcohol, by a distillation with the aid of steam or other vaporized inert liquid, preferably in vacuo, by washing the esters with dilute aqueous alkali or any other usual and convenient method.
  • a physical purifying method which is not injurious to the esters obtained as for example by an extraction with ethyl alcohol, by a distillation with the aid of steam or other vaporized inert liquid, preferably in vacuo, by washing the esters with dilute aqueous alkali or any other usual and convenient method.
  • fatty acids of sulphur olive oil or train oil or sanza olive oil fatty acids contain a more or less large proportion of abnormal or high molecular fatty acids which are formed by the fermentation and decomposition of the residues from the pressing of the olives.
  • esterification of acids of this nature be carried out so that, in order to obtain tri-glycerides, a quantity of fatty acids exceeding that required for a complete esterification of the quantity of alcohol employed, is present from the start, a kind of fractionation takes place in that the acids which are readily esterified first enter into reaction with the alcohol, as for example glycerine, while the high molecular fatty acids which are diflicult to esterify mainly remain in the esterification residue.
  • a fatty acid mixture having an average molecular weight of 284 be esterified
  • a mixture of crude fatty acids having an average molecular weight of 347 remains non-esterified. Since the fatty acids which are difiicult to esterify are recovered and returned in circulation to the process, when carrying out the process on a commercial scale an ever increasing enrichment of these acids in the material to be esterified takes place.
  • a further objection is that at the temperatures necessary for the esterification the uncombined, free, normal and especially the abnormal fatty acids tend to polymerize or to form anhydrides, lactones, estolides (esters of two or more molecules of hydroxy carboxylic acids with each other, resembling lactones) and the like, whereby the quality of the resulting ester is injuriously affected.
  • esterification be carried out in the manner hitherto usual exclusively with a quantity of alcohol, as for example glycerine exceeding that required for complete esterification of the acids present, on the one hand the exclusive production of tri-glycerides is impossible and on the other hand the recovery of the excess of alcohol is only possible with great difficulty.
  • a quantity of alcohol as for example glycerine exceeding that required for complete esterification of the acids present
  • the recovery of the fatty acids which remain non-esterifled is preferably effected by a treatment of the strongly heated mixture in vacuo with inert liquids, preferably in fine dispersion, such as is described for -example in the specification of my U. S. Patent No. 1,622,126. a
  • Example 1 1675 kilograms of fatty acidsfrom sanza olive oil having the saponification value 198 are heated within 3 hours to about 240 C. in vacuo, while stirring, with 192 kilograms of 97 per cent glycerine, that is with about 3 per cent more than the amount stoichiometrically necessary for esteriflcation to give tri-glycerides. After this time the reaction comes to a standstill and the content of free fatty acids in the reaction mixture amounts for example to 1.3 per cent.
  • the reaction product has a saponification value of 183 instead of the normal saponification value for olive oil of 189.
  • the product After adding a further 40 kilograms of sanza olive oil fatty acids and heating to 240 C. for a further three quarters of an hour, the product has a sapom'fication value of 187 and a content for example of 1.2 per cent of free fatty acids. After the addition of a further 30 kilograms of sanza olive oil fatty acids and heating for another three quarters of an hour at the said temperature 1830 kilograms of a product having the saponification value 189 and a. content for example of 1.9 per cent of freefatty acids of normal character is obtained.
  • the free fatty acids may be separated in the manner already known, as for example by treating the appropriately heated mixture according to the U. S. Patent No. 1,622,126, and supplied for esterification again.
  • Example 2 1600 kilograms of sulphur olive oil fatty acids having an acid value of 199.3 are heated, while stirring, in vacuo together with 194 kilograms of ethylene glycol, the temperature being raised to 226 C. in the course of 3 hours. After the said temperature has been attained a mixture of the monoand di-esters of the glycol has been formed and the reaction mixture still contains 2.1 per cent of free fatty acids having an acid value of 174.2. After adding further 180 kilograms of the fatty acids heating is continued for 1 hour at 235 C. 1867 kilograms of a product are obtained which contains 1.6 per cent of free acids having an acid value of 198.6 whereas the acids combined with the ethylene glycol have an acid value of 199.4.
