CN1667139A

CN1667139A - Mixed rare earth concentrate decomposition method

Info

Publication number: CN1667139A
Application number: CNA2004100064438A
Authority: CN
Inventors: 李国民; 胡克强; 刘金山; 王国珍; 徐庆新; 王文惠; 郭玲弟; 于俊霞; 胡天润; 陈鹏; 曾天元; 肖荣辉
Original assignee: Baoding Rare Earth Material Testing Factory; CHINA NON-FERROUS ENGINEERING DESIGN GENERAL INST
Current assignee: Baoding Rare Earth Material Testing Factory; CHINA NON-FERROUS ENGINEERING DESIGN GENERAL INST
Priority date: 2004-03-08
Filing date: 2004-03-08
Publication date: 2005-09-14
Anticipated expiration: 2024-03-08
Also published as: CN1286995C

Abstract

This invention provides a rare earths finished ore decomposition method. It includes following procedures (1) rare earths finished ore and concentrated oil of vitriol are blending as weight rate 1:1.1~1.7. (2) The rare earths finished ore after blending is slaked at 40~1800C. (3) The terrae rare finished ore after slaking is baked 1~8 hours at 150~3300C. (4) Baking ore is dunked by water to make 95% of rare earths and thorium entering solution, then they are separated by extraction, thorium nitrate product is got after scrubbing and reverse extraction, rare earths product not contain thorium is got after the solution extracted precipitating. (5) Fume generated by baking is discharged after defluorinated by ammonia or water scrubbing. (6) The residue from dunking is discharged after water scrubbing. Radioactive waste residue, waste water and waste gas contain fluorin and other problem brought by rare earths extraction can be solved by taking this invention to propose rare earths finished ore. It reaches country discharge standard and can realize cleaning production.

Description

A kind of mixed rare earth concentrate decomposition method

Technical field

The present invention relates to a kind of mixed rare earth concentrate decomposition method, belong to the rare earth metallurgy field.

Background technology

China Baotou rare earth ore deposit accounts for about 80% of domestic total reserves, belongs to the mixed type rare-earth mineral that hamartite and monazite constitute.Domestic main employing high-temperature concentrated sulfuric acid method art breading packet header mixed rare earth concentrate promptly earlier with vitriol oil pyrolytic decomposition rare earth ore concentrate, is produced various rare-earth products through operations such as leaching, purification and impurity removals more at present.

Above-mentioned rare earth ore concentrate vitriol oil decomposition technique is called three generations's acid system and high temperature sulfuric acid roasting method again.This method is pressed concentrate to the vitriol oil and rare earth ore concentrate and is mixed with vitriol oil weight ratio 1: 1.1～1.7, then 500～600 ℃ of following roastings, makes rare-earth mineral be converted to water miscible vitriol.There is following environmental issue in this method in production application: (1) exhaust gas emission can not be satisfied environmental protection standard: because the high-temperature roasting of employing about 600 ℃, and the boiling point of the vitriol oil is 338 ℃, the vitriol oil that adds can decompose rapidly, generates a large amount of sulfur-bearings, fluorine waste gas.1 ton of rare earth ore concentrate of the every roasting of average produces sulfur acid 300～450kg in the waste gas, hydrofluoric acid 50～100kg.Because a large amount of SO ₂And SO ₃The existence of gas, waste gas spray washing difficulty causes a large amount of defective gaseous emissions to enter atmosphere, and the gas of general discharging is fluorine-containing greater than 10mg/Nm ³Discharging standards, serious environment pollution; (2) waste water: above-mentioned discharging waste gas washing generation contains the washing water of acid and fluorine in a large number, adopts in lime neutralization and the alkali and increase running cost, deficiency in economic performance.There is treatment facility in minority factory at present, and discharging or directly discharging after factory's simple process mostly can not reach the environment protection emission requirement; (3) waste residue: the high-temperature concentrated sulfuric acid roasting, reaction generates phosphoric acid, after its dehydration, is transformed into tetra-sodium, and tetra-sodium and thorium sulfate effect generate the thorium pyrophosphate of indissoluble.The thorium pyrophosphate of indissoluble is present in the leached mud, has not only lost thorium resources but also the leached mud radioactivity is exceeded standard that (its specific radioactivity is 2.1 * 10 ⁵Bg/Kg surpasses 7.4 * 10 of standard GB 9133-88 ⁴2.8 times of Bg/Kg) belong to the radioactivity slag, need build radioactive waste repository and store.The thorium element can not be utilized effectively, and part enterprise radioactivity slag is not placed in the radioactivity depots, has serious Environmental Safety hidden danger.

