CN206015033U - In-situ ionic rare earth soaks ore deposit single hole porous liquid injection assay device - Google Patents

Abstract

This utility model is related to a kind of indoor model test device for simulating ion type rareearth mine in_situ leaching production practice, and particularly a kind of in-situ ionic rare earth soaks ore deposit single hole porous liquid injection assay device.This utility model includes liquid-supplying system, fluid injection well, proof box, and described proof box is the body structure that a level cross-sectionn is equilateral triangle, and the base plate of proof box is provided with through hole, is also furnished with permeable cloth on base plate；Described fluid injection well is arranged on three angles that level cross-sectionn is equilateral triangle casing, is surrounded by the biside plate of circular arc tube wall and proof box that central angle is 60 °, and central angle is that 60 ° of circular arc tube wall is provided with through hole, is furnished with permeable cloth outside tube wall.This utility model can obtain in_situ leaching technique leaching ore deposit agent concentration, fluid injection intensity, fluid injection well spacing and arrangement Optimizing Process Parameters.

Description

In-situ ionic rare earth soaks ore deposit single hole-porous liquid injection assay device

Technical field

This utility model is related to a kind of indoor model for simulating ion type rareearth mine in_situ leaching production practice to be tried Experiment device, particularly a kind of in-situ ionic rare earth soak ore deposit single hole-porous liquid injection assay device.

Background technology

At present, the production practice of " in_situ leaching " as third generation environmental protection, in south China ion type rareearth Promote in ore deposit and come.The technological process is：First fluid injection well pattern is arranged in Rare Earth Mine body region, then it is molten to soak ore deposit agent by fluid injection well Liquid injects ore body, and the rare earth in ore body becomes rare earth ion by ion-exchange reactionss and enters solution, finally by liquid collection engineering Recycled.In order to obtain soaking ore deposit agent concentration, fluid injection strength optimization technological parameter, current common practice is in production Before carry out " post leaching model " test, the test is simple, can determine leaching ore deposit agent concentration, fluid injection intensive parameter, but can not be true Determine the impact of the spacing and arrangement of fluid injection well to the rare earth resources response rate.Therefore, the arrangement of current fluid injection well often basis Engineering experience is carried out, and lacks necessary theoretical and test basis.

Utility model content

Problem to be solved in the utility model is to provide a kind of in-situ ionic rare earth leaching ore deposit single hole-porous liquid injection test dress Put, leaching ore deposit agent concentration, fluid injection intensity, fluid injection well spacing and arrangement is provided for ion type rareearth mine " in_situ leaching " technique Optimizing Process Parameters, it overcome the deficiency of " post leaching model " test.

The technical solution of the utility model：A kind of in-situ ionic rare earth soaks ore deposit single hole-porous liquid injection assay device, including Liquid-supplying system, fluid injection well, proof box, described proof box are the body structure that a level cross-sectionn is equilateral triangle, test The base plate of case is provided with through hole, is also furnished with permeable cloth on base plate；Described fluid injection well is arranged in level cross-sectionn for equilateral triangle On three angles of shape casing, surrounded by the biside plate of circular arc tube wall and proof box that central angle is 60 °, central angle is 60 ° of circle Arc tube wall is provided with through hole, is furnished with permeable cloth outside tube wall.

Described liquid-supplying system is placed in the top of proof box using the geneva bottle with scale and switch.

Described proof box is made by the transparent acrylic of thickness 10mm, and on side plate has been bonded with reinforcing with seccotine The shaped steel frame of effect.

This utility model can exploit fluid injection-receipts liquid process by simulation ion type rareearth mine in_situ leaching very well, can In_situ leaching technique leaching ore deposit agent concentration, fluid injection intensity, fluid injection well spacing and arrangement Optimizing Process Parameters are obtained, with making Simply, materials are saved, easy to operate, practical, the characteristics of powerful.

Description of the drawings

Fig. 1 is structural representation of the present utility model.