  • esters from mixtures of fatty acids from fats and oils of vegetal origin containing diilicultly esterifiable acids formed by decomposition of the said fats and oils, including synthethic, equivalent mixtures, the steps which comprise esterifying the said mixtures with a quantity of a polyhydric aliphatic alcohol exceeding that required for a complete esterification of the quantity of fatty acid employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of polyhydric alcohol present and then removing the remainder of free fatty acid.
  • esters from mixtures of fatty acids from fats and oils of vegetal origin containing difllculty esterifiable acids formed by decomposition of the said fats and oils the steps which comprise esterifying the said mixtures with a quantity of glycerine exceeding that required for a complete esterification of the quantity of fatty acid employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of glycerine present and then physically removing the remainder. of free fatty acid.
  • esters from mixtures of fatty acids from fats and oils of vegetal origin containing diflicultly esterifiable acids formed by decomposition of the said fats and oils the steps which comprise esterifying the said mixtures with a quantity of a polyhydric aliphatic alcohol exceeding that required for a complete esteriflcation of the quantity of fatty acid employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of polyhydric alcohol present and then distilling off the remainders of free fatty acid by passing a finely divided inert liquid at a pressure below atmospheric pressure through the reaction mass heated to a temperature above the boiling point of the said inert liquid at the said pressure.
  • esters from mixtures of fatty acids from vegetable oils containing dimcultly esterifiable acids formed by decomposition of the said oils the steps which comprise esterifying the said mixtures with a quantity of a polyhydric aliphatic alcohol exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of polyhydric alcohol present and then removing the remainder of free fatty acid.
  • esters from mixtures of fatty acids from vegetable oils containing diflicultly esterifiable acids formed by decomposition of the said oils the steps which comprise esterifying the said mixtures with a quantity-of glycerine exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid.
  • esters from mixtures of fatty acids from olive oil containing diflicultly esterifiable acids formed by decomposition of the said oil the steps which comprise esterifying the said mixtures with a quantity of glycerine exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid.
  • esters from mixtures of fatty acids from sanza olive oil the steps which comprise esterifying the said mixtures with a quantity of glycerine exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid.
  • esters from mixtures of fatty acids from sanza olive oil the steps which comprise esterifying at about 240 C. the said mixtures with a quantity of glycerine exceeding that required for a complete esteriflcation of the quantity of fatty acids employed, heating the product obtained at about 240 C. with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid by distillation while passing a finely divided inert liquid at a pressure below atmospheric pressure through the reaction mass heated to a temperature above the boiling point of the said inert liquid at the said. pressure.
  • esters from mixtures of fatty acids from fats and oils of vegetal origin containing dificultly esteriflable acids formed by decomposition of the said fats and oils
  • the steps which comprise esterifying the said mixtures with a quantity of ethylene glycol exceeding that required for a complete esterification of the quantity of fatty acids employed heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of ethylene glycol present and then removing the remainder of free fatty acid.
  • esters from mixtures of fatty acids from sulphur olive oil the steps which comprise esterifying at about 220 C. the said mixture with a quantity of ethylene glycol exceeding that required for a complete esterification of the quantity of fatty acids employed and heating the product obtained at about 235 C. with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of ethylene glycol present.