For Baotou rare earth ore concentrate, also can adopt vitriol oil low temperature roasting decomposition technique.Hooke waits people's (application number: 98118153.8 in Chinese invention patent application " process for decomposing rare-earth ore by acid method " by force, open day: on March 8th, 2000) propose to carry out roasting at 150～337 ℃ of following mixed rare earth concentrates and the vitriol oil, reduce the vitriolic decomposition amount, adopt ammonia to solidify hydrogen fluoride gas simultaneously, to guarantee to obtain qualified discharging waste gas.But this technical scheme is the static scheme of discontinuity operation, does not also relate to the alpha-contamination solution of thorium in the slag.

Chinese invention patent application " rare earth ore concentrate vitriol oil low-temperature bake decomposition technique " (application number: 02144405.6, open day: propose to adopt 150～330 ℃ of following mixed rare earth concentrates and concentrated sulfuric acid roasting on March 26th, 2003), reduce the decomposition quantity discharged of acid, adopt water washing to remove fluorine again, make the thorium in the concentrate be converted to water miscible vitriol simultaneously, discharging slag radioactivity always than put＜7.4 * 10 ⁴Bg/kg has reduced the radioactivity of slag.But 3% thorium content can not guarantee that the slag radioactivity meets on-radiation slag standard in its leached mud.In addition fluoro-gas is adopted the washing of water, also still unresolved fluorine enters the pollution problem that waste water brings.

Because the pollution problem of existing rare earth ore concentrate treatment process has had a strong impact on the surrounding area of using each treatment plant of Baotou rare earth ore concentrate, causes environmental pollution.

Summary of the invention

The present invention seeks to solve the problem of waste gas, waste water and waste residue serious environment pollution that existing rare earth ore concentrate concentrated sulfuric acid roasting decomposition technique exists, and realize the efficient recovery of valency thorium element is arranged in the concentrate.The present invention but also can guarantee that industry is interrupted or continuous production.

To achieve the above object of the invention, rare earth ore concentrate vitriol oil low-temperature bake decomposition technique provided by the invention comprises following process:

(1) rare earth ore concentrate and the vitriol oil mixed by weight 1: 1.1～1.7;

(2) mixing concentrate slaking behind the sulfuric acid in 40～180 ℃ of following slakings of temperature;

(3) the concentrate roasting after the slaking is 1～8 hour, 180～330 ℃ of maturing temperatures;

The roasted ore of (4) roasting output adopts water logging to go out, and most rare earths and thorium is leached enter in the solution; Through extracting and separating thorium and rare earth, obtain the thorium nitrate 99.99004323A8urity product again through washing, back extraction; Solution precipitation obtains the not rare-earth products of thoriated behind the extraction thorium;

This method also comprises one or both of following process:

The flue gas of (5) roasting output discharges after defluorinate;

(6) slag after the leaching discharges after the employing water washing.

The curing temperature of concentrate is preferred 60～150 ℃ in above-mentioned (2).Improve curing temperature and can reduce the curing time.

The slaking of concentrate can utilize the hot holding temperature that discharges in the concentrate mixing vitriol oil process in above-mentioned (2); Also can be placed in the container of insulation, take the mode of outer heating, keep curing temperature.Type of heating can be electrically heated, also can utilize high-temperature flue gas or other type of heating in the roasting process.

Roasting time is preferred 1～4 hour in above-mentioned (3), preferred 200～300 ℃ of maturing temperature.

Roasting described in above-mentioned (3) can be interrupted the static retort furnace of producing, but or carry out in the industrial furnaces such as quantity-produced rotary kiln or tunnel furnace; But in the continuous production stove, can utilize different temperature distributing characteristic in the stove, and the high-temperature flue gas slaking concentrate of roasting discharge, in kiln, realize the slaking and the roasting of concentrate simultaneously.

Thorium extraction in the leach liquor in above-mentioned (4) can be adopted known primary amine extraction or the extraction of other extraction agent.

