US2208328A - Nitriles of acrylic acids - Google Patents

Nitriles of acrylic acids Download PDF

Info

Publication number
US2208328A
US2208328A US237061A US23706138A US2208328A US 2208328 A US2208328 A US 2208328A US 237061 A US237061 A US 237061A US 23706138 A US23706138 A US 23706138A US 2208328 A US2208328 A US 2208328A
Authority
US
United States
Prior art keywords
cyanoalkyl
nitriles
temperature
acrylic acids
acetate
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
US237061A
Inventor
Joy G Lichty
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.)
Wingfoot Corp
Original Assignee
Wingfoot Corp
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 Wingfoot Corp filed Critical Wingfoot Corp
Priority to US237061A priority Critical patent/US2208328A/en
Application granted granted Critical
Publication of US2208328A publication Critical patent/US2208328A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C253/00Preparation of carboxylic acid nitriles
    • C07C253/30Preparation of carboxylic acid nitriles by reactions not involving the formation of cyano groups

Definitions

  • cyanoalkyl esters and cyanoalkyl carbinols such as the cyanoalkyl esters of fatty acids, and particularly the alpha cyanoalkyl esters of lower fatty acids and the beta cyano g carbinols to obtain nitriles of acrylic acids in 0 much better yields than have been obtainable by the methods heretofore employed.
  • cyano isopropyl acetate may be pyrolyzed to yield methacrylo nitrile, but the 30 pyrolysis may also produce 'acetone, hydrogen cyanide and, possibly, ketene, in accordance with the following equations:
  • the tendency of thereaction to proceed in the 45 direction indicated by Equation 11 may be measured by the amount of HCN which is found in the reaction product.
  • Equation I Various catalysts and temperature conditions were tried out to determine the conditions most 50 favorable to the reaction indicated by Equation I.
  • the apparatus used consisted of a Pyrex-glass tube one inch in diameter by 16 inches long, 12
  • the exit end of. the tube was 55 equipped with a thermocouple and an exit tube leading to a condenser.
  • the tube was charged with the catalyst, heated to the desired temperature and the cyanoalkyl acyl compound added through a dropping funnel. The temperature so and rate of flow desired were established and maintained for a period oftime and a sample of the product was then taken.
  • the catalyst waselementary copper, elementary nickel, salts of copper or salts of nickel, such as copper sulfate; copper acetate, cuprous chloride, nickel sulfate, nickel acetate, nickel chloride, elementary copper in connection with iodineln the ester to be pyrolyzed, and elementary nickel in connection with" iodine in the ester to be pyrolyzed.
  • Quartz is also eifective as a catalyst when used 36 in conjunction with iodine in the ester. Heat a is supplied to the reaction by heating the catalyst, or the solid portion thereof where iodine is present, to the specified temperature.
  • the method can be applied to the pyrolysis of other cyanoalkyl esters and cyanoalkyl carblnols, the process being generally applicable to the treatment of compounds included by the formula where R is an alkyl, aryl or aralkyl group or hydrogen and only one X being hydrogen, such as the cyanoalkyl esters of fatty acids, preferably the alpha cyanoalkyl esters of the lower fatty acids, i. e., those from formic acid up to and including butyric acid and the beta cyano carbinols.
  • Examples are cyanoethyl acetate, cyanoisopropyl acetate, cyanobutyl acetate, cyano secondary butyl acetate, alpha-phenyl-alphacyanoethyl acetate, cyanoethyl formate, cyanobutyl propionate, cyanoisopropyl butyrate, etc.
  • Cyanoalkyl 'carbinols which may be pyrolyzed in the same manner are beta cyanomethyl carbinol (CN- CH2CH2OH), beta cyano n-propyl alcohol (Caron-0112011 alpha cyanomethyl butyl carbinol ON (CHa-(B-OH) A B and the like.
  • a method of preparing nitriles of acrylic acids which comprises heating a compound from the group consisting of cyanoalkyl esters and cyanoalkyl carbinols in contact with iodine as a catalyst at a temperature between about 350 and 600 C.
  • a method of preparing nitriles of acrylic acids which comprises heating a compound from the group consisting of cyanoalkyl esters and cyanoalkyl carbinols in contact with iodine and a metal chosen from the group consisting of copper and nickel as a catalyst at a temperature between about 350 and 600 C.
  • a method of preparing nitriles of acrylic acids which comprises heating a cyanoalkyl ester of, a fatty acid in contact with iodine as a catalyst at a temperature between about 350 and 600 C.
  • a method of preparing nitriles of acrylic acids which comprises heating a cyanoalkyl ester of a fatty acid in contact with iodine and a metal chosen from the group consisting of copper and nickel as a catalyst at a temperature between about 350 and 600 C.'
  • a method of preparing methacrylonitrile which comprises heating cyanoisopropyl acetate in the presence of iodine and a metal chosen from the group consisting of copper and nickel at a temperature between about 350 and 600 C.
  • a method of preparing nitriles of acrylic acids which comprises passing an alpha cyanoalkyl ester of a lower fatty acid containing iodine into contact with copper at a temperature between about 350 and 600 C.
  • a method of preparing methacrylo nitrile which comprises passing cyanoisopropyl acetate containing about one percent of iodine over elementary copper at a temperature between about 350 and 450 C.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)

