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Membrane technology-based ionic rare earth ore extraction technology and device therefor

An ion-type rare earth ore and extraction process technology, which is applied in the field of ion-type rare earth ore rare earth extraction process, can solve the problems of low rare earth ion concentration and small footprint, achieve good effluent quality, reduce floor space, and reduce production and processing volume effect

Active Publication Date: 2014-12-10
JIANGSU JIUWU HITECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The purpose of the present invention is to overcome the defects of the traditional ion-type rare earth ore extraction process, and use the membrane separation integration technology in the extraction process of the ion-type rare earth ore to replace the ammonium bicarbonate precipitation, drying, burning, and acid extraction in the traditional rare earth extraction process. It provides a membrane separation integration process with low investment, low cost, small footprint, simple and easy continuous automatic operation, and through the high concentration of rare earth ions, to solve the problem caused by the increasingly depleted rare earth ore The problem of low concentration of rare earth ions in the impregnation solution

Method used

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  • Membrane technology-based ionic rare earth ore extraction technology and device therefor

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Effect test

Embodiment 1

[0034] Such as figure 1 As shown, a kind of membrane separation integrated device applied in the rare earth extraction process of ionic rare earth ore according to the present invention has a structure of:

[0035] Comprising feed pump 1, settling tank 2, ultrafiltration membrane circulation tank 3, ultrafiltration membrane circulation pump 4, ultrafiltration membrane assembly 5 connected in sequence, the permeation side of described ultrafiltration membrane assembly 5 is connected to ultrafiltration membrane cleaning Liquid tank 9, the cut-off side of ultrafiltration membrane module 5 is connected to ultrafiltration membrane circulation tank 3, and ultrafiltration membrane clear liquid tank 9 is connected to nanofiltration membrane module 11 by nanofiltration circulation pump 10, and the cut-off side of ultrafiltration membrane module 5 Also connected to the plate and frame filter press 7, the permeation side of the plate and frame filter press 7 is connected to the ultrafil...

Embodiment 2

[0038] use as figure 1 device shown.

[0039] The ionic adsorption rare earth ore of a rare earth mine in Yunnan was impregnated. The impregnation process was the same as that of the control example. The impregnation agent used was a mixture of ammonium chloride and ammonium sulfate at a ratio of 1:1. The rare earth content of the obtained impregnation solution was is 0.12 g / L, pump the leachate into the settling tank 2 for slag removal, adjust the pH to about 4 with ammonia water b, and react for 15 minutes, take the supernatant and enter the ultrafiltration membrane module 5 for solid-liquid separation. The filter membrane adopts a ceramic ultrafiltration membrane made of zirconia, and the average pore size of the ceramic ultrafiltration membrane is 0.05 μm. The ultrafiltration membrane module 5 performs constant flow filtration, and the control filtration flux is 500 L / m 2 h, the pressure is 0.5 MPa, the flow velocity on the membrane surface is 6 m / s, and a recoil device...

Embodiment 3

[0041] use as figure 1 device shown.

[0042] The ionic adsorption rare earth ore of a rare earth mine in Yunnan was impregnated. The impregnation process was the same as that of the control example. The impregnation agent used was a mixture of ammonium chloride and ammonium sulfate at a ratio of 1:1. The rare earth content of the obtained impregnation solution was is 0.12 g / L, pump the leachate into the slag removal settling tank 2, adjust the pH to about 5 with ammonia water b, and react for 30 minutes, take the supernatant and enter the ultrafiltration membrane module 5 for solid-liquid separation, and the ultrafiltration membrane The ceramic ultrafiltration membrane is made of titanium oxide, and the average pore size of the ceramic ultrafiltration membrane is 0.02 μm. The ultrafiltration membrane module 5 performs constant flow filtration, and the control filtration flux is 150 L / m 2 ·h, the pressure is 0.1MPa, the membrane surface flow velocity is 3 m / s, and a recoil ...

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Abstract

The invention relates to a membrane technology-based ionic rare earth ore extraction technology and a device therefor. The membrane technology-based ionic rare earth ore extraction technology comprises the following steps of removing impurities in a rare earth ore percolation liquid, carrying out solid-liquid separation by a ceramic membrane to remove suspended solids in the rare earth ore percolation liquid, carrying out nanofiltration on the ceramic membrane clear liquid for further enrichment concentration, treating the ceramic membrane concentrated solution by a plate-and-frame filter press, removing dreg, when the rare earth ore percolate has the content of 60-70g / L after nanofiltration concentration, feeding the rare earth ore percolate into an extraction unit, carrying out extraction separation of a single rare earth element, and directly feeding the nanofiltration clear liquid rich in an extraction agent back to a percolation unit. Through the membrane separation and integration technology, the rare earth ore percolate is subjected to purification, separation, and concentration enrichment so that rare earth ions in the percolate are purified and concentrated and the next extraction process is convenient, and the rare earth ore percolation liquid subjected to separation from rare earth has a low rare earth ion concentration and a high extraction agent concentration and can be directly used for the percolation process. The membrane technology-based ionic rare earth ore extraction technology greatly improves a rare earth ion recovery rate, reduces a percolation waste water discharge amount and has obvious environmental and economic benefits.

Description

technical field [0001] The present invention relates to a rare earth extraction process of ionic rare earth ore based on membrane technology, in particular to a process for treating ionic rare earth ore leachate by impurity removal, ceramic membrane separation, and nanofiltration membrane concentration, so that the leachate can be processed After reaching the process requirement of direct extraction, it belongs to the field of rare earth ore extraction and separation. Background technique [0002] In the south mainly in Jiangxi, Guangdong, Hunan, and Fujian, there are abundant ion-adsorbed rare earths (referred to as ionic rare earths, or weathered crust leached rare earths) resources, and their main characteristics are: (1) low grade, generally in Less than 3 / 1000, mostly a few parts per 10,000; (2) The distribution of rare earth elements is complete, especially the high content of medium and heavy rare earths, so it has received extensive attention at home and abroad; (3) ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22B59/00C22B3/22
Inventor 王志高王金荣熊福军彭文博张全华张宏范克银
Owner JIANGSU JIUWU HITECH
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