Abstract: The invention relates to a method for separating formic acid from a reaction mixture by means of extraction, wherein, in addition to the formic acid, the reaction mixture comprises a polyoxometalate ion of general formula [PMoxVyO40]n? as a catalyst and a solvent that dissolves the catalyst, wherein 6?x?11, 1?6, x+y=12 and 3<n<10, wherein n, x, and y are each a whole number, wherein the separation occurs via extraction by means of a polar organic extraction agent which extracts the formic acid and the catalyst and which is N-(n-hexadecyl)formamide, N-di-n-acetamide or an N,N-dialkylcarboxamide, wherein the N,N-dialkylcarboxamide forms a phase boundary between the solvent and the extraction agent during mixing with the solvent.
Type:
Grant
Filed:
July 17, 2017
Date of Patent:
June 23, 2020
Assignee:
OXFA GMBH
Inventors:
Hermann Wolf Jbach, Florian Kohler, Matthias Schmidt, Gunthard Scholz, Martin Dirauf
Abstract: The invention relates to catalytically producing formic acid and regenerating the catalyst used in the process. A vanadyl ion, vandate ion, or polyoxometallate ion, which is used as the catalyst, of the general formula [PMoxVyO40]n? is brought into contact with an alpha hydroxyl aldehyde, an alpha hydroxy carboxylic acid, a carbohydrate, a glycoside, or a polymer, which contains a carbon chain and which comprises at least two OH groups bonded as substituents to the carbon chain as a substituent in a repeating manner and/or an O, N, or S atom contained in the carbon chain in a repeating manner, in a liquid solution (12) in a vessel (10) at a temperature above 70° C. and below 160° C., wherein 6?x?11, 1?y?6, 3<n<10, and x+y=12, where n, x, and y is each a whole number.
Type:
Grant
Filed:
July 17, 2017
Date of Patent:
May 26, 2020
Assignee:
OXFA GmbH
Inventors:
Hermann Wolf Jbach, Florian Kohler, Matthias Schmidt, Gunthard Scholz
Abstract: The invention relates to a method for catalytically producing formic acid and regenerating the catalyst used in the process. A vanadyl ion, vandate ion, or polyoxometallate ion, which is used as the catalyst, of the general formula [PMoxVyO40]n? is brought into contact with an alpha hydroxyl aldehyde, an alpha hydroxy carboxylic acid, a carbohydrate, a glycoside, or a polymer, which contains a carbon chain and which comprises at least one OH group that is bound to the carbon chain as a substituent in a repeating manner and/or an O, N, or S atom contained in the carbon chain in a repeating manner, in a liquid solution (12) in a vessel (10) at a temperature above 70° C. and below 160° C., wherein 6?x?11, 1?y?6, 3<n<10, and x+y=12, where n, x, and y is each a whole number. The catalyst reduced in the process is returned to its starting state by oxidation.
Type:
Application
Filed:
July 17, 2017
Publication date:
September 26, 2019
Applicant:
OXFA GMBH
Inventors:
Hermann Wolf JBACH, Florian KOHLER, Matthias SCHMIDT, Gunthard SCHOLZ
Abstract: The invention relates to a method for separating formic acid from a reaction mixture by means of extraction, wherein, in addition to the formic acid, the reaction mixture comprises a polyoxometalate ion of general formula [PMoxVyO40]n? as a catalyst and a solvent that dissolves the catalyst, wherein 6?x?11, 1?y?6, x+y=12 and 3<n<10, wherein n, x, and y are each a whole number, wherein the separation occurs via extraction by means of a polar organic extraction agent which extracts the formic acid and the catalyst and which is N—(N-Hexadecyl)formamide, N-di-n-acetamide or an N,N-dialkylcarboxamide, wherein the N,N-dialkylcarboxamide forms a phase boundary between the solvent and the extraction agent during mixing with the solvent, wherein the extraction agent is one which, for extraction of the catalyst contained in water at a concentration of 1.5 wt. %, has a catalyst distribution coefficient at 40° C.
Type:
Application
Filed:
July 17, 2017
Publication date:
August 15, 2019
Applicant:
OXFA GMBH
Inventors:
Hermann Wolf JBACH, Florian KOHLER, Matthias SCHMIDT, Gunthard SCHOLZ, Martin DIRAUF
Abstract: The invention relates to a method for separating formic acid from a reaction mixture which comprises, in addition to formic acid, a polyoxometalate ion of general formula [PMoxVyO40]n?, where 6?x?11, 1?y?6, x+y=12 and 3<n<10, where n, x and y are each integers, wherein the separation occurs by means of an extraction using a linear primary alcohol, wherein the carbon chain of the alcohol comprises 5 to 12 carbon atoms, and the reaction mixture is present in a protic solvent.
Type:
Grant
Filed:
January 18, 2016
Date of Patent:
October 16, 2018
Assignee:
OXFA GMBH
Inventors:
Jakob Albert, Andreas Bösmann, Jenny Reichert, Peter Wasserscheid
Abstract: Methods for catalytic generation of formic acid at an oxygen partial pressure of less than 1 bar and regeneration of the catalyst used in this process, wherein a polyoxometallate ion of the general formula [PMoxVyO40]n?, which serves as the catalyst, is brought in contact with an alpha-hydroxyaldehyde, an alpha-hydroxycarboxylic acid, a carbohydrate, a glycoside or a polymer containing a carbon chain with at least one OH group bound as a repeatedly occurring substituent to the carbon chain and/or an O, N or S atom occurring repeatedly in the carbon chain in a liquid solution in a vessel, at a temperature above 70 ° C. and below 120 ° C.
Abstract: The invention relates to a method for the catalytic generation of formic acid at an oxygen partial pressure below 1 bar and regeneration of the catalyst used therefor.
Abstract: The invention relates to a method for separating formic acid from a reaction mixture which comprises, in addition to formic acid, a polyoxometalate ion of general formula [PMoxVyO40]n, where 6#x#11, 1#y#6, x+y=12 and 3<n<10, where n, x and y are each integers, wherein the separation occurs by means of an extraction using a linear primary alcohol, wherein the carbon chain of the alcohol comprises 5 to 12 carbon atoms, and the reaction mixture is present in a protic solvent.
Type:
Application
Filed:
January 18, 2016
Publication date:
December 28, 2017
Applicant:
OXFA GMBH
Inventors:
Jakob ALBERT, Andreas BÖSMANN, Jenny REICHERT, Peter WASSERSCHEID