Description

CATION 0F FATTY i Ernst Wecker, Heilbronn-on-the-Neckar, Germany, assignor to I. G. Farbenindustrie Aktiengesellschaft, Frankfort-on-the-Main, Germany No Drawing. Application October 16,
Serial No. 489,236, and in Germany November 10 Claims.
The present invention relates to the esterification of fatty acids.
In order to obtain a quantitative esterification of fatty acids, or mixtures thereof, with gly cerine' it has been already suggested to carry out the esterification with a quantity of glycerine exceeding that necessary for a complete esterification, but in this case mixtures of monoand di-esters are formed together with the neutral tri-esters. If a quantity of acids exceeding that necessary for a complete esterification of the glycerol be employed only some portion of the acids is esterified and especially that which is more easily esterified.
I have found that in the esterification of the long chain fatty acids, 1. e. the acids from fats and oils of vegetal, i. e. vegetable and animal, origin, or the synthetic, equivalent mixtures of carboxylic acids from the destructive oxidation of paraffin wax and similar high molecular hydrocarbons or hydrocarbon mixtures and mixtures containing these fatty acids, with polyhydric aliphatic alcohols it is advantageous to Work first with a quantity of the alcohol desired as for example glycerine, exceeding that required for the complete esterification of the quantity of fatty acid employed, then to provide for a quantity of fatty acid in the reaction mixture that there is an excess of fatty acid during the further course of the esterification above the quantity required for complete esterification of the alcohol present. Finally the remainder of fatty acid, after the esterification is completed, can be removed with the aid of a physical purifying method which is not injurious to the esters obtained as for example by an extraction with ethyl alcohol, by a distillation with the aid of steam or other vaporized inert liquid, preferably in vacuo, by washing the esters with dilute aqueous alkali or any other usual and convenient method.
In this way, especially when esterifying socalled pathologica fatty acids, that is fatty acid mixtures which have changed unfavourably for example when the initial materials, such as seeds, have been'stored for long periods of time so that hydroxy carboxylic acids and acids with an abnormal high molecular weight are formed, it is possible to avoid any enrichment in high molecular and other fatty acids which can only be esterified with difficulty and to avoid any unfavourable infiuence on the properties, as for example the capability of being refined, of the ester obtained. At first mono-esters are mainly formed according to the present invention which are then converted into neutral esters of the polyhydric alcohols.
Thus for example fatty acids of sulphur olive oil or train oil or sanza olive oil fatty acids contain a more or less large proportion of abnormal or high molecular fatty acids which are formed by the fermentation and decomposition of the residues from the pressing of the olives. If the esterification of acids of this nature be carried out so that, in order to obtain tri-glycerides, a quantity of fatty acids exceeding that required for a complete esterification of the quantity of alcohol employed, is present from the start, a kind of fractionation takes place in that the acids which are readily esterified first enter into reaction with the alcohol, as for example glycerine, while the high molecular fatty acids which are diflicult to esterify mainly remain in the esterification residue. For example if a fatty acid mixture having an average molecular weight of 284 be esterified, a mixture of crude fatty acids having an average molecular weight of 347 remains non-esterified. Since the fatty acids which are difiicult to esterify are recovered and returned in circulation to the process, when carrying out the process on a commercial scale an ever increasing enrichment of these acids in the material to be esterified takes place. A further objection is that at the temperatures necessary for the esterification the uncombined, free, normal and especially the abnormal fatty acids tend to polymerize or to form anhydrides, lactones, estolides (esters of two or more molecules of hydroxy carboxylic acids with each other, resembling lactones) and the like, whereby the quality of the resulting ester is injuriously affected.
If the esterification be carried out in the manner hitherto usual exclusively with a quantity of alcohol, as for example glycerine exceeding that required for complete esterification of the acids present, on the one hand the exclusive production of tri-glycerides is impossible and on the other hand the recovery of the excess of alcohol is only possible with great difficulty.
These objections are avoided by carrying out the esterification according to the present invention so that first a quantity of alcohol is used exceeding that required for complete esterification of the acids present whereby the free fatty acids present are practically completely esterified, a further quantity of fatty acids then being added in excess of the amount necessary for the complete esterification of the remainders of nonesterified alcohol. The remainders of free fatty acids consist mainly of normal fatty acids, which in the example hereinbefore given have an average molecular weight of 285, and not of the constituents of the fatty acid mixture which are difficult to esterify, and in this case the subsequent refining is considerably facilitated and at the same time esters having especially advantageous properties are obtained. The recovery of the fatty acids which remain non-esterifled is preferably effected by a treatment of the strongly heated mixture in vacuo with inert liquids, preferably in fine dispersion, such as is described for -example in the specification of my U. S. Patent No. 1,622,126. a
The following examples will further illustrate the nature of this invention but the invention is not restricted vto these examples.
Example 1 1675 kilograms of fatty acidsfrom sanza olive oil having the saponification value 198 are heated within 3 hours to about 240 C. in vacuo, while stirring, with 192 kilograms of 97 per cent glycerine, that is with about 3 per cent more than the amount stoichiometrically necessary for esteriflcation to give tri-glycerides. After this time the reaction comes to a standstill and the content of free fatty acids in the reaction mixture amounts for example to 1.3 per cent. The reaction product has a saponification value of 183 instead of the normal saponification value for olive oil of 189.
