DD146756A3 - PROCESS FOR LAUGHING HEAVY WATER CONDENSATE OXYGEN - Google Patents

Abstract

The process for leaching heavy water-permeable ores belongs to the field of ore mining, in particular leaching in situ. The object of the invention is to increase the effectiveness of the leaching of heavy water-permeable ores. From this, the task derives from increasing the wettability of these ores. This is achieved by adding to the feed reagents oeylmethyl taurine or straight-chain Na alkanesulfonates of chain length C & ind12! to C & ind18! be added in the ratio of 0.1 to 5g / l. The invention is also applicable in the field of chemical metal processing.

Description

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20 4,935

Title of the invention

Process for leaching heavy water permeable ores

Field of application of the invention

The process for leaching heavy water-permeable ores belongs to the field of ore mining or chemical metal extraction. It is advantageously suitable for in situ leaching or of shot, magazined or poured ores underground. Its application is also possible overground and in processing plants.

1.0 Characteristics of the Known Technical Solutions The application of geotechnical extraction processes in metal extraction from ore is becoming increasingly important as a result of the more effective leaching methods compared to conventional recovery and processing. For heavy-water-permeable ores, it has been found necessary for in-situ leaching to increase the permeability of liquids to mince them and store them (DD-WP .97918, DD-WP 86801, DD-WP 97257). 'Understandably, this mining work puts a strain on the cost of the metal. Efforts are therefore being made to minimize the work of leaching preparation, which includes, however, that the destruction of the ore is usually insufficient. In practice, chemical and mechanical means are necessary to increase the permeability of the ore. However, this consumes a large part of the task reagent or are expensive devices _y z. B. required for a pulse pressure increase in the ore beds. In practice, a large proportion of the feed reagents are now used to open the pores of the ore or to widen the other pathways.

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applies. This leads to an unjustifiably high consumption of the charging reagents.

The wettability of the ore depends on the surface tension of the feed reagents. It is so high that complete wetting of the finest capillaries and fractures is not guaranteed. As a result, part of the metal contained in the ore is not included in the leaching operations. Another disadvantage is that by reactions of the acid with the secondary rock gas and Mineralkolmatationen arise which cause a reduction of the active mineral surface and reduction of the effective pore area and thereby reduce the application. When using HpSO .'- solutions as Aufgabereagenz at a carbonate content of the ore a Gipskolmatation according to the following 'formula is given:

CaCO ₃ + H ₂ SO ₄ + 3 H ₂ O - * - CaSO ₄ 2 H ₂ O + H ₃ O + CO ₃

The reduction of the free volume in the crystallization of the gypsum is about 1.4 times the volume of. CaCO ₃ .

Object of the invention

The object of the invention is to increase the effectiveness of leaching, in particular heavy water-permeable ores, by improving their filtration properties, preventing colmation, reducing the expense of mining equipment, minimizing the consumption of the feeding reagents and increasing the yielding in unit time.

Explanation of the essence of the invention

The object of the invention is to develop a process which increases the wettability of the ore, in particular hard water-permeable ores, and thus increases the effectiveness of the charging reagent. The means used must not violate legal regulations of environmental protection and health protection. ,

It has been found that the permeability of heavy water permeable sedimentary rock can be increased by admixing oleylmethyltaurine or straight chain Na alkane sulphonates having a chain length of C 1 to C ₁ Q to the feed reagent. It has been found that by adsorptive addition of the above

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Substances on calcium and magnesium minerals in ore (calcite, anchoring, dolomite) disturbing side reactions are suppressed by acid leaching. Thus, an additional consumption of task reagent is largely prevented. It is thus almost completely available for the solution process of the value component. The consequence of this is an increased output in the unit of time compared to the application of the application reagent at the same reagent concentration without the addition of oleylmethyltaurine or Ka-alkanesulfonates. It has also been observed that gypsum and gas matings are thereby reduced, so that the access of the feed solution to the value component is constantly guaranteed until the end of the leaching. The application solutions according to the invention, these agents are added. The most favorable mixing ratio is within the limits of 0.1 to 5 g per liter of lye solution. The admixture can be done in a mixing tank as well as by direct task in the ore in conventional leaching. This method is particularly suitable for sulfuric acid to be leached ores by hydrostatic, percolation and all schemes of hydrodynamic leaching. There are also positive results in infiltration procedures.

embodiment

The method will be explained below using an exemplary embodiment. In the accompanying drawing the deployment of the metal is shown in time. The curves are assigned to different sulfuric acid concentrations of the feed reagents, curves 1 and 4 correspond to 5 g / l; Curve 2 10 g / l; Curve 3 20 g / l and curve 4 with an addition of 1 g / l oleylmethyltaurine. In laboratory experiments, the addition of oleylmethyltaurine to an aqueous solution with a sulfuric acid concentration of 5 g / l increased the metal yield from ore in the Time unit by 90% compared to a solution without oleylmethyltaurine addition. are enough (curves 1 and 4).

The series of experiments also showed that the application of the oleylmethyltaurine-sulfuric acid solution (curve 4) exceeded the application of a sulfuric acid solution of 10 or 20 g / l (curves 2, 3).

Claims (1)

204935 invention claim 1. A method for leaching heavy water-permeable ores, which are minced or crushed crushed, magazined or poured, using known Aufgabereagenzien, characterized in that the feed reagents Oleylmethyltaurin or Na alkanesulfonates in a mixing ratio 0.1 to 5 grams per liter liter is added wherein the task is carried out separately or mixed with the application solution in the ore, For this 1 page drawings