The basic principle of chemical beneficiation-ion exchange purification method and its principle flow
The ion exchange purification method is a multi-phase metathesis reaction between a target component ion in a solution and a solid ion exchanger, and the target component is preferentially converted from a liquid phase to a human solid state exchanger, and this process is called "adsorption". Then, the ion exchanger saturated with the target component is rinsed with an appropriate reagent to re-transfer the target component to the human solution, thereby purifying and enriching. The latter process is called "rinsing," "elution," or "desorption." These two processes are often simply referred to as "ion exchange."
Adsorption and leaching are the two most basic tasks of ion exchange. Generally, there are washing operations after adsorption and rinsing operations. The post-adsorption washing is to wash away the adsorbed stock solution and the impurity component having a small affinity, and the rinse after the rinsing is to remove the eluent in the resin bed. Some purification processes also involve exchanger conversion or regeneration after rinsing and rinsing. The principle flow of the ion exchange purification method is shown in Figure 7-5.
There are many types of ion exchangers, and various types of organic synthetic ion exchange resins are currently the most widely used.
Ion exchange technology is widely used in nuclear fuel, rare earth separation, chemical analysis, purification of industrial water, waste water purification, high-purity preparation of ion-exchanged water and extraction and isolation of certain metal components from dilute solution. For example, cyanide ions and flotation reagents are removed from gold, silver cyanide solution and tailings water.
The ion exchange method has many advantages such as good selectivity for purification and enrichment of metal components, high work recovery rate, low operation cost, and high quality chemical concentrate. It is also possible to directly extract the target component from the leaching slurry (slurry adsorption method), or combine the leaching operation and the adsorption operation together (mineral resin method) to increase the leaching rate and eliminate the solid-liquid separation operation. The main disadvantage of the ion exchange method is that the adsorption capacity of the exchange resin is small, and it is only suitable for extracting the target component from the dilute solution, and the adsorption rate is small, and the adsorption cycle is long. Therefore, in many fields, the ion exchange method is replaced by organic solvent extraction. .
Galvalume steel is also called Aluminum-Zinc Alloy Coated Steel, Zincalume steel, aluminized zinc steel (aluzinc steel), SGLC. The galvalume metal is composed of 55% aluminium, 43.4% zinc and 1.6% silicon solidified at a high temperature of 600 ° C. Its whole structure consists of aluminium-iron-silicon-zinc, forming a dense quaternary crystal of an alloy.From the point of view of the degree of coating, the Galvanized Steel Coil is mainly the zinc plated on the coating, while the coating of the galvalume Steel Coil not only has zinc, but also has an extra part of aluminum.Galvalume steel sheet (coil) has better atmospheric corrosion resistance.
Galvalume Steel Sheet has excellent characteristics: strong corrosion resistance, 3 times that of pure Galvanized Steel Sheet; the surface has beautiful spangles, which can be used as building exterior panels.
The corrosion resistance of "Galvalume Steel Coil" is mainly because of aluminum, the protective function of aluminum. When the zinc is worn away, the aluminum forms a dense layer of aluminum oxide, preventing corrosion-resistant substances from further corroding the interior.
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