The present invention relates to an electroionic apparatus for treating an aqueous solution, including a flow cell through which the aqueous solution may flow, and a high frequency AC power source. A pair of electrodes within the flow cell are in contact with the aqueous solution and coupled to the
The present invention relates to an electroionic apparatus for treating an aqueous solution, including a flow cell through which the aqueous solution may flow, and a high frequency AC power source. A pair of electrodes within the flow cell are in contact with the aqueous solution and coupled to the AC power source. The AC power source generates a signal that is transmitted to the electrodes to generate an electromagnetic field and an ionic current within the aqueous solution in the flow cell. Each electrode includes a plurality of perforations defined through the plate electrode. Electrodes within the flow cell may be formed of materials having a catalytic effect upon the electroionic reactions within the flow cell.
대표청구항▼
What is claimed is: 1. A electroionic apparatus for treating an aqueous solution, the apparatus comprising: a flow cell through which the aqueous solution may flow; a high frequency AC power source; a pair of electrodes within the flow cell in contact with the aqueous solution and coupled to the AC
What is claimed is: 1. A electroionic apparatus for treating an aqueous solution, the apparatus comprising: a flow cell through which the aqueous solution may flow; a high frequency AC power source; a pair of electrodes within the flow cell in contact with the aqueous solution and coupled to the AC power source, at least one of the electrodes having openings defined through that electrode; the AC power source generating a signal and transmitting that signal to the electrodes to generate an electromagnetic field and an ionic current within the aqueous solution in the flow cell. 2. The electroionic apparatus of claim 1, wherein at least one of the electrodes includes a catalytic material chosen to alter an electroionic reaction within the aqueous solution within the flow cell. 3. The electroionic apparatus of claim 1, wherein at least one of the electrodes is formed from a plurality of wires, and the openings in the electrode are defined between adjacent wires. 4. The electroionic apparatus of claim 3, wherein the plurality of wires are interwoven. 5. The electroionic apparatus of claim 3, wherein the plurality of wires of the at least one electrode includes at least two different materials. 6. The electroionic apparatus of claim 5, wherein at least one of the at least two different materials within the electrode includes a catalytic material chosen to alter an electroionic reaction within the aqueous solution within the flow cell. 7. The electroionic apparatus of claim 6, wherein the catalytic material is coated about at least one of the wires of the at least one electrode. 8. The electroionic apparatus of claim 3, wherein the plurality of wires of the at least one electrode includes wires of at least two different materials, at least two of the materials are electrically conductive and adjacent wires of different electrically conductive materials are insulated from electrical contact with each other. 9. The electroionic apparatus of claim 3, further comprising each electrode formed of at least two different materials, and at least one of the at least two different electrically conductive materials within each electrode is a catalytic material chosen to alter an electroionic reaction within the aqueous solution within the flow cell. 10. The electroionic apparatus of claim of claim 9, wherein each electrode includes the same catalytic materials among the different electrically conductive materials from which the electrodes are formed. 11. The electroionic apparatus of claim of claim 9, wherein each electrode includes different catalytic materials among the different electrically conductive materials from which the electrodes are formed. 12. The electroionic apparatus of claim 9, wherein at least one of the electrodes includes a plurality of catalytic materials among the different electrically conductive materials from which the electrodes are formed. 13. The electroionic apparatus of claim 9, further comprising at least one of the electrodes including a non-reactive material among the different electrically conductive materials from which the electrode is formed. 14. The electroionic apparatus of claim 1, wherein at least one of the electrodes is a plate electrode with a plurality of openings defined through the plate. 15. The electroionic apparatus of claim 14, wherein the at least one plate electrode includes a plurality of materials and at least one of the plurality of materials is a catalytic material chosen to alter an electroionic reaction within the aqueous solution within the flow cell. 16. The electroionic apparatus of claim 15, wherein the at least one catalytic material is coated upon the at least one plate electrode. 17. The electroionic apparatus of claim 14, wherein both of the electrodes are plate electrodes with openings defined through each of the plates and each of the electrodes includes a plurality of materials and at least one of the materials is a catalytic material chosen to alter an electroionic reaction within the aqueous solution within the flow cell. 18. The electroionic apparatus of claim 17, wherein the at least one catalytic material is coated upon at least one of the pair of plate electrodes. 19. A electroionic apparatus for treating an aqueous solution, the apparatus comprising: a flow cell through which the aqueous solution may flow; a high frequency AC power source; a pair of electrodes within the flow cell in contact with the aqueous solution and coupled to the AC power source, and a plurality of openings defined through each electrode; the AC power source generating a signal; the signal transmitted to the flow cell and inducing an electromagnetic field and an ionic current within the flow cell within the aqueous solution in the flow cell about the electrodes. 20. The electroionic apparatus of claim 19, wherein the electrodes are plate electrodes and openings are defined through each plate electrode. 21. The electroionic apparatus of claim 19, wherein the electrodes are formed of a plurality of wires and the openings are defined by spaces between the wires. 22. The electroionic apparatus of claim 21, wherein the wires of each electrode are interwoven. 23. The electroionic apparatus of claim 19, wherein at least one of the electrodes includes a plurality of materials and at least one of the plurality of materials is a catalytic material chosen to alter an electroionic reaction within the aqueous solution within the flow cell. 24. The electroionic apparatus of claim 23, wherein the catalytic material is coated on the electrode.
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이 특허에 인용된 특허 (10)
Bossert Karl (Villingen DEX), Apparatus for treating a liquid with alternating magnetic and electric fields.
Dhar Hari P. (College Station TX) Bockris John O. (College Station TX) Lewis Donald H. (College Station TX), Cathodic electrochemical process for preventing or retarding microbial and calcareous fouling.
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