The flue gas defluorinate can be adopted water washing in above-mentioned (5), obtains fluorine-containing waste water; Also can use ammonia (NH ₃) the qi exhaustion fluorine, under the situation that has water vapor or water droplet to participate in, utilize the reaction of ammonia and hydrogen fluoride gas to form water-fast NH ₄Fluorine in the HF solids removal gas.The ammonia that defluorination is used can utilize heating to contain the liquid of bicarbonate of ammonia, bicarbonate of ammonia is decomposed produce ammonia; Also can directly be heated and volatilize ammonia with liquefied ammonia.

Adopt technology of the present invention, can reach following effect:

(1) owing to increased slaking, strengthened the rare earth decomposition, the rate of decomposition of rare earth ore concentrate is a little more than high temperature sulfuric acid baking rate of decomposition, and the rare earth leaching yield can obtain stable productive capacity simultaneously greater than 95%.

(2) owing to increased slaking, guaranteeing that maturing temperature can be less than the thorium pyrophosphate formation temperature under the rare earth rate of decomposition situation.Thorium forms soluble salt in the concentrate, enters solution when water logging goes out, and available maturation process primary amine extraction is reclaimed, and makes thorium nitrate 99.99004323A8urity; The leached mud thoriated is lower than 5/10000ths, and the slag specific radioactivity is less than 1 * 10 ⁴Bg/Kg belongs to non-slagging, meets national non-radioactive substance standard, can directly discharge, and reduces radiation slag storage cost.

(3) boiling point of the vitriol oil is 338 ℃, and at 200～300 ℃ low-temperature bake, sulfuric acid does not decompose basically.Only there are HF and floating dust (not to have free H in the flue gas ₂SO ₄, SO ₃, SO ₂Composition) flue gas is after ammonia is handled, and emission gases is fluorine-containing less than 10mg/Nm ³, meet discharging standards.And adopt ammoniated vapor absorption fluorine, the NH of output ₄The HF solid can be used as product and sells, and when solving environmental issue, has improved the comprehensive utilization economic benefit.

(4) the present invention can carry out in industrial continuous production stoves such as rotary kiln or tunnel furnace, utilize different temperature distributing characteristic in the stove, and the high-temperature flue gas slaking concentrate of roasting discharge, in kiln, realize the slaking and the roasting of concentrate simultaneously, guarantee the stable decomposition of rare earth ore concentrate, and obtain high rate of decomposition.

Technical scheme provided by the invention has fundamentally solved the deficiency that high-temperature roasting technology is brought, and has improved thorium, fluorine resource utilization, save energy reduces lime consumption, has avoided the generation of thorium pyrophosphate, sulfurous gas, fluorine containing waste water pollutent.Having solved rare-earth smelting factory " three wastes " becomes cleaner production factory to the pollution of environment, enterprise is reduced production costs increases economic efficiency.

Description of drawings

Accompanying drawing 1 is a process flow diagram of the present invention.

Embodiment

Explain technical scheme provided by the present invention in detail below in conjunction with embodiment, but not as the restriction to claim protection domain of the present invention.

Embodiment 1:

Get the 100g mixed rare earth concentrate, concentrate major ingredient following (weight percent):

REO?????ThO ₂????F????????P ₂O ₅

55％????0.20％???7.5％????6.5％

Get 165g concentration and be 98% the vitriol oil and mix with above-mentioned concentrate, and immediately mixture is positioned in the insulation can, measuring the concentrate temperature is 70 ℃.After the slaking 8 hours, take out and put into retort furnace, 250 ℃ of following roastings 2 hours.Take out then, add 800ml water, leached 1 hour down at 30 ℃.Leached mud is analyzed RE ₂O ₃The content of (content with Ce in the slag is determined) and thorium, and the radioactivity of detection slag.The RE leaching yield is greater than 95%, thorium leaching yield 96%, and the leached mud thoriated is less than 0.05%, and the total specific activity of radioactivity is less than 1 * 10 ⁴Bg/kg.

Comparative Examples one:

Get 100g embodiment 1 described mixed rare earth concentrate, get the 165g vitriol oil again and mix, directly put into 250 ℃ of retort furnace roastings 2 hours then with concentrate.After the taking-up, add 800ml water, leached 1 hour down at 30 ℃.Leached mud is analyzed RE ₂O ₃The content of (content with Ce in the slag is determined) and thorium, and the radioactivity of detection slag.RE leaching yield 85%, thorium leaching yield 85%, leached mud thoriated 0.15%, the total specific activity of radioactivity is greater than 7.4 * 10 ⁴Bq/kg.

