An electrodialysis unit comprises a plurality of cathodes, a plurality of anodes and a plurality of membranes; the cathodes and anodes being arranged alternately in an electrode stack, with membranes in between each cathode and anode, anode flow paths formed between the membranes and anodes and cath
An electrodialysis unit comprises a plurality of cathodes, a plurality of anodes and a plurality of membranes; the cathodes and anodes being arranged alternately in an electrode stack, with membranes in between each cathode and anode, anode flow paths formed between the membranes and anodes and cathode flow paths formed between the membranes and cathodes; the electrodialysis unit further comprising: an inlet manifold for distributing water to the anode flow paths or to the cathode flow paths, wherein the inlet manifold comprises a first tube provided with holes along its length, the holes being connected to the flow paths, and a second tube located within and enclosed by the first tube, the second tube having an inlet at one end and being closed at its second end and the second tube being provided with holes along its length that open into the first tube.
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1. An electrodialysis unit comprising: a plurality of cathodes, a plurality of anodes and a plurality of membranes; the cathodes and anodes being arranged alternately in an electrode stack, with a membrane in between each adjacent cathode and anode, a plurality of anode flow paths, each anode flow p
1. An electrodialysis unit comprising: a plurality of cathodes, a plurality of anodes and a plurality of membranes; the cathodes and anodes being arranged alternately in an electrode stack, with a membrane in between each adjacent cathode and anode, a plurality of anode flow paths, each anode flow path formed between a membrane and an adjacent anode and a plurality of cathode flow paths, each cathode flow path formed between a membrane and an adjacent cathode;the electrodialysis unit further comprising:separate inlet manifolds for distributing water to the anode flow paths and to the cathode flow paths, wherein each inlet manifold comprises a first tube provided with holes along its length, the holes being connected to the flow paths, and a second tube located within and enclosed by the first tube, the second tube having an inlet at one end and being closed at its second end and the second tube being provided with holes along its length that open into the first tube, wherein the inlet manifold for the cathode flow paths is arranged for a higher flow rate than the inlet manifold for the anode flow paths. 2. The electrodialysis unit as claimed in claim 1, comprising two parallel inlet manifolds for the cathode flow paths, supplying water in parallel to the cathode flow paths and a single inlet manifold for the anode flow paths, whereby the cathode flow paths are provided with water at a higher flow rate than the anode flow paths. 3. The electrodialysis unit as claimed in claim 1, wherein the holes of the first tube connect to the flow paths via flow guides. 4. The electrodialysis unit as claimed in claim 1, wherein the holes of the first tube take the form of slits aligned transversely across the tube. 5. The electrodialysis unit as claimed in claim 1, wherein the holes of the second tube are slits aligned transversely across the tube. 6. The electrodialysis unit as claimed in claim 1, wherein the second tube comprises holes on a first side of the second tube facing the holes of the first tube and/or the second tube comprises holes on a second side of the second tube, the second side being opposite to the first side. 7. The electrodialysis unit as claimed in claim 1, wherein the second tube is located concentrically within the first tube. 8. The electrodialysis unit as claimed in claim 1, wherein the anodes and cathodes are supported by separators and the separators are provided with through holes at inlet ends of the separators, and wherein the inlet manifold is located along the through holes in the separators with the holes in the first tube opening into flow guide features formed in the separators. 9. The electrodialysis unit as claimed in claim 8, wherein the first tube is a tube formed by alignment of the through holes in the separators with each other and the second tube is a pipe inserted into the first tube. 10. A method of treating water comprising using the electrodialysis unit of claim 1. 11. A method of manufacturing an electrodialysis unit comprising: a plurality of cathodes, a plurality of anodes and a plurality of membranes; the cathodes and anodes being arranged alternately in an electrode stack, with a membrane in between each adjacent cathode and anode, a plurality of anode flow paths, each anode flow path formed between a membrane and an adjacent anode and each cathode flow path formed between a membrane and an adjacent cathode; the method comprising:providing separate inlet manifolds for distributing water to the anode flow paths and to the cathode flow paths, wherein each inlet manifold comprises a first tube provided with holes along its length, and a second tube having an inlet at one end and being closed at its second end and the second tube also being provided with holes, wherein the inlet manifold for the cathode flow paths is arranged for a higher flow rate than the inlet manifold for the anode flow paths; and providing the first tube in the electrode stackso that the holes of the first tube connect to the flow paths and locating the second tube within the first tube so that the second tube is within and enclosed by the first tube and the holes of the second tube open into the first tube. 12. The method as claimed in claim 11, wherein the anodes and cathodes are supported by separators and the separators are provided with through holes at inlet ends of the separators, the method comprising: providing the inlet manifold in the electrode stack along the through holes in the separators. 13. The method as claimed in claim 12, comprising forming the first tube by alignment of the through holes in the separators with each other and inserting the second tube into and along the first tube. 14. The method as claimed in claim 10, wherein the water is ballast water. 15. The method as claimed in claim 10, wherein the water is sea water.
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이 특허에 인용된 특허 (9)
Miyamae Kazuhiro (Machida JPX), Apparatus for producing electrolyzed water.
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