Description

Patented July 16, 194
UNITED STATES- NITRILES 0F ACRYLIC ACIDS Joy G. Lichty, Stow, Ohio, assignor to Wingfoot Corporation, Wilmington, Del., a corporation of Delaware No Drawing. Application October 26, 1938, Serial No. 287,061
10 Claims.
presence of inhibitors and, also, the reaction may partly proceed in a different manner which does 15 not yield the desired product. The present method employs temperatures and catalysts which tend to prevent polymerization of the product and induce the reaction to proceed largely in the desired direction. Accordingly, by the I 20 use of the process herein described, it is possible to pyrolyze cyanoalkyl esters and cyanoalkyl carbinols, such as the cyanoalkyl esters of fatty acids, and particularly the alpha cyanoalkyl esters of lower fatty acids and the beta cyano g carbinols to obtain nitriles of acrylic acids in 0 much better yields than have been obtainable by the methods heretofore employed.
To illustrate, cyano isopropyl acetate may be pyrolyzed to yield methacrylo nitrile, but the 30 pyrolysis may also produce 'acetone, hydrogen cyanide and, possibly, ketene, in accordance with the following equations:
The tendency of thereaction to proceed in the 45 direction indicated by Equation 11 may be measured by the amount of HCN which is found in the reaction product.
Various catalysts and temperature conditions were tried out to determine the conditions most 50 favorable to the reaction indicated by Equation I. The apparatus used consisted of a Pyrex-glass tube one inch in diameter by 16 inches long, 12
inches of this tube being heated by means of a resistance coil. The exit end of. the tube was 55 equipped with a thermocouple and an exit tube leading to a condenser. The tube was charged with the catalyst, heated to the desired temperature and the cyanoalkyl acyl compound added through a dropping funnel. The temperature so and rate of flow desired were established and maintained for a period oftime and a sample of the product was then taken.
The extent of the reaction was then determined by titration of an aliquot part of a IO-gram sample dissolved in neutralized alcohol, to de- 5 termine the amount of acetic acid present. This gives a measure of the extent to which both Reactions I and II, above, have proceeded, when cyano isopropyl acetate is the substance under investigation, since the ketene probably produced in Reaction II goes over to acetic acid. At the same time, estimation of the amount of HCN produced measures the extent to which the route indicated by Equation 11 has been followed. The difference between the two determinations indi- 15 cates how much of the cyanoalkyl compound is being converted to an acrylonitrile.
It was found that the reaction could be successfully conducted at temperatures ranging from 350 to 600 C. but best results were obtained between 350 and450 C., a temperature of 400 C. being selected as the optimum average temperature for the reason that, while pyrolysis may be satisfactorily conducted at higher temperatures, the product polymerizes and cuts down the yield of useful monomer. Best results with respect to yield and purity were obtained when the catalyst waselementary copper, elementary nickel, salts of copper or salts of nickel, such as copper sulfate; copper acetate, cuprous chloride, nickel sulfate, nickel acetate, nickel chloride, elementary copper in connection with iodineln the ester to be pyrolyzed, and elementary nickel in connection with" iodine in the ester to be pyrolyzed. Quartz is also eifective as a catalyst when used 36 in conjunction with iodine in the ester. Heat a is supplied to the reaction by heating the catalyst, or the solid portion thereof where iodine is present, to the specified temperature.
Results obtained using these catalysts within 40 the preferred range of temperatures, .namely, 350-400 C., as applied to the pyrolysis of cyano isopropyl acetate to yield methacrylo nitrile, gave the following results:
It will be noted that the results obtained with the improved catalysts were high, nearly of co the theoretically possible yield of methacrylo nitrile being obtained from the pyrolysis of cyano isopropyl acetate. The formation of hydrogen cyanide and acetone was not appreciable, indicating that Reaction 11 does not proceed to any great extent. Also, it will be observed that quartz alone gave a yield of not much more than half that obtained with the catalysts of the invention at the specified temperature.
