SU716168A1 - Ion-exchange apparatus - Google Patents

Abstract

1. Ion-exchanging apparatus for protivotechnochnogo contacting in the system-solid solid-liquid, containing a vertical cylindrical body with a conical bottom, spread out switchgear in the lower part of the body, a discharge airlift, located along the axis of the body and made in the form a lifting pipe, and a drainage device installed in the upper part of the casing, made in the form of a mesh, characterized in that, in order to eliminate the clogging of the drainage device by periodically cleaning the mesh with a descending seal nnym solid layer, it is provided as set out in the top of the horizontal pipe perforated housing and the grid is formed as a cylinder placed 'coa ~ ksyalno sleep: rz1 ^ and perforated truby.2. An ion exchange apparatus according to claim 1, characterized in that the airlift is equipped with an automatic valve3. The ion exchange apparatus according to claim 1, except for the fact that, in order to simplify maintenance, the drainage device is removable. . (L

Description

The invention relates to apparatus for countercurrent indentation in a solid-liquid system and can be used in hydrometallurgic and chemical technology industries to carry out countercurrent ionic desorption and sorption processes in solutions using granulated ion exchangers.

. The ion-exchange apparatus, containing a vertical cylindrical body, with a conical bottom, a distribution device located in the lower part of the body, a discharge air-lift, placed in the form of a lifting pipe, and a drainage device made in the form of a grid, is known.

The main disadvantage of the known apparatus is that the suspensions of its drainage device are suspended in suspensions and fibrous suspensions (for example, chips) contained in ionites that are processed under industrial conditions, which is a consequence of the expansion of the ion exchanger layer by an upward flow of solution, resulting in suspensions and chips, vymsha from the ion exchanger and moving to the above-described drainage device, clog the holes. drainage mesh.

In addition, violation of the compacted state of the ion exchanger layer as a result (those extending it to the longitudinal displacement of the ionite grains, which reduces the degree of countercurrent ionization of ion exchange processes. C t | W: exceptions saeoplfeMocTR ezear a year auger to a one-another one a year ayeard a year auger a one-a-one a year a yrr a-a-one a year a yo-yo exchange processes. cleaning the grid with an packed layer of hard and easy maintenance, the device is equipped with a horizontal perforated tube installed in the upper part of the building, and the grid is rolled up as a cylinder, softened to oaxial Fig. 1 shows a longitudinal section of the general view of the apparatus in Fig. 2, a longitudinal section of the drainage device with TvI, an ion-exchanging device with a cylinder, and a cylinder. with conical bottom 2, lead-in wire 3 FOR ps daChY-HI-YAHE Shkhbdnogo rastorya, distribution device 4 (for example, gravel), drainage device 5 for retraction and removal of waste thief from the apparatus, discharge airlift b for Dalen otrabotanyogo ionyta from the apparatus, the duct 7 for pdachi b airlift compressed air and zag rUzochny patrubk 8 for feeding into the machine iskho Nogo exchanger. The drainage device 5 consists of a removable perforated pipe 9 and a coaxially placed sniper and a drainage grid 10. In addition, the proposed apparatus is equipped with an automatic control system consisting of a ReiTeueni (not shown in Fig.) 1 Automatically 11,12 and 13 valves placed consistently, on the introduction pipeline 3, the airlift 6 and the air duct of the 7th sensor and 15 lower and upper levels of the layer being processed) of the ion exchanger. The unloading airlift 6, is depending on the conditions, can be 16 USUS as both internal and external, however, in both cases, for the purpose of uniform TBSJFp f91 6SW and the whole cross section of the apparatus, the inlet hole of the elevator pipe was replaced by a 6-ff. its conical bottom 2 .f-h: nd; r - | gh; .

716168 is mediocre above the distributor device 4. The drainage device 5, depending on the size of its cross section and the performance of the. the solution can be supplied both with one or several communicating others with other, perforated pipes 9 in order to reduce the size and weight of each of them, as well as to evenly discharge the solution over the entire cross section of the apparatus, in cases where it is necessary to increase their total draining surface. The operation of the proposed apparatus is carried out in a cyclic mode, consisting in a constant automatic repetition of the same cycle of operations consisting of two periods. During the first of these periods, to the beginning of which the apparatus is filled with ion exchanger and solution, continuous transfer occurs to the apparatus through the input the pipeline 3 of the initial solution, which, flowing from the bottom upwards through the distributor 4 and the fixed dense layer of the ion exchanger, is removed from it by gravity through the drainage device 5 into the waste solution pa. At the same time, the supply of the initial solution is performed when the valve 1I is open and the valves 12 and 13 are closed. At the same time, in the period under consideration, the next portion of the initial ion exchanger also loads through the nozzle 8 until the upper level of the loaded ion exchanger contacts the sensor 15, at the signal of which the load of the ion exchanger is automatically suspended. The duration of the considered period of operation of the device, which should exceed the duration of loading the next portion of the source - yVi-- - , Ionite is adjusted based on specific technological CONDITIONS using a time relay, at the signal of which the supply of the initial solution is automatically stopped by closing valve 14. At the same time, at a signal of the same time relay, valves 12 and 13 are opened, which leads to automatic transition an

Claims (1)

<claim-text> 1. Ion-exchange apparatus for pro *: tivotochnogo contacting in the system * </ claim-text> </ li> </ ul> <claim-text> IU solid - fluid containing a vertical cylindrical body with a conical bottom, a distribution device located in the lower part of the body, a discharge airlift located along the axis of the body and made in the form of a lifting pipe, and installed in the upper part of the core - </ claim-text>