US1889348A - Process of making heptaldehyde and undecylenic acid - Google Patents
Process of making heptaldehyde and undecylenic acid Download PDFInfo
- Publication number
- US1889348A US1889348A US536304A US53630431A US1889348A US 1889348 A US1889348 A US 1889348A US 536304 A US536304 A US 536304A US 53630431 A US53630431 A US 53630431A US 1889348 A US1889348 A US 1889348A
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- US
- United States
- Prior art keywords
- heptaldehyde
- undecylenic acid
- castor oil
- making
- still
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- 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.)
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- C—CHEMISTRY; METALLURGY
- C11—ANIMAL OR VEGETABLE OILS, FATS, FATTY SUBSTANCES OR WAXES; FATTY ACIDS THEREFROM; DETERGENTS; CANDLES
- C11C—FATTY ACIDS FROM FATS, OILS OR WAXES; CANDLES; FATS, OILS OR FATTY ACIDS BY CHEMICAL MODIFICATION OF FATS, OILS, OR FATTY ACIDS OBTAINED THEREFROM
- C11C3/00—Fats, oils, or fatty acids by chemical modification of fats, oils, or fatty acids obtained therefrom
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07C—ACYCLIC OR CARBOCYCLIC COMPOUNDS
- C07C45/00—Preparation of compounds having >C = O groups bound only to carbon or hydrogen atoms; Preparation of chelates of such compounds
- C07C45/78—Separation; Purification; Stabilisation; Use of additives
Definitions
- This process relates to an improved method for making heptaldehyde and undecylenic acid from Castor oil by destructive distillation.
- castor oil or an ester of r'cinoleic acid is heated with or without catalysts, preferably under reduced pressure, at temperatures around 400 C. and the distillate therefrom fractionated.
- the yield of heptaldehyde is usually small and its cost high if castor oil is employed, as about 50 to 75 percent of the oil goes over into an infusible, insoluble, spongy mass having no practical value. It is removed only'with difliculty from the stills and represents an economic loss.
- the object of the present invention is to prepare lreptaldehyde and undecylenic acid from castor oil in good yield without the formation of the above mentioned insoluble spongy mass; and to accomplish this in a manner more economical and more adapted for large scale manufacture than previous processes.
- heptaldehyde and undecylenic acid may be obtained in good yield by destructively distilling in vacuo a mixture of castor oil and an acidic resin such as colopliony, gum dammer, kauri, Congo, copals, ester gums and the like, without formation of infusible, insoluble, spongy still residues.
- the still residues obtained according to our process are fluid while hot and are readily run out from the still. They constitute a useful by-product from the operation, thus cutting down the overhead costs of the heptaldehyde.
- undecylenic acid which may be condensed, and at the same time to prevent formation of an insoluble, worthless still residue by taking up the still residue as fast as it forms in a suitable gum or resin so that it may be run out.
- Example 1 Raw cast-or oil (2 parts) is mixed with 1 part of wood rosin in a capacious still fitted with an inlet capillary tube for aspirating air or an inert gas such as nitrogen or carbon dioxide through the mass.
- the still is con nected to a downward condenser attached to a water-cooled receiver which is in turn connected to a vacuum pump.
- the still is heated to about 400-450" C. so that the temperature of the contents is 30O 340 C. and the distillation is carried out under a pressure of from 30 to 60 mm. of mercury until no further distillate comes over in the receiver.
- air, nitrogen, or carbon dioxide is continuously bubbled through the hot mass in, the still.
- the distillate obtained contains rosin, rosin oil, heptaldehyde, water, and undecylenic acid together with polymers of undecylenic acid.
- the heptaldehyde and undecylenic acid may then be recovered from this distillate by suitable fractionation in the usual way.
- the still residue due to its fluid nature is readily run out while hot and the still recharged for the next run.
- the still jresidue forms a solid rubber-like mass readily soluble in benzene and having potential com- Example 2 Instead of rosin, an equal weight of ester, gum (acid No.
- Example 3 Castor oil is mixed with 25 percent of itsweight of kauri gum and subjected to destructive distillation at 340 C. under 50 mm. pressure is described in Example 1, to obtain heptaldehyde and undecylenic acid.