Comparative Examples two:

Get 100g embodiment 1 described mixed rare earth concentrate, get the 165g vitriol oil and mix, directly put into retort furnace then, be warmed up to 550 ℃ of roastings 2 hours with concentrate.After the taking-up, add 800ml water, leached 1 hour down at 30 ℃.Leached mud is analyzed RE ₂O ₃The content of (content with Ce in the slag is determined) and thorium, and the radioactivity of detection slag.The rare earth leaching yield is greater than 95%, and the thorium leaching yield is less than 5%, and the total specific activity of leached mud radioactivity is greater than 7.4 * 10 ⁴Bq/kg.

Embodiment 2～10:

Embodiment 2～10 all gets 100g embodiment 1 described mixed rare earth concentrate, and each mixes with the 165g vitriol oil then, after slaking for some time, puts into the retort furnace roasting respectively.The calcining of output goes out with the 800ml water logging, and leach liquor and slag are analyzed REO, ThO content, and slag activity ratio activity.Curing temperature, maturing temperature and time and calcining leach and the results are shown in Table 1.

Table 1 embodiment 2～10 conditions and result

Numbering	Rare earth ore concentrate amount (g)	Vitriol oil add-on (g)	Curing temperature (℃)	Maturing temperature (℃)	Roasting time (h)	Rare earth leaching yield (%)	Thorium leaching yield (%)	Leached mud specific radioactivity (Bq/kg)
Numbering	Rare earth ore concentrate amount (g)	Vitriol oil add-on (g)	Curing temperature (℃)	Maturing temperature (℃)	Roasting time (h)	Rare earth leaching yield (%)	Thorium leaching yield (%)	Leached mud specific radioactivity (Bq/kg)	Embodiment 2	??100	????165	????40	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴
Embodiment 3	??100	????165	????60	????200	????4.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 2	??100	????165	????40	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴
Embodiment 3	??100	????165	????60	????200	????4.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 4	??100	????165	????100	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴
Embodiment 5	??100	????165	????150	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 4	??100	????165	????100	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴
Embodiment 5	??100	????165	????150	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 6	??100	????165	????180	????300	????2.0	????＞95	????＞95	????＜1×10 ⁴
Embodiment 7	??100	????165	????100	????220	????8.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 6	??100	????165	????180	????300	????2.0	????＞95	????＞95	????＜1×10 ⁴
Embodiment 7	??100	????165	????100	????220	????8.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 8	??100	????165	????100	????180	????6.0	????＞90	????＞90	????＜1×10 ⁴
Embodiment 9	??100	????165	????100	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 8	??100	????165	????100	????180	????6.0	????＞90	????＞90	????＜1×10 ⁴
Embodiment 9	??100	????165	????100	????250	????2.0	????＞95	????＞95	????＜1×10 ⁴	Embodiment 10	??100	????165	????120	????330	????1.0	????＞95	????＞90	????＜1×10 ⁴

Embodiment 11:

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, mix post curing, 60 ℃ of curing temperatures.Take out then and add the revolution roasting in kilns.Concentrate is back to back at rotary kiln, in kiln residence time 1.5 hours, 200 ℃ of rotary kiln inlet temperatures, and 210 ℃ of temperature outs, top temperature is 250 ℃ in the kiln.The calcining of roasting output enters in the aggregate bin of rotary kiln outlet automatically, and rare earth and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 95%, and the thorium leaching yield is greater than 95%, slag specific radioactivity＜1 * 10 ⁴Bq/Kg; Flue gas enters in the flue of setting, and sprays into liquefied ammonia in flue, and to spraying into gas serial sampling fluorine analysis content behind the liquefied ammonia, fluorine content is less than 2mg/Nm ³, meet national waste gas emission standard GB16297-1996.

