Apparatus and process for electrodialysis of salts
First Claim
1. A process for converting an incoming feed of a salt of a monovalent cation and a weak acid anion into an acidified product stream which is reduced in its monovalent cation content, said process comprising the steps of:
- (a) obtaining an input feed stream which is freed of suspended solids;
(b) passing the feed stream of step (a) through a salt/acid compartment of a two compartment electrodialysis cell containing at least a bipolar membrane and two cation membranes, said bipolar membrane having a cation side and an anion side, said salt/acid compartment being located between said cation side of the bipolar membrane and one of said cation membranes, the other of said two compartments being a base compartment coupled in a base loop extending directly from an output of said base compartment through an ion exchange column to an input of said base compartment, said base compartment being located between said anion side of the bipolar membrane and the other of said cation membranes;
(c) supplying a liquid including water to the base compartment of the cell, said base compartment having an output stream in constant communication with said ion exchange column in said base loop, said column being packed with a material capable of removing multivalent cations that may enter the base loop whereby a first portion of an output stream from said base compartment passes through said ion exchange column for further refinement of said stream in said base compartment, (d) passing a direct current through the electrodialysis cell for causing an acidification of the feed salt and a concurrent transport of monovalent cations to the base loop;
(e) producing a base product through a combination of the transported cation with a hydroxyl ion generated by the bipolar membrane in the base loop; and
(f) withdrawing a second portion of said output stream from said base compartment which comprises the acidified feed and the base product.
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Abstract
An apparatus and process produces salts by an electrodialysis operation. The basic electrodialysis apparatus is a cell having a number of compartments separated by ion exchange membranes. A DC source is connected to drive a current through a feed stream passing through the cell which splits the salt stream into an acid and a base. The incoming feed may be nanofiltered to remove divalent metal. The base loop may be in communication with an ion exchange column packed with a material that removes multivalent cations. Monovalent selctive cation membranes may be used to effect preferential treatment of the monovalent cations to the base loop. Depending upon the material being processed and the desired end result either or both the nanofiltration and the ion exchanged column may be used in the apparatus.
116 Citations
21 Claims
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1. A process for converting an incoming feed of a salt of a monovalent cation and a weak acid anion into an acidified product stream which is reduced in its monovalent cation content, said process comprising the steps of:
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(a) obtaining an input feed stream which is freed of suspended solids;
(b) passing the feed stream of step (a) through a salt/acid compartment of a two compartment electrodialysis cell containing at least a bipolar membrane and two cation membranes, said bipolar membrane having a cation side and an anion side, said salt/acid compartment being located between said cation side of the bipolar membrane and one of said cation membranes, the other of said two compartments being a base compartment coupled in a base loop extending directly from an output of said base compartment through an ion exchange column to an input of said base compartment, said base compartment being located between said anion side of the bipolar membrane and the other of said cation membranes;
(c) supplying a liquid including water to the base compartment of the cell, said base compartment having an output stream in constant communication with said ion exchange column in said base loop, said column being packed with a material capable of removing multivalent cations that may enter the base loop whereby a first portion of an output stream from said base compartment passes through said ion exchange column for further refinement of said stream in said base compartment, (d) passing a direct current through the electrodialysis cell for causing an acidification of the feed salt and a concurrent transport of monovalent cations to the base loop;
(e) producing a base product through a combination of the transported cation with a hydroxyl ion generated by the bipolar membrane in the base loop; and
(f) withdrawing a second portion of said output stream from said base compartment which comprises the acidified feed and the base product. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A process for converting an incoming feed of a weak base monovalent cation and an anion into a basified product stream which is reduced in its anion content, said process comprising the steps of:
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(a) obtaining an input feed stream which is freed of suspended solids;
(b) passing the feed stream of step (a) through a salt/base compartment of a two compartment electrodialysis cell containing at least a bipolar membrane and an anion membrane, said bipolar membrane having a cation side and an anion side, said salt/base compartment being coupled in a salt/base loop extending directly from an output of said salt/base compartment through an ion exchange column to an input of said salt/base compartment, located between said anion side of the bipolar membrane and said anion membrane, the other of said two compartments being an acid compartment, said acid compartment being located between said cation side of the bipolar membrane and an anion membrane;
(c) supplying a liquid including water to the base compartment of the cell and the feed stream from step (a) to the salt/base loop, said salt/base loop having an output stream in constant communication with said ion exchange column in said salt/base loop, said column being packed with a material capable of removing multivalent cations that may enter the base loop whereby a first portion of an output stream from said salt/base loop passes through said ion exchange column for further refinement of said stream in said salt/base compartment;
(d) passing a direct current through the electrodialysis cell for causing a basification of the feed salt and a concurrent transport of anions to the acid loop; and
(e) withdrawing a second portion of said output stream from said salt/base compartment which comprises the basified salt and an acid product from the acid compartment. - View Dependent Claims (19)
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20. A process for converting an incoming feed of a salt of a monovalent cation and an anion into acid and base product streams and a stream reduced in its monovalent salt content, said process comprising the steps of:
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(a) obtaining an input feed stream which is freed of suspended solids;
(b) passing the feed stream of step (a) through a salt compartment of a three compartment electrodialysis cell containing at least a bipolar membrane, a cation membrane and an anion membrane, said bipolar membrane having a cation side and an anion side, said salt compartment being located between said cation membrane and the anion membrane, and said acid compartment being located between said cation side of the bipolar membrane and said anion membrane; and
the base compartment being located between the anion side of the bipolar membrane and the cation membrane;
said base compartment being coupled in a base loop extending directly from an output of said base compartment through an ion exchange column to an input of said base compartment;
(c) supplying a liquid including water to the acid and base compartments of the cell, said base compartment having an output stream in constant communication with said ion exchange column in said base loop, said column being packed with a material capable of removing multivalent cations that may enter the base loop whereby a first portion of an output stream from said base compartment passes through said ion exchange column for further refinement of said stream in said base compartment;
(d) passing a direct current through the electrodialysis cell for causing conversion of at least a portion of the feed salt into its acid and base components through transport of monovalent cations to the base loop and anions to an acid loop;
(e) producing an acid product through a combination of the transported anion with a hydrogen ion generated by this bipolar membrane in the acid loop and a base product through a combination of the transported cation with a hydroxyl ion generated by the bipolar membrane in the base loop; and
(f) withdrawing the feed depleted in its salt content;
the acid product and a second portion of said output stream from said base compartment which comprises the acidified feed and the base product.- View Dependent Claims (21)
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Specification