TH74130B - Process for the preparation of monomer and polymer of this substance. - Google Patents

Abstract

DC60 Process of unsaturated amide preparation by ethylene or carboxylic acid. Acid is not saturated by ethylene. Or salts of this substance from unsaturated nitriles by the corresponding ethylene Where nitriles are introduced into a hydration or hydrolysis reaction in an aqua medium. Bio Catalyst Where nitriles contain more than 2 ppm acrylonitrile and amides, or The carboxylic acid or its salts contain less than 2 ppm acrylonitrile. Prepare highly purified acrylamide or acrylic acid (salt) from low quality acrylonitrile that Contains high levels of acrylins Suitable biocatalysts, including the genus Rhodococus.

Claims (8)

Disclaimer (all) which will not appear on the advertisement page: Amendment 30 Jan 2020 No disclaimer -------------------------------------------------- ------------------------ ------ 03/10/2017 ------ (OCR) page 1 of 3 pages Disclaimer 1. The process of preparing amide unsaturated by ethylene or carboxylic acid. Unsaturated by ethylene Or salts of these substances from unsaturated nitriles by ethylene, in which nitriles are This leads to hydration or hydrolysis in the Aquatic medium in the presence of biocatalysts where the biocatalyst is a type of microorganism that It can produce nitrile hydrates, nitrile hydrates and amidase, or nitrilease. Where nitrites break, acrylonin more than 2 ppm and amides or carboxylic acids, or Its salt contains less than 2 ppm acrylonitrile 2. Process according to claim 1 where the biocatalyst is the microorganism of the Rhodococcus genus 3. The process of claim 1 or 2 where Biocatalysts are microorganisms of Rhodococcus rhodochrous species. 4. Process according to one of the claims 1 to 3. Where the biocatalist can choose From the microbial group, Rhodococcus rhodochrous strain 2325 (NCIMB 41164), its mutant and nitrile hydrates derived from Rhodococcus rhodochrous strains 2325 or its mutant. Any of the claims 1 to 3 where Biokatalist can choose From the microbial group, Rhodococcus rhodochrous Jl), its mutants and nitriles. Hydrates obtained from Rhodococcus rhodochrous Jl or its mutants 6. Process according to claim 1 or 2, where the biocatalyst is the microorganism of the Rhodococcus ruber species 7. Process According to Clause 1,2 or any of the 6, where the biocatalist can be selected from a group containing the microorganisms Rhodococcus ruber NCIMB 40833, its mutant and nitri. Less was obtained from Rhodococcus ruber strain NCIMB 40833 or its mutant. 8. Process according to the Clause Clause. 1,2 or claim One of the six biocatalysts was selected from a group containing the microorganisms Rhodococcus ruber NCIMB 40757, their mutants and nitriles, derived from Rhodococcus ruber, the strain NCIMB 40757. Or its mutant Page 2 of 3 Page 9. Process in accordance with Clause 1 to 4, any one Where the biocatalist can choose From the microorganism group, Dietzia natronolimaios NCIMB 41165, its mutant and night Tri-Hytrate And Amides, derived from Dietzia natronolimaios NCIMB 41165, its mutant 1 0. Process by any of Clause 1 to 9, where the biocatalist Contains Whole Cell 1. 1. Process in accordance with any of Clause 1 to 10 in which the Biocatalist It consists of an intracellular material that has been ruptured 1 2. Process according to claim 1 to 1, either where amite is (meth) acrylamite 1. Hold any one of the rights 1 to 12 where carboxylic acid is (meth) acrylic acid (salt) 1 4. Process according to clause 1 to 13. One where nitriles contain a Chromolyin at least 10 ppm 1 5. Process in accordance with Clause 1 to 14, where nitrile contains a Croline at least 20 ppm 1 6. Process according to claim 1 to 15 in which nitrile contains Acrylonitrile up to 500 ppm 1 7. Using Bio-catalyst Bio-catalyst is a type of microorganism that can produce nitrile hydrates, nitrile hydrates and Amides, or nitriles for the purpose of reducing the level of Acrylonitrile in monomer Unsaturated by ethylene 1 8. Use according to claim 17 where unsaturated monomer by ethylene is selectable from the group containing (meth) acrylamite, (Meth) acrylic acid (or salt) and (meth) acrylonitrile 1 9. Use of claims. 17 or claim 18 Where the biocatalist has any distinctive features 2 0. Process for the polymerization of unsaturated monomers by ethylene or Blents containing unsaturated monomers by ethylene, the monomers are formed from unsaturated nitriles by Ethylene containing the (i) procedure unsaturated nitrile exposure by ethylene with biocatalyst. The sung bio-catalyst is a type of microorganism that can produce nitrile. Tryl hydrates, nitrile hydrates and amidase, or nitrylase to form unsaturated monomers by ethylene (ii). Alternative mixing of monomers. Norrs saturated by ethylene with Other monomer Page 3 of the 3-page blended were formed (iii). The monomer saturated by ethylene or the blended was introduced into the process state. Polymerization by going to form polymers Where nitrile unsaturated by ethylene contains: acrylonitrile greater than 2 ppm and unsaturated monomer by ethylene contains less than 2 ppm acrylonitrile. 