Process for regenerating a strongly acidic cation exchange resin

Abstract

This invention relates to a process for regenerating a strongly acidic cation exchange resin which has used for a desalting treatment or partition chromatographic separation of a sugar liquid which lowers its separation capability, by means of contacting said strongly acidic cation exchange resin with an enzyme solution.

Description

Claims

1. A process for regenerating a strongly acidic cation exchange resin having organic matter deposited on surfaces thereof comprising contacting said strongly acidic cation exchange resin with an enzyme solution whereby said organic matter is removed from the surfaces of said resin.

2. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 1, wherein said resin is contacted with the enzyme solution at a temperature of 30.degree. to 100.degree. C. for at least two hours.

3. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 1, wherein the enzyme solution is a solution of amylase.

4. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 1, wherein the enzyme solution is a solution of protease.

5. A process for regenerating a strongly acidic cation exchange resin as claimed is claim 1, wherein the enzyme solution is a solution of a mixture of amylase and protease.

6. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 1, wherein the enzyme solution is held in contact with a layer of said resin for a predetermined period.

7. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 1, wherein the enzyme solution is recycled through a layer of said resin for a predetermined period.

8. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 1 wherein the cation exchange resin having organic matter deposited on surfaces thereof is obtained by contacting a strongly acidic cation exchange resin with a sugar liquid obtained by the saccharification of starch.

9. A process for regenerating a strongly acidic cation exchange resin having polysaccharides and/or proteins deposited on surfaces thereof comprising contacting said strongly acidic cation exchange resin with an enzyme solution whereby each of said polysaccharides and/or proteins is removed from the surfaces of said resin.

10. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 9 wherein the cation exchange resin having polysaccharides and/or proteins deposited on surfaces thereof is obtained by contacting a strongly acidic cation exchange resin with a sugar liquid obtained by the saccharification of starch.

11. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 9, wherein said resin is contacted with the enzyme solution at a temperature of 30.degree. to 100.degree. C. for at least two hours.

12. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 9 wherein the enzyme solution is a solution of amylase.

13. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 9, wherein the enzyme solution is a solution of protease.

14. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 9, wherein the enzyme solution is a solution of a mixture of amylase and protease.

15. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 9, wherein the enzyme solution is held in contact with a layer of said cation exchange resin.

16. A process for regenerating a strongly acidic cation exchange resin as claimed in claim 9, wherein the enzyme solution is recycled through a layer of said cation exchange resin for a predetermined period.