- mixtures of any two or more of the above acidic gums or resins maybe employed in the condensation with castor oil, and pressures higher or lower than that indicated may be employed during the destructive distillation. Additional catalysts for accelerating the decomposition may also be added in small amounts up to 2% by weight on the oil.
- These inc ude acidic and basic substances such as lime magnesia, zinc oxide, boric oxide and phosphoric acid.
- a process for making heptaldehyde and undecylenic acid which comprises vacuum structively distilling a mixture of raw castor oil and ester gum under vacuum at a temperature of 300-340" C. and condensing the vapors.
- a process for making heptaldehyde and' undecylenic acid which comprises distilling a mixture of raw castor oil and an acidic'resin under vacuum at a temperature above the decomposition point of the castor oil, and condensing the vapors.
- heptaldehyde and undecylenic acid which comprises yacuum distilling a mixture of-raw castor oil a d a member of the group consisting of colophony, ester gumgdammar, kaur'i, Congo, copals, and mixtures thereof, at a temperature above the decomposition point of castor oil, and condensing the va ors.
- Theprocess for ma ing heptaldehyde and undecylenic acid which comprises distilling raw castor oilwith one half its wei ht .of rosinundervacuum at a temperature 0 300' 340 C. and condensing the va ors.
Description
atented Nov. 29, 1932 HERMAN A. BRUSDN, OF GERMANTOWN, PENNSYLVANIA, AND JACK D. ROBINSON, F AUDUBON, NEVJ JERSEY, ASSIGNORS TO THE BESINOUS PRODUCTS 60 CHEMICAL CO. INC., OF PHILADELPHIA, PENNSYLVANIA PROCES$ OF MAKING HEPTALDEHYDE AND UNDECYLENIC ACID N0 Drawing.
This process relates to an improved method for making heptaldehyde and undecylenic acid from Castor oil by destructive distillation.
According to previous processes, castor oil or an ester of r'cinoleic acid is heated with or without catalysts, preferably under reduced pressure, at temperatures around 400 C. and the distillate therefrom fractionated. The yield of heptaldehyde is usually small and its cost high if castor oil is employed, as about 50 to 75 percent of the oil goes over into an infusible, insoluble, spongy mass having no practical value. It is removed only'with difliculty from the stills and represents an economic loss.
The object of the present invention is to prepare lreptaldehyde and undecylenic acid from castor oil in good yield without the formation of the above mentioned insoluble spongy mass; and to accomplish this in a manner more economical and more adapted for large scale manufacture than previous processes.
' We have discovered that heptaldehyde and undecylenic acid may be obtained in good yield by destructively distilling in vacuo a mixture of castor oil and an acidic resin such as colopliony, gum dammer, kauri, Congo, copals, ester gums and the like, without formation of infusible, insoluble, spongy still residues. The still residues obtained according to our process are fluid while hot and are readily run out from the still. They constitute a useful by-product from the operation, thus cutting down the overhead costs of the heptaldehyde.
We are aware that in the past, castor oil has been heated with various resins to obtain fluid compositions which areeither simple solutions of the resin in the oil or esterlike combinations of the acidic resin and the oil. Such processes have been carried out at relatively low temperatures so thatno appreciable cracking of the castor oil to form eptaldehyde occurs. The essential features of our process are that the heating of the castor oil and resin is carried out at temperatures in excess of the decomposition point of the castor oil so as to form heptaldehyde and Application filed May 9, 1931. serial No. 536,304.
undecylenic acidwhich may be condensed, and at the same time to prevent formation of an insoluble, worthless still residue by taking up the still residue as fast as it forms in a suitable gum or resin so that it may be run out. 4
For practicing this invention the following examples are given. The parts given are by weight.
Example 1 Raw cast-or oil (2 parts) is mixed with 1 part of wood rosin in a capacious still fitted with an inlet capillary tube for aspirating air or an inert gas such as nitrogen or carbon dioxide through the mass. The still is con nected to a downward condenser attached to a water-cooled receiver which is in turn connected to a vacuum pump. The still is heated to about 400-450" C. so that the temperature of the contents is 30O 340 C. and the distillation is carried out under a pressure of from 30 to 60 mm. of mercury until no further distillate comes over in the receiver. During this process air, nitrogen, or carbon dioxide is continuously bubbled through the hot mass in, the still. The distillate obtained contains rosin, rosin oil, heptaldehyde, water, and undecylenic acid together with polymers of undecylenic acid. The heptaldehyde and undecylenic acid may then be recovered from this distillate by suitable fractionation in the usual way. The still residue due to its fluid nature is readily run out while hot and the still recharged for the next run. The still jresidue forms a solid rubber-like mass readily soluble in benzene and having potential com- Example 2 Instead of rosin, an equal weight of ester, gum (acid No. 8) (abietic glyceride) may be used in the procedure described above at a temperature of 330-340 C, -Heptaldehfde and undeylenic acid are obtained toget er with a fluid still residue which is not as rubbery as that obtained in Example 1.
