PL125403B2 - Apparatus for continuous regeneration of ion exchangers - Google Patents

Description

The subject of the invention is a device for the continuous regeneration of ion exchangers, in particular under conditions in which the disposal of post-regeneration solutions is difficult. Regeneration of the ion exchange beds is carried out in columns (tanks) in which there are anion exchangers or cation exchangers. These tanks are fed through a system of pipes and collectors either with an acid solution (when cation exchanger reacts) or alkali solution (when anion exchanger reacts). Regenerative solutions are fed to ion exchange columns from the top of the bed. After regeneration, the deposit must be rinsed with demineralized water in order to wash away the remnants of the regenerative agent. The technical inconvenience of such regeneration of ion exchange agents is the necessity to utilize post-regeneration solutions, the necessity to equip the ion exchange system with mixing tanks, chemical dispensers, as well as pipelines and fittings. An additional disadvantage of such a solution is the need for separate regeneration of cation exchangers and anion exchangers. It is also known from the publication: T. Winnicki - "Active polymers in environmental protection engineering" (Arkady, 1978) a different system of ion exchanger regeneration, consisting in continuous ion exchange in the installation , in which ionite circulates in a pulsating closed circuit - a loop. In this installation, spaces are separated, in which the ionite is subject to successive filling, rinsing, regeneration and washing operations. Regeneration is carried out with acid and alkaline solutions. The invention concerns a device for continuous regeneration of ion exchangers, consisting of a tank in which the collectors supplying and discharging water are placed, and to which a closed ion exchanger circuit is connected. The essence of the invention consists in the fact that a three-chamber electrodializer with anion and cation exchange membranes is placed on the ion exchanger flow collector, through which the mixture flows cation exchanger and anion exchanger. The main advantage resulting from the application of the invention is the elimination of the consumption of chemicals for the regeneration of the ion-exchange beds and the possibility of continuous ion exchange. An additional advantage is the elimination of ion exchanger washing after electro-regeneration and the possibility of simultaneous regeneration of a mixture of cation exchangers and anion exchangers. in the water supply manifold 2 and the water draining manifold 3, where at the bottom of the tank 1 a pulsating pump 4 is mounted, connected on the other side to the ion exchange outflow collector 5, to which an inter-diaphragm chamber 6 is connected with a cation exchange membrane 7 and an anion exchange membrane 8 At the top of the tank 1 there is an inflow collector 9 of the mixture of anion exchanger and cation exchanger. Capillary water with a salinity of about 300 mg / dm3 in the amount of 2m3 / day is directed to the tank 1 filled with a mixture of cation exchanger and anion exchanger in a weight ratio of 1: 2. The water is supplied from the bottom of the bed through the lower collector 2 and the demineralized water is discharged through the upper collector 3. The water flow rate is 5 m / h. Simultaneously, a pulsating pump 4 pumps the ion exchanger into the three-chamber electrodialyser, which is an inter-diaphragm chamber 6, a cationic exchange membrane 7 and an anion exchange membrane 8. The distance between the membranes is 0.2 cm. The flow rate of ion exchangers through the electrodializer is 6 m / min. As a result of the current flow through the electrodializer with a density of 0.1 mA / cm2, the ion exchangers are regenerated, which flow to the upper part of the tank 1. As a result of the ion exchange process carried out in this way and continuous electro-regeneration, the residual salinity of demineralized water is obtained at the level of 10-15 mg /l. Patent claim A device for the continuous regeneration of ion exchangers, consisting of a tank in which water supply and discharge collectors are placed, and to which a closed ion exchanger circuit is connected, characterized by the fact that a three-chamber electrodializer, which is a diaphragm membrane, is placed on the ion exchanger flow manifold chamber (6), a cation-exchange membrane (7) and an anion-exchange membrane (8). Mintage 100 copies Price PLN 100 PL

Claims (1)

1. Patent claim Device for the continuous regeneration of ion exchangers, consisting of a tank in which water supply and discharge collectors are placed, and to which a closed ion exchanger circuit is connected, characterized in that a three-chamber electrodializer is placed on the ion exchanger flow collector, which is an inter-membrane chamber (6) and a cation exchange membrane (7) and an anion exchange membrane (8). Printing studio of the People's Republic of Poland. Mintage 100 copies. Price PLN 100 PL