In figure：1. liquid-supplying system, 2. fluid injection well, 3. proof box (without blinding case), 4. base plate.

Specific embodiment

As shown in figure 1, this utility model is a kind of room for simulating ion type rareearth mine in_situ leaching production practice Indoors modeling test device, including liquid-supplying system 1, fluid injection well 2, without blinding case 3, receipts liquid bucket.Described liquid-supplying system 1 is using carrying Scale and the geneva bottle of switch, can control the flow for soaking ore deposit agent solution, and position is higher than without at the top of blinding case 3；Described nothing Blinding case 3 be equilateral triangle cylinder (level cross-sectionn is equilateral triangle), material using thickness 10mm transparent acrylic Make, seccotine cements, and on without 3 side plate of blinding case with gluing direct type steelframe increasing its intensity, it is ensured that without 3 case of blinding case Body is stable, and base plate 4 bores the aperture of full diameter 8mm, is smoothly flowed out with profit leaching ore deposit agent solution, spread before banketing one permeable Cloth；Described is placed on a formed steel base without blinding case 3, and base is placed below plastics and receives liquid bucket；Described fluid injection well 2 It is located on three angles without blinding case 3,1/6 arc tube (i.e. central angle is 60 °) for the treatment of excess syndrome border fluid injection well diameter and without blinding case 3 Angle between formed part as test model fluid injection well 2, in order to prevent soil in process of the test from dropping in fluid injection well 2, Bore permeable cloth is wrapped outside full aperture fluid injection well 2 (1/6 circular arc plastic tube).The depth of actual fluid injection well, diameter and spacing are according to mould Type test principle of similitude determination (such as obtains actual mine fluid injection well size number by 6 times or 10 times amplifications of model-test data According to).

Process of the test is carried out fully according to in_situ leaching technique, first will be layered filling ore deposit soil without blinding case 3, then be passed through fluid injection System 1 injects leaching ore deposit agent solution in fluid injection well 2, and solution in ore deposit soil carries out seepage flow and flows out from 4 aperture of base plate, enters and receives liquid Bucket, while the rare earth element in ore deposit soil becomes rare earth ion with leaching ore deposit agent solution generation ion-exchange reactionss enters solution, and molten Liquid enters receipts liquid bucket together.After off-test, by rare earth Grade change of the detection without ore deposit soil in blinding case 3, judge that original place is soaked The exploitation effect of miner's skill.

Change leaching ore deposit agent solution concentration, fluid injection intensity, 2 diameter of fluid injection well, 2 number of fluid injection well by artificial in test, reach Mesh to the Optimizing Process Parameters for determining in_situ leaching technique leaching ore deposit agent concentration, fluid injection intensity, fluid injection well spacing and arrangement 's.

Claims (3)

1. a kind of in-situ ionic rare earth soaks ore deposit single hole-porous liquid injection assay device, including liquid-supplying system, fluid injection well, proof box, It is characterized in that：Described proof box is the body structure that a level cross-sectionn is equilateral triangle, and the base plate of proof box is provided with Through hole, is also furnished with permeable cloth on base plate；Described fluid injection well is arranged in three angles that level cross-sectionn is equilateral triangle casing On, being surrounded by the biside plate of circular arc tube wall and proof box that central angle is 60 °, it is logical that central angle is that 60 ° of circular arc tube wall is provided with Hole, is furnished with permeable cloth outside tube wall.

2. a kind of in-situ ionic rare earth according to claim 1 soaks ore deposit single hole-porous liquid injection assay device, its feature It is：Described liquid-supplying system is placed in the top of proof box using the geneva bottle with scale and switch.

3. a kind of in-situ ionic rare earth according to claim 1 soaks ore deposit single hole-porous liquid injection assay device, its feature It is：Described proof box is surrounded by the transparent acrylic of thickness 10mm, and is bonded with shaped steel on side plate.