TH20258B - Electrolytic dialisic action - Google Patents

Abstract

A method for reducing the amount of organic and inorganic halogens in an actuase solution of epihehydrin-containing nitrogen-based resins. In which the process uses a solution of actuase resin To act dialisis with electricity Use a solution of activated resin obtained by processing as an additive. For the production of paper, board and cardboard Especially as a wet adhesion agent

Claims (4)

1. Methods for reducing the content of organic and inorganic halogens in an actuase solution of epihehydrin-containing nitrogen based resins. Which has the characteristics that the solution Acquies made electrolytic dialysis 2. Process according to claim 1, which is characterized by electrolysis of dielectric in Devices of electrolysis With at least one cell unit of electrolytic dialysis, a cell arranged between the anode and the cathode. In which the cell unit consists of a channel located on The side facing him, find the anode. Bounded by membranes specific to anions Which feeds the solution The activated nitrogen-containing epihehydrin-based resin enters the channel and the halogen ions are transferred through membranes specific to the anions. By differentiating the electric potential between anode and anode 3. The process of claim 2, which is characterized by that the cell unit of electrolysis (2) consists of a channel one. And the second (3,4) and first and second membranes. Anion-specific (5,6) in which the first membrane specific to the anion (5) faces the cathode (C), the first (3) cavity faces the cathode. The first and second membranes are separated by anion-specific (5), the second (4), where the first and second membranes are bound to the anions (5,6), which feed the solution. Actuase of epihehydrin-containing epihehydrin-based resin with nitrogen The halogen-free anion is fed into the second channel (4), the halogen-free anion is entered into the first channel (3), and the halogen ion is transferred through a second membrane specific to the anion (6). According to claim 3, it is characterized by that the cell unit of electrolysis (9) consists of a third ventricle (10) and a specific membrane penetrating towards the cation (11). ) Which faces the anode (A) in which the halogen ion is moved into the third (10) cavity separated by the membrane. Second, anion-specific (6), and membrane-specific to cation (11) 5. The process of claim 3, which is characterized by that the dialisic cell unit. The electricity is further assembled with a third compartment. And a bipolar membrane facing the anode, where the halogen ion is transferred through the third compartment. The boundary, especially the anion connection. 6. The process of claim 2, which has the characteristics that the cell unit of dialicis Electricity consists of first and second channels, anion-specific membranes and bipolar membranes where the bipolar membrane faces the cathode, the first cavity facing the cathode. And separated by type membranes The second pole is separated by a bipolar membrane. And membranes specific to anions Which feeds the solution The activates of epihehydrin based resin with nitrogen enters the second compartment. Enter the actuation solution. Of the acid or salt enters the first channel and the halogen ion is transferred to the membrane specific to the anion; 7. A process according to claim 6, which is characterized by that the cell unit of electrolytic dialysis ( 16) It is further assembled with a third channel (19) and a cation-specific membrane (22) facing the anode (A), through which the halogen ion is moved into the third (19) compartment. Field by membrane Anion-specific (21) and cation-specific membranes (22) 8. Process according to claim 2, where characteristic is that the cell unit of dialisation (25). It consists of first and second channels (26,27), anion-specific membranes (29) and cation-specific first membranes (28), one of which is cat-specific. Ion (28) faces the cathode (C), the first compartment (26) faces the cathode. And cation-specific first membranes (28), second compartment (27) cation-specific membrane-specific (28) and anion-specific membranes (29). ), Which fed an anhydrous solution of epihelodrin base resin containing nitrogen and hydroxide ions to the second compartment (27), and the halogen ions were transferred through the membrane. (29) 9. Process according to claim 8, which is characterized by that the cell unit of electrolytic dialysis (30) is further joined by a third compartment (33). And the second membrane specific to the cation (36) faces the anode (A), through which the halogen ion is moved into the third cavity (33) separated by the Cation-specific secondary membranes (35) and cations-specific secondary membranes (36) 1 0. The process of one of Claims 1-9 is characterized by that the solution Activates of epihehydrin-containing epihydrin-based resins with nitrogen Contact with anion exchange resin before, simultaneously, or after electrolytic dialicis action 1 1. The process according to claim 10, in which the anion exchange resin is an ion-base exchange resin 1. 2. Process according to any one of Clause 2-11, in which the characteristic that the equipment of Dialysis with electricity There are at least two cell units of electrolysis. Cell 1. 3. Process according to any of the previous claims. Which has the characteristics that it performs Conducted diilysis with electricity continuously 1 4. The use of an activated solution of epihelodrin based resin with nitrogen. Halogenated Organic and inorganic types in reduced quantities It is produced according to one of Clause 1-13 as an additive for the manufacture of paper, board and cardboard.