Comparative Examples three

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, directly enter the revolution roasting in kilns.Concentrate is back to back at rotary kiln, in kiln residence time 1.5 hours, 200 ℃ of rotary kiln inlet temperatures, and 210 ℃ of temperature outs, top temperature is 250 ℃ in the kiln.The calcining of roasting output enters in the aggregate bin of rotary kiln outlet automatically, and rare earth and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 90%, and the thorium leaching yield is greater than 85%, slag specific radioactivity＞7.4 * 10 ⁴Bq/Kg; Flue gas enters in the flue of setting, and sprays into liquefied ammonia in flue, and to spraying into gas serial sampling fluorine analysis content behind the liquefied ammonia, fluorine content is less than 2mg/Nm ³, meet national waste gas emission standard GB16297-1996.

Comparative Examples four

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, directly enter the revolution roasting in kilns.Concentrate is back to back at rotary kiln, in kiln residence time 1.5 hours, 500 ℃ of rotary kiln inlet temperatures, and 550 ℃ of temperature outs, top temperature is 580 ℃ in the kiln.The calcining of roasting output enters in the aggregate bin of rotary kiln outlet automatically, and rare earth, sulphur and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 95%, and the thorium leaching yield is less than 5%, slag specific radioactivity＞7.4 * 10 ⁴Bq/Kg, the sulphur decrement is greater than 25% after the roasting; Flue gas enters in the flue of setting, and sprays into liquefied ammonia in flue, and to spraying into gas serial sampling fluorine analysis content behind the liquefied ammonia, fluorine content is greater than 20mg/Nm ³, surpass national waste gas emission standard GB16297-1996.

Embodiment 12

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, mix post curing, 150 ℃ of curing temperatures.Take out then and add the revolution roasting in kilns.Concentrate is back to back at rotary kiln, in kiln residence time 1.0 hours, 200 ℃ of rotary kiln inlet temperatures, and 210 ℃ of temperature outs, top temperature is 270 ℃ in the kiln.The calcining of roasting output enters in the aggregate bin of rotary kiln outlet automatically, and rare earth and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 95%, and the thorium leaching yield is greater than 95%, slag specific radioactivity＜1 * 10 ⁴Bq/Kg; Flue gas enters spray column, water spray washing flue gas, and to washing back gas serial sampling fluorine analysis content, fluorine content is less than 20mg/Nm ³, meet national waste gas emission standard GB16297-1996.

Embodiment 13

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, mix the back and add the revolution roasting in kilns.Concentrate is back to back at rotary kiln, and the rotary kiln flue gas adverse current is discharged (discharging from concentrate ingress), 100 ℃ of rotary kiln ore deposit entrance end temperature, and 210 ℃ of exit end temperature, top temperature is 260 ℃ in the kiln.Material 200～260 ℃ of high temperature section residence time in kiln are 2.0 hours; The calcining of roasting output enters in the aggregate bin of rotary kiln outlet automatically, and rare earth and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 95%, and the thorium leaching yield is greater than 95%, slag specific radioactivity＜1 * 10 ⁴Bq/Kg, the sulphur decrement is less than 1.5% after the roasting; Flue gas enters spray column, water spray washing flue gas, and to washing back gas serial sampling fluorine analysis content, fluorine content is less than 20mg/Nm ³, meet national waste gas emission standard GB16297-1996.

Embodiment 14

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, mix post curing, 120 ℃ of curing temperatures.Take out then and add the revolution roasting in kilns.Concentrate is back to back at rotary kiln, in kiln residence time 4 hours, 185 ℃ of rotary kiln inlet temperatures, and 190 ℃ of temperature outs, top temperature is 230 ℃ in the kiln.The calcining of roasting output enters in the aggregate bin of rotary kiln outlet automatically, and rare earth and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 95%, and the thorium leaching yield is greater than 95%, slag specific radioactivity＜1 * 10 ⁴Bq/Kg; Flue gas enters spray column, water spray washing flue gas, and to washing back gas serial sampling fluorine analysis content, fluorine content is less than 20mg/Nm ³, meet national waste gas emission standard GB16297-1996.

Embodiment 15

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, mixed post curing 8 hours, 120 ℃ of curing temperatures.Take out then and evenly put into a plurality of charging trays, enter the tunnel roasting in kilns continuously.Charging tray is back to back in tunnel furnace, in kiln residence time 2.0 hours, 200 ℃ of tunnel furnace inlet temperatures, and 210 ℃ of temperature outs, top temperature is 250 ℃ in the kiln.The calcining of roasting output is poured in the container that gathers materials, and rare earth and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 95%, and the thorium leaching yield is greater than 95%, slag specific radioactivity＜1 * 10 ⁴Bq/Kg; Flue gas enters in the flue of setting, and sprays into liquefied ammonia in flue, and to spraying into gas serial sampling fluorine analysis content behind the liquefied ammonia, fluorine content is less than 2mg/Nm ³, meet national waste gas emission standard GB16297-1996.