The method, employing the improved catalysts, can be applied to the pyrolysis of other cyanoalkyl esters and cyanoalkyl carblnols, the process being generally applicable to the treatment of compounds included by the formula where R is an alkyl, aryl or aralkyl group or hydrogen and only one X being hydrogen, such as the cyanoalkyl esters of fatty acids, preferably the alpha cyanoalkyl esters of the lower fatty acids, i. e., those from formic acid up to and including butyric acid and the beta cyano carbinols. Examples are cyanoethyl acetate, cyanoisopropyl acetate, cyanobutyl acetate, cyano secondary butyl acetate, alpha-phenyl-alphacyanoethyl acetate, cyanoethyl formate, cyanobutyl propionate, cyanoisopropyl butyrate, etc. There may be obtained by this method acrylo nitrile, methacrylo nitrile, ethacrylo nitrile, alpha phenyl acrylonitrile, propyl acrylo nitrile, butyl acrylo nitrile, amyl acrylonitrile, hexyl acrylonitrile and similar acrylonitriles. Cyanoalkyl 'carbinols which may be pyrolyzed in the same manner are beta cyanomethyl carbinol (CN- CH2CH2OH), beta cyano n-propyl alcohol (Caron-0112011 alpha cyanomethyl butyl carbinol ON (CHa-(B-OH) A B and the like.
While there has been described above a pre- 50 ferred embodiment of the invention, it will be understood that the same is not limited thereto but that the conditions of pyrolysis can be modified and various cyanoalkyl esters and cyanoalkyl carbinolsother than those mentioned can be 55 treated, it being intended to include by such expressions compounds wherein the alkyl chain is substituted by various radicals, such as other alkyl groups and aryl groups. However, the temperatures to be employed should preferably be those indicated above and the catalysts used will be those mentioned. It is intended, then. that the patent shall cover, by suitable expression in the appended claims, all features of patentable novelty residing in the invention.
What I claim is:
1. A method of preparing nitriles of acrylic acids which comprises heating a compound from the group consisting of cyanoalkyl esters and cyanoalkyl carbinols in contact with iodine as a catalyst at a temperature between about 350 and 600 C.
2. A method of preparing nitriles of acrylic acids which comprises heating a compound from the group consisting of cyanoalkyl esters and cyanoalkyl carbinols in contact with iodine and a metal chosen from the group consisting of copper and nickel as a catalyst at a temperature between about 350 and 600 C.
3. A method of preparing nitriles of acrylic acids which comprises heating a cyanoalkyl ester of, a fatty acid in contact with iodine as a catalyst at a temperature between about 350 and 600 C.
4. The method as in claim 3whereinthe ester is a cyanoalkyl ester of a lower fatty acid.
5. A method of preparing nitriles of acrylic acids which comprises heating a cyanoalkyl ester of a fatty acid in contact with iodine and a metal chosen from the group consisting of copper and nickel as a catalyst at a temperature between about 350 and 600 C.'
6. The method as in claim 5 wherein the ester is a cyanoalkyl ester of a lower fatty acid.
7. A method of preparing methacrylonitrile which comprises heating cyanoisopropyl acetate in the presence of iodine and a metal chosen from the group consisting of copper and nickel at a temperature between about 350 and 600 C.
8. The method as in claim 7 wherein the temperature is between about 350 and 450 C.
9. A method of preparing nitriles of acrylic acids which comprises passing an alpha cyanoalkyl ester of a lower fatty acid containing iodine into contact with copper at a temperature between about 350 and 600 C.
10. A method of preparing methacrylo nitrile which comprises passing cyanoisopropyl acetate containing about one percent of iodine over elementary copper at a temperature between about 350 and 450 C.
JOY G. LICHTY.
US237061A 1938-10-26 1938-10-26 Nitriles of acrylic acids Expired - Lifetime US2208328A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US237061A US2208328A (en) 1938-10-26 1938-10-26 Nitriles of acrylic acids

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US237061A US2208328A (en) 1938-10-26 1938-10-26 Nitriles of acrylic acids

Publications (1)

Publication Number Publication Date
US2208328A true US2208328A (en) 1940-07-16

Family

ID=22892180

Family Applications (1)

Application Number Title Priority Date Filing Date
US237061A Expired - Lifetime US2208328A (en) 1938-10-26 1938-10-26 Nitriles of acrylic acids

Country Status (1)

Country Link
US (1) US2208328A (en)

