Electrodeionization module and apparatus

The invention claimed is: 1. An electrodeionization (EDI) module comprising a cathode ( 7 ) and an anode ( 8 ) spaced apart from the cathode ( 7 ), having therebetween at least two ion permeable membranes comprising at least one anion permeable membrane ( 2 ) and at least one cation permeable membrane ( 1 ) and delimiting one or more diluate compartments ( 5 ) and one or more concentrate compartments ( 6 ), wherein at least one diluate compartment ( 5 ) contains at least two blocks ( 4 , 3 ), a first block ( 4 ) containing anion-exchange material and a second block ( 3 ) containing cation-exchange material wherein a surface of said first block ( 4 ) is adjacent to an anion permeable membrane ( 2 ) and a surface of said second block ( 3 ) is adjacent to a cation permeable membrane ( 1 ), and wherein said first and second blocks ( 4 , 3 ) have complementary protrusions and recesses and are arranged side by side and in direct contact with each other with said complementary protrusions and recesses forming an interface between said first and second blocks ( 4 , 3 ), wherein said at least one diluate compartment ( 5 ) is completely filled with said first and second blocks ( 4 , 3 ), without forming gaps or channels, wherein said interface extends transverse to a liquid-passing direction through said at least one diluate compartment ( 5 ), wherein said interface is spaced apart from said anion permeable membrane ( 2 ) and said cation permeable membrane, ( 1 ) and wherein said interface is formed such that a straight line in the liquid-passing direction crosses the interface at least one time. 2. The EDI module according to claim 1 , wherein at least part of said interface between said first and second blocks ( 4 , 3 ) is corrugated in a direction transverse to the liquid-passing direction. 3. The EDI module according to claim 1 , wherein a surface of said first block ( 4 ), opposite to the surface adjacent to the anion permeable membrane ( 2 ), is complementary to a surface of said second block ( 3 ), opposite to the surface adjacent to the cation permeable membrane ( 1 ). 4. The EDI module according to claim 3 , wherein at least part of the complementary protrusions and recesses of said first and second blocks ( 4 , 3 ) is corrugated in a direction transverse to the liquid-passing direction. 5. The EDI module according to claim 1 , wherein at least part of said complementary protrusions and recesses of said first and second blocks ( 4 , 3 ) is wedge-shaped, saw-tooth-shaped or wavy. 6. The EDI module according to claim 1 , wherein said first and second blocks ( 4 , 3 ) comprise or are made of porous material or fibrous material. 7. The EDI module according to claim 1 , wherein the porosity of said first block ( 4 ) is similar to the porosity of said second block ( 3 ). 8. The EDI module according to claim 1 , wherein the anion-exchange capacity of said first block ( 4 ) is similar to or higher than the cation-exchange capacity of said second block ( 3 ). 9. The EDI module according to claim 1 , wherein said at least one anion permeable membrane ( 2 ) is an anion-exchange membrane and said at least one cation permeable membrane ( 1 ) is a cation-exchange membrane. 10. The EDI module according to claim 1 , further comprising at least one fastening means. 11. The EDI module according to claim 1 , further comprising one or more further diluate compartment(s) ( 5 ) filled with ion-exchange resin beads. 12. An electrodeionization (EDI) apparatus for production of high-purity water or for production of ultra-pure water, comprising an EDI module as defined in claim 1 . 13. A laboratory water purification system, comprising an EDI module as defined in claim 1 . 14. A method for purifying a liquid utilizing an EDI module as defined in claim 1 , the method comprising the steps of feeding the liquid to be purified into said at least one diluate compartment ( 5 ), passing the liquid to be purified through said at least one diluate compartment ( 5 ) in the liquid-passing direction under application of an electric field, and collecting the purified liquid at an outlet of said at least one diluate compartment ( 5 ).