Embodiment 16

Get 5kg embodiment 1 described rare earth ore concentrate, press concentrate and vitriol oil mass ratio and add the vitriol oil at 1: 1.5, stir and put into a plurality of charging trays, enter the tunnel roasting in kilns continuously.Charging tray is back to back in tunnel furnace.The baking flue gas adverse current is discharged (discharging from opening for feed), 100 ℃ of rotary kiln inlet temperatures, and 150 ℃ of temperature outs, top temperature is 260 ℃ in the kiln, and material 200～260 ℃ of high temperature section residence time in kiln are 2 hours.The calcining of roasting output is poured in the container that gathers materials, and rare earth, sulphur and thorium content in slag and the liquid are analyzed in water logging then, and the rare earth leaching yield is greater than 95%, and the thorium leaching yield is greater than 95%, slag specific radioactivity＜1 * 10 ⁴Bq/Kg, the sulphur decrement is less than 1.5% after the roasting; Flue gas enters in the flue of setting, and sprays into liquefied ammonia in flue, and to spraying into gas serial sampling fluorine analysis content behind the liquefied ammonia, fluorine content is less than 2mg/Nm ³, meet national waste gas emission standard GB16297-1996.

Claims

1. mixed rare earth concentrate decomposition method, it is that rare earth ore concentrate is mixed by certain weight ratio with the vitriol oil, it is characterized in that, this method also comprises following process:

(1) will mix concentrate behind the vitriol oil in 40～180 ℃ of following slakings of temperature;

(2) with the concentrate roasting after the slaking 1～8 hour, 180～330 ℃ of maturing temperatures;

The roasted ore of (3) roasting output adopts water logging to go out, and rare earth and thorium is leached enter in the solution; Through extracting and separating thorium and rare earth, obtain the thorium nitrate 99.99004323A8urity product again through washing, back extraction; Solution precipitation obtains the not rare-earth products of thoriated behind the extraction thorium.

2. mixed rare earth concentrate decomposition method according to claim 1, wherein, this method also comprises one or both of following process:

The flue gas of (4) roasting output discharges after defluorinate;

(5) slag after the leaching discharges after the employing water washing.

3. mixed rare earth concentrate decomposition method according to claim 1 and 2 mixes preferred 60～150 ℃ of the curing temperature of concentrate behind the vitriol oil.

4. mixed rare earth concentrate decomposition method according to claim 1 and 2, the slaking of concentrate can utilize and mix the hot holding temperature that discharges in the vitriol oil process behind the mixing sulfuric acid; Also can be placed in the container of insulation, take the mode of outer heating, keep curing temperature; Type of heating can be electrically heated, high-temperature flue gas or other type of heating that also can adopt roasting to produce.

5. mixed rare earth concentrate decomposition method according to claim 1 and 2, preferred 1～4 hour of roasting time, preferred 200～300 ℃ of maturing temperature.

6. mixed rare earth concentrate decomposition method according to claim 1 and 2, but described stoving oven can carry out in being interrupted industrial furnaces such as static retort furnace quantity-produced rotary kiln of producing or tunnel furnace.

7. mixed rare earth concentrate decomposition method according to claim 6 can be realized described slaking and roasting process simultaneously in industrial furnaces such as retort furnace, rotary kiln or tunnel furnace.

8. mixed rare earth concentrate decomposition method according to claim 2, water washing is adopted in the flue gas defluorinate, obtains fluorine-containing waste water.

9. mixed rare earth concentrate decomposition method according to claim 2, the flue gas defluorinate can be used the ammonia defluorinate, under the condition that has water vapor or water droplet to participate in, utilizes the reaction of ammonia and hydrogen fluoride gas to form water-fast NH ₄Fluorine in the HF solids removal gas.

10. mixed rare earth concentrate decomposition method according to claim 9, the ammonia that defluorination is used can adopt heating to contain the liquid of bicarbonate of ammonia, bicarbonate of ammonia is decomposed produce ammonia; Also can directly be heated and volatilize ammonia with liquefied