A method for harmless disposal and resource utilization of resin desorption liquid generated in the ion exchange process

1 . A method for harmless disposal and resource utilization of resin desorption liquid generated in the ion exchange process, comprising the following steps: (a) Channelling resin desorption liquid into an electrocatalytic oxidation device; said electrocatalytic oxidation device includes a stabilized power supply, an electrolytic tank, an anode and a cathode; said electrolytic tank is arranged with an inlet and an outlet; said cathode is made of graphite plate, titanium plate or titanium plate with a coating of ruthenium oxide or iridium oxide; said anode is a dimensionally stabilized titanium electrode with a coating of ruthenium oxide or iridium oxide; and (b) starting the electrocatalytic oxidation process: keeping the current density at said anode and cathode at 5˜50 mA/cm 2 , the reaction time of resin desorption liquid in the electrolytic tank at 0.5˜3 h, the distance between said anode and cathode at 1.5˜5 cm. 2 . The method for harmless disposal and resource utilization of resin desorption liquid generated in the ion exchange process as defined in claim 1 , wherein the method also includes step (c): sodium chloride (NaCl) is replenished into the resin desorption liquid that has been treated by the electrocatalytic oxidation process; the mixture so obtained can be reused for regenerating saturated ion exchange resin; the replenished amount of sodium chloride accounts for 12˜15% (by mass) of the mixture (renewed resin regeneration agent). 3 . The method for harmless disposal and resource utilization of resin desorption liquid generated in the ion exchange process as defined in claim 1 , wherein in said step (a), the electrolytic tank is divided by a cation-exchange membrane from a middle into a cathode chamber and an anode chamber, and said anode and cathode are respectively located in the anode chamber and the cathode chamber respectively. 4 . The method for harmless disposal and resource utilization of resin desorption liquid generated in the ion exchange process as defined in claim 1 , wherein in said step (b), the current density is adjusted to 20 mA/cm 2 while the reaction time is kept at 2 h. 5 . The method for harmless disposal and resource utilization of resin desorption liquid generated in the ion exchange process as defined in claim 2 , wherein in said step (c), NaOH is also added into the treated resin desorption liquid.