Processes employing multiple successive chemical reaction process steps and apparatus therefore
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C07C-067/00
C07C-051/255
C07C-051/16
출원번호
US-0197093
(2002-07-16)
발명자
/ 주소
Holl,Richard A.
Doss,James E.
Gulliver,Eric A.
출원인 / 주소
Kreido Laboratories
대리인 / 주소
Greenberg Traurig LLP
인용정보
피인용 횟수 :
4인용 특허 :
73
초록▼
The invention provides processes and apparatus for the production of materials requiring a plurality of chemical reaction steps. In the prior art the number of reaction vessels is minimized by performing two or more reactions together in the same vessel. Instead each process is separated into separ
The invention provides processes and apparatus for the production of materials requiring a plurality of chemical reaction steps. In the prior art the number of reaction vessels is minimized by performing two or more reactions together in the same vessel. Instead each process is separated into separate successive steps, in each of which at least two principal components are reacted together, with or without at least one catalyst. In each step the components are reacted under optimum conditions for that reaction, using motion-augmented, sub-Kolmogoroff, micro-agitation provided by a separate discrete motor-operated, micro-agitation means. Such means are much smaller in size, but are extremely flexible as to the flow rate and reaction conditions, so that they can be adjusted to suit the reaction, without compromises dictated by attempting to perform other reactions in the same vessel. Multiple micro-agitation means in parallel and/or in series can be used in each step to increase capacity without scale-up problems, and units can be serviced or capacity reduced without the need to close down the process. Motor-operated micro-agitation means performing a non-chemical action can be provided at any stage of the process. Between each two steps the resultant mixture is separated to give a principal component used in the subsequent step, while at least one new principal component is added in the next step. The materials to be produced preferably comprise organic di-carboxylic acids, and more preferably dimethyl terephthalate and terephthalic acid.
대표청구항▼
We claim: 1. Processes for the production of materials requiring a plurality of chemical reaction steps, the processes being characterized by: separation of the process into a plurality of separate successive process steps, each process step involving the reaction together of at least two principal
We claim: 1. Processes for the production of materials requiring a plurality of chemical reaction steps, the processes being characterized by: separation of the process into a plurality of separate successive process steps, each process step involving the reaction together of at least two principal step reaction components, with or without at least one catalyst component; in each process step the principal step reaction components are reacted together with the employment of motion augmented sub-Kolmogoroff micro-agitation provided by motor-operated, micro-agitation means to facilitate the reaction, thereby producing a mixture of process step output materials; between each two successive process steps a principal step reaction component for the subsequent process step is separated from the mixture of process step output materials from the prior process step and is supplied to the subsequent process step; and at least one new principal step reaction component is supplied to the subsequent process step for reaction with the thus separated principal step reaction component from the prior process step. 2. Processes as claimed in claim 1, and including at least one non-reaction process step employing motion-augmented, sub-Kolmogoroff micro-agitation provided by motor-operated, micro-agitation means, the said step being disposed in the process sequence at a location selected from the group comprising prior to all of the process steps, prior to any of the process steps involving a reaction, subsequent to any of the process steps involving a reaction, subsequent to all of the process steps, and interposed between any two successive process steps involving a reaction. 3. Processes as claimed in claim 1, wherein such motor-operated, micro-agitation means comprise: a cylindrical stator tube having at least a part along its length of uniform internal diameter about a longitudinal axis to provide a corresponding inner cylindrical surface; a rotor mounted for rotation within the tube with its longitudinal axis parallel with the tube axis and providing an outer cylindrical surface parallel to the inner tube surface to provide an annular passage between them; and means for rotating the rotor about its longitudinal axis; wherein the radial dimension of the passage is at most about equal to the combined thicknesses of two boundary layers back-to-back formed on the surfaces with no room between them for an intervening bulk layer such that would permit Taylor vortices to be formed. 4. Processes as claimed in claim 1, wherein the materials to be produced are organic di-carboxylic acids. 5. Processes as claimed in claim 1, wherein the material to be produced is dimethyl terephthalate, the processes including the steps of: oxidation in a first step of one methyl group of p-xylene to a carboxylic acid group; esterification in a second step of the carboxylic acid group; oxidation in a third step of the second methyl group of the p-xylene to the corresponding second carboxylic acid group; and esterification in a fourth step of the second carboxylic acid group to give the dimethyl terephthalate. 6. Processes as claimed in claim 1, wherein the material to be produced is terephthalic acid, the processes including the steps of: oxidation in a first step of one methyl group of p-xylene to a carboxylic acid group; esterification in a second step of the carboxylic acid group; oxidation in a third step of the second methyl group of the p-xylene to the corresponding second carboxylic acid group; esterification in a fourth step of the second carboxylic acid group; and hydrolysis in a fifth step of the resulting di-ester to terephthalic acid. 7. Processes as claimed in claim 1, wherein the material to be produced is terephthalic acid, the processes including the steps of: oxidation in a first step of one methyl group of p-xylene to a carboxylic acid group; esterification in a second step of the carboxylic acid group; oxidation in a third step of the second methyl group of the p-xylene to the corresponding second carboxylic acid group; and hydrolysis in a fourth step of the second carboxylic acid group to result terephthalic acid. 8. Processes for the production of organic carboxylic acids including at least two carboxylic acid groups, the processes being characterized by separate successive process steps, namely: in a first process step reacting together at least two principal first step reaction components, with the employment of motion augmented, sub-Kolmogoroff, micro-agitation to facilitate the reaction, the first of which components has methyl groups which are to be converted to carboxylic acid groups, and the second of which will oxidize a methyl group of the first component to the corresponding carboxylic acid, and separating out the converted product from the first step; in a second process step reacting together, with the employment of motion augmented, sub-Kolmogoroff, micro-agitation to facilitate the reaction, the converted product from the first step as a principal second step first reaction component and a second step second reaction component which will esterify the carboxylic acid group, and separating out the converted product from the second step; in a third process step reacting together, with the employment of motion augmented sub-Kolmogoroff micro-agitation to facilitate the reaction, the converted product from the second step as a principal third step first reaction component and a third step second reaction component which will oxidize another methyl group of the converted product from the second step to a second carboxylic acid group, and separating out the converted product from the third step; in a fourth process step reacting together, with the employment of motion augmented sub-Kolmogoroff micro-agitation to facilitate the reaction, the converted product from the third step as a principal fourth step first reaction component and a fourth step second reaction component which will esterify the second carboxylic acid group, and separating out the converted product from the fourth step; and in a fifth process step reacting together, with the employment of motion augmented sub-Kolmogoroff micro-agitation to facilitate the reaction, the converted product from the fourth step as a principal fifth step first reaction component and a fifth step second reaction component which will hydrolyse the esterified carboxylic acid groups, and separating out the converted product from the fifth step. 9. Processes as claimed in claim 8, wherein the materials to be produced are organic di-carboxylic acids. 10. Processes as claimed in claim 8, wherein the materials to be produced is dimethyl terephthalate and the first principal first step reaction component is p-xylene. 11. Processes as claimed in claim 8, wherein the materials to be produced is terephthalate acid and the principal first step reaction component is p-xylene. 12. Processes as claimed in claim 8, wherein the materials to be produced is terephthalate acid, the principal first step reaction component is p-xylene, and the process is terminated at the fourth step in which the principal fourth step first reaction component is hydrolysed by a fourth step second reaction component to result in the terephthalic acid.
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