After adding a further 40 kilograms of sanza olive oil fatty acids and heating to 240 C. for a further three quarters of an hour, the product has a sapom'fication value of 187 and a content for example of 1.2 per cent of free fatty acids. After the addition of a further 30 kilograms of sanza olive oil fatty acids and heating for another three quarters of an hour at the said temperature 1830 kilograms of a product having the saponification value 189 and a. content for example of 1.9 per cent of freefatty acids of normal character is obtained. The free fatty acids may be separated in the manner already known, as for example by treating the appropriately heated mixture according to the U. S. Patent No. 1,622,126, and supplied for esterification again.
Example 2 1600 kilograms of sulphur olive oil fatty acids having an acid value of 199.3 are heated, while stirring, in vacuo together with 194 kilograms of ethylene glycol, the temperature being raised to 226 C. in the course of 3 hours. After the said temperature has been attained a mixture of the monoand di-esters of the glycol has been formed and the reaction mixture still contains 2.1 per cent of free fatty acids having an acid value of 174.2. After adding further 180 kilograms of the fatty acids heating is continued for 1 hour at 235 C. 1867 kilograms of a product are obtained which contains 1.6 per cent of free acids having an acid value of 198.6 whereas the acids combined with the ethylene glycol have an acid value of 199.4.
What I claim is:
1. In the production of esters from mixtures of fatty acids from fats and oils of vegetal origin, containing diilicultly esterifiable acids formed by decomposition of the said fats and oils, including synthethic, equivalent mixtures, the steps which comprise esterifying the said mixtures with a quantity of a polyhydric aliphatic alcohol exceeding that required for a complete esterification of the quantity of fatty acid employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of polyhydric alcohol present and then removing the remainder of free fatty acid.
2. In the production of esters from mixtures of fatty acids from fats and oils of vegetal origin containing difllculty esterifiable acids formed by decomposition of the said fats and oils, the steps which comprise esterifying the said mixtures with a quantity of glycerine exceeding that required for a complete esterification of the quantity of fatty acid employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of glycerine present and then physically removing the remainder. of free fatty acid.
3. In the production of esters from mixtures of fatty acids from fats and oils of vegetal origin containing diflicultly esterifiable acids formed by decomposition of the said fats and oils, the steps which comprise esterifying the said mixtures with a quantity of a polyhydric aliphatic alcohol exceeding that required for a complete esteriflcation of the quantity of fatty acid employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of polyhydric alcohol present and then distilling off the remainders of free fatty acid by passing a finely divided inert liquid at a pressure below atmospheric pressure through the reaction mass heated to a temperature above the boiling point of the said inert liquid at the said pressure.
4. In the production of esters from mixtures of fatty acids from vegetable oils containing dimcultly esterifiable acids formed by decomposition of the said oils, the steps which comprise esterifying the said mixtures with a quantity of a polyhydric aliphatic alcohol exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of polyhydric alcohol present and then removing the remainder of free fatty acid.
5. In the production of esters from mixtures of fatty acids from vegetable oils containing diflicultly esterifiable acids formed by decomposition of the said oils, the steps which comprise esterifying the said mixtures with a quantity-of glycerine exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid.
6. In the production of esters from mixtures of fatty acids from olive oil containing diflicultly esterifiable acids formed by decomposition of the said oil, the steps which comprise esterifying the said mixtures with a quantity of glycerine exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid.
7. In the production of esters from mixtures of fatty acids from sanza olive oil, the steps which comprise esterifying the said mixtures with a quantity of glycerine exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid.
8. In the production of esters from mixtures of fatty acids from sanza olive oil, the steps which comprise esterifying at about 240 C. the said mixtures with a quantity of glycerine exceeding that required for a complete esteriflcation of the quantity of fatty acids employed, heating the product obtained at about 240 C. with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esterification of the quantity of glycerine present and then removing the remainder of free fatty acid by distillation while passing a finely divided inert liquid at a pressure below atmospheric pressure through the reaction mass heated to a temperature above the boiling point of the said inert liquid at the said. pressure.
9. In the production of esters from mixtures of fatty acids from fats and oils of vegetal origin containing dificultly esteriflable acids formed by decomposition of the said fats and oils, the steps which comprise esterifying the said mixtures with a quantity of ethylene glycol exceeding that required for a complete esterification of the quantity of fatty acids employed, heating the product obtained with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of ethylene glycol present and then removing the remainder of free fatty acid.
10. In the production of esters from mixtures of fatty acids from sulphur olive oil, the steps which comprise esterifying at about 220 C. the said mixture with a quantity of ethylene glycol exceeding that required for a complete esterification of the quantity of fatty acids employed and heating the product obtained at about 235 C. with a quantity of the aforesaid mixture of fatty acids exceeding that required for a complete esteriflcation of the quantity of ethylene glycol present.
ERNST WECKER.
US489236A 1929-11-09 1930-10-16 Esterification of fatty acids Expired - Lifetime US1928582A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE1928582X 1929-11-09

Publications (1)

Publication Number Publication Date
US1928582A true US1928582A (en) 1933-09-26

Family

ID=7749847

Family Applications (1)

Application Number Title Priority Date Filing Date
US489236A Expired - Lifetime US1928582A (en) 1929-11-09 1930-10-16 Esterification of fatty acids

Country Status (1)

Country Link
US (1) US1928582A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2422486A (en) * 1945-05-24 1947-06-17 Vanderbilt Co R T Emulsifying and whipping agents
US3071550A (en) * 1957-11-18 1963-01-01 Nopco Chem Co Emulsifier mixture

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2422486A (en) * 1945-05-24 1947-06-17 Vanderbilt Co R T Emulsifying and whipping agents
US3071550A (en) * 1957-11-18 1963-01-01 Nopco Chem Co Emulsifier mixture

Similar Documents

Publication Publication Date Title
US2309949A (en) Preparation of mixed esters of polyhydric alcohols
US2413009A (en) Processes of refining, purifying, and hydrogenating fats, fatty acids, and waxes
US2206168A (en) Process for manufacturing fatty esters
US1558299A (en) Mixed esters of lower and higher fatty acids and process of making same
US1659790A (en) Method of producing commercial stearic acid
US2383599A (en) Treating fatty glycerides
US2812343A (en) Method of making refined fatty acids from soap stocks
US2238442A (en) Mixed capric-caprylic esters and method of making same
US1701703A (en) Hantjfacttjre
US1928582A (en) Esterification of fatty acids
US2389260A (en) Producing unsaturated compounds
US2313636A (en) Fractionation of free fatty acids
US2200390A (en) Processes of extracting and refining glycerides and products resulting therefrom
US2478354A (en) Preparation of partial esters
US2794017A (en) Method of processing tall oil and products produced thereby
US2166812A (en) Process for the separation of the constituents of organic mixtures containing both resin acids and fatty acids, particularly tall oil
US2759954A (en) Refining crude fatty acid monoglyceride
US1736802A (en) Process of treating talloel
US1277708A (en) Forming and hydrogenating fatty-acid esters.
US2539975A (en) Process for improving the drying qualities of tall oil
US2356988A (en) Process for the separation of the constituents of tall oil
US1927296A (en) Ester of the hydroxy fatty acids of castor oil
US1901374A (en) Production of masses resembling linoxyn
US2006766A (en) Process for manufacturing hydrophilous fatty substances
US2348970A (en) Process for the separation of acids contained in tall oil