2 1. Process according to claim 20, where the monomer is unsaturated by ethylene, selected from the group containing (meth) acrylamide and (meth) acrylic. Acid (or Salt) 2 2. Process according to claim 20 or claim 21 where the Biocatalist has any of the distinctive characteristics set out in any of the Clause 2 to 5. 2 3. Process for one of Clause 20 to 22. Where nitriles contain Acrylonitrile at least 10 ppm 2 4. Any process according to Clause 20 to 23 Where nitriles contain Acrylonitrile at least 20 ppm 2 5. One of the Qualifications 20 to 24 process. Where nitriles contain Acrylonitrile up to 500 ppm ------------ 1. Process of unsaturated amide preparation by ethylene or Unsaturated carboxylic acid by ethylene Or salts of these substances from unsaturated nitrools By ethylene, in which nitrols are introduced into a hydration or hydrolysis reaction in the medium Achilles in having a biochemist Where nitrool contains more than 2 ppm acrylonitrile and amide, or The carboxylicic acid, or its salt, contains less than 2ppm of acrylene. 2. Process according to claim 1, where biocatalysts are tiny microorganisms capable of producing nitrohydra. Clause 3. Process according to claim 1, where biocatalysts are small microorganisms capable of producing nitrile hydrates and amidase 4. Process according to claim 1, where Biocatalysts are tiny microorganisms. 5. Process according to any claim 1 to 4, where the biocatalyst is a microorganism of the genus Rhodoccocus. 6. Process of any claim. Any of items 1 to 5 where a biocatalist is a microbe of Rhodococcus rhodochrous species 7. Process by any of the Clause 1 to 6, where Biocatalysts were selected from the microbial group, Rhodococcus rhodochrous strains 2325 (NCIMB 41164), its mutants, and nitrile hydrates derived from Rhodococus rhodochrous strains 1825 or Its mutant 8. Any claim 1 to 6 process where biocatalysts are selectable from a group containing the microorganism Rhodoccocus rhodochrous J1), Mutein. 9. The process of any of the claims 1 to 5, where biocatalis is derived from Rhodococcus rhodochrous J1 or its mutant. A host is a microorganism of Rhodococcus ruber species 1 0. Process by any claim 1 to 5 or any of the nine claims. Where the biocatalysts were selected from the microorganism group Rhodococcus ruber NCIMB 40833, its mutant and nitric stainless were derived from Rhodococcus ruber strains NCIMB 40833, or the mutant. 1. Process by any claim 1 to 5 or any claim 9. Where the biocatalysts were selected from the microorganism group Rhodococcus ruber NCIMB 40757, its mutant and nitric stainless were obtained from Rhodococcus ruber strains NCIMB 40757 or the mutant. 1 2. Process by any one of these claims 1 to 4 where the biocatalyst can be selected from the microbe-containing group Dietzia natronolimaios NCIMB 41165, the mutant of It and nitrile hydrates. And Amides derived from Dietzia natronolimaios NCIMB 41165, its mutant 1. 3. Process by any of the Clause 1 to 12 of any claim, where the biocatalist consists of Ho Cell 1 4. The process of any claim 1 to 13, where the biocatalyst contains cellular factor material 1 5. The process of any claim. Clause 1 to 14, any one where the amide is (meth) acrylamide 1 6. Process by any of the claims 1 to 15, where the caric acid indicates Silic is (meth) acrylic acid (salt) 1. 7. Process by any of the claims 1 to 16. In which nitrool Contains at least 10 ppm acrylonitrile 1 8. Process by any of the claims 1 to 17. In which nitrool Contains at least 20 ppm acrylonitrile 1. 9. Process of any claim 1 to 18 where nitrools contain: Acrylonitrile up to 500 ppm 2 0. Use of biocatalyst for the purpose of reducing acrylonitrile in unsaturated monomer by ethylene 2. 1. Use according to claim 20 where the monomer is unsaturated by ethylene, selected from A group containing (meth) acrylamide, (meth) acrylic acid (or salt) and (meth) acrylonitrile 2. 2. Use of claim 20 or claim 21 where BioCatalist Possess any distinguishing characteristics described in any of Clause 2 to 19 2. 3.Process for the polymer preparation of unsaturated monomers by Ethylene, or blends containing unsaturated monomers by ethylene in which the monomer is formed from Ethylene unsaturated nitrols containing (i) phase exposure of unsaturated nitrools by ethylene with biocatalyst to Formed as an unsaturated monomer by ethylene (ii) Alternative mixing of monomer saturated by ethylene with Other monomers are blended, and (iii) the monomer saturated by ethylene or the blend into the processing state. Polymerization Where it will form a polymer Where nitrolols unsaturated by ethylene contain Acrylonitrile exceeds 2 ppm and unsaturated monomer by ethylene contains less than 2ppm 2 acrylonitrile. 4. Process according to claim 23, where the monomer is not saturated by ethylene. Choose from a group that contains (meth) acrylamide and (meth) acrylic acid (or salt) 2. 5. Process according to claim 23 or claim 24 where biocatalist Have any distinctive features Defined in Clause 2 to 8, either of Clause 2. 6. Process by any claim 23 to 25, any one. In which nitrool Contains 10 ppm of acrylonitrile. 7. Process by any claim 23 to 26, any one In which nitrool Contains at least 20 ppm of acrylonitrile. 8. Process by any claim 23 to 27 where nitrols contain: Acrylonitrile up to 500 ppm