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2417749A (en) * 1943-12-23 1947-03-18 Eastman Kodak Co Preparation of olefinic nitriles by dehydration with acetic anhydride
US2417748A (en) * 1943-12-23 1947-03-18 Eastman Kodak Co Preparation of methyl acrylate
US2429460A (en) * 1943-05-20 1947-10-21 Du Pont Manufacture of vinyl cyanide
US2432511A (en) * 1943-02-16 1947-12-16 American Cyanamid Co Stabilization of acrylonitrile
US2444870A (en) * 1943-05-31 1948-07-06 Wingfoot Corp Copolymers of butadienes-1, 3 and alpha aryl acrylonitriles
US2476026A (en) * 1940-01-18 1949-07-12 Wingfoot Corp 2-cyano-2, 3-diacetoxy butanes
US2476270A (en) * 1947-11-12 1949-07-19 Goodrich Co B F Preparation of 1, 1-dicyano ethylene by the pyrolysis of 1-acetoxy-1, 1-dicyano ethane
US2478990A (en) * 1947-10-18 1949-08-16 Du Pont Preparation of atroponitrile
US2494583A (en) * 1946-04-16 1950-01-17 William P Ratchford Pyrolysis of c-acetoxy aliphatic amides to acrylamides
US2790822A (en) * 1953-08-12 1957-04-30 Knapsack Ag Process for the preparation of aliphatic alpha-unsubstituted alpha-beta-unsatureated carboxylic acids and their derivatives
US2920100A (en) * 1955-03-24 1960-01-05 Wacker Chemie Gmbh Method of producing acrylic nitrile

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2476026A (en) * 1940-01-18 1949-07-12 Wingfoot Corp 2-cyano-2, 3-diacetoxy butanes
US2432511A (en) * 1943-02-16 1947-12-16 American Cyanamid Co Stabilization of acrylonitrile
US2429460A (en) * 1943-05-20 1947-10-21 Du Pont Manufacture of vinyl cyanide
US2444870A (en) * 1943-05-31 1948-07-06 Wingfoot Corp Copolymers of butadienes-1, 3 and alpha aryl acrylonitriles
US2417749A (en) * 1943-12-23 1947-03-18 Eastman Kodak Co Preparation of olefinic nitriles by dehydration with acetic anhydride
US2417748A (en) * 1943-12-23 1947-03-18 Eastman Kodak Co Preparation of methyl acrylate
US2494583A (en) * 1946-04-16 1950-01-17 William P Ratchford Pyrolysis of c-acetoxy aliphatic amides to acrylamides
US2478990A (en) * 1947-10-18 1949-08-16 Du Pont Preparation of atroponitrile
US2476270A (en) * 1947-11-12 1949-07-19 Goodrich Co B F Preparation of 1, 1-dicyano ethylene by the pyrolysis of 1-acetoxy-1, 1-dicyano ethane
US2790822A (en) * 1953-08-12 1957-04-30 Knapsack Ag Process for the preparation of aliphatic alpha-unsubstituted alpha-beta-unsatureated carboxylic acids and their derivatives
US2920100A (en) * 1955-03-24 1960-01-05 Wacker Chemie Gmbh Method of producing acrylic nitrile

Similar Documents

Publication Publication Date Title
US2208328A (en) Nitriles of acrylic acids
US2457660A (en) N-tertiary alkyl amides and method for preparing same
US2265814A (en) Manufacture of derivatives of unsaturated acids
US2511487A (en) Synthesis of iminodiacetonitrile
US2401429A (en) Process for the production of 2-amino-carboxylic acid nitriles
US2434606A (en) Method of preparing succinonitrile
US2415453A (en) Synthesis of bicyclo-olefinic compounds
US2301131A (en) Method of making unsaturated compounds
SAUERS et al. A new synthesis of β-cyanoesters
US2383137A (en) Acetylation of cyanohydrins
US2587210A (en) Production of acrylamides
US2417748A (en) Preparation of methyl acrylate
US2698337A (en) Hydrocyanation
US2231363A (en) Preparation of alpha-chloracrylonitrile
US2417749A (en) Preparation of olefinic nitriles by dehydration with acetic anhydride
US2320089A (en) Acyl acrylamide and its preparation
US2391251A (en) Derivatives of fatty acids and method of preparing same
US2426014A (en) Preparation of acyl cyanides
US2452187A (en) Synthesis of nitriles
US2210320A (en) Manufacture of methacrylonitrile
US4686302A (en) Simultaneous preparation of nitriles and acrylamide or methacrylamide
US2476264A (en) Araliphatic nitriles
US2726258A (en) Stabilization of unsaturated nitriles
US2471767A (en) Preparation of fumaronitrile
US2394520A (en) Nitriles and method of making the same