, Example 3 Castor oil is mixed with 25 percent of itsweight of kauri gum and subjected to destructive distillation at 340 C. under 50 mm. pressure is described in Example 1, to obtain heptaldehyde and undecylenic acid.
Instead of the above resins one may use other acidic gums, both natural and synthetic, such as dammar, Congo, and the various copals or the condensation products thereof with phenols and aldehydes.
Furthermore mixtures of any two or more of the above acidic gums or resins maybe employed in the condensation with castor oil, and pressures higher or lower than that indicated may be employed during the destructive distillation. Additional catalysts for accelerating the decomposition may also be added in small amounts up to 2% by weight on the oil. These inc ude acidic and basic substances such as lime magnesia, zinc oxide, boric oxide and phosphoric acid.
What we claim is:
1. A process for making heptaldehyde and undecylenic acid which comprises vacuum structively distilling a mixture of raw castor oil and ester gum under vacuum at a temperature of 300-340" C. and condensing the vapors.
HERMAN A. BRUSON. JACK D. ROBINSON.
tures.
distilling a mixture of castor oil and an acidic resin to inhibit the condensation of the castor .oil to an insoluble mass," at a temperature above the decomposition point of the castor oil, and condensing the vapors.
. 2. A process for making heptaldehyde and' undecylenic acid which comprises distilling a mixture of raw castor oil and an acidic'resin under vacuum at a temperature above the decomposition point of the castor oil, and condensing the vapors.
3. A process as set forth in claim 2 in which one of the group consisting of air and inert gases is aspirated through the mixture during the distillation. 1 i
4. As a new composition of matter the still residue by-product resultin from the manufacture of heptaldehyde an undecylenic acid as set forth in claim 2, said material being a benzene-soluble plastic mass.
5. The process for making heptaldehyde and undecylenic acid which comprises yacuum distilling a mixture of-raw castor oil a d a member of the group consisting of colophony, ester gumgdammar, kaur'i, Congo, copals, and mixtures thereof, at a temperature above the decomposition point of castor oil, and condensing the va ors.
6. Theprocess for ma ing heptaldehyde and undecylenic acid which comprises distilling raw castor oilwith one half its wei ht .of rosinundervacuum at a temperature 0 300' 340 C. and condensing the va ors.
7. The process for making eptaldehyde and undecylenic acid which comprises de-
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US536304A US1889348A (en) | 1931-05-09 | 1931-05-09 | Process of making heptaldehyde and undecylenic acid |
Applications Claiming Priority (1)
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US536304A US1889348A (en) | 1931-05-09 | 1931-05-09 | Process of making heptaldehyde and undecylenic acid |
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US1889348A true US1889348A (en) | 1932-11-29 |
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US536304A Expired - Lifetime US1889348A (en) | 1931-05-09 | 1931-05-09 | Process of making heptaldehyde and undecylenic acid |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2014164156A2 (en) | 2013-03-13 | 2014-10-09 | Stepan Company | Surfactants based on monounsaturated fatty alcohol derivatives |
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1931
- 1931-05-09 US US536304A patent/US1889348A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2014164156A2 (en) | 2013-03-13 | 2014-10-09 | Stepan Company | Surfactants based on monounsaturated fatty alcohol derivatives |
US9695385B2 (en) | 2013-03-13 | 2017-07-04 | Stepan Company | Surfactants based on monounsaturated fatty alcohol derivatives |
US10287530B2 (en) | 2013-03-13 | 2019-05-14 | Stepan Company | Surfactants based on monounsaturated fatty alcohol derivatives |
US11560530B2 (en) | 2013-03-13 | 2023-01-24 | Stepan Company | Surfactants based on monounsaturated fatty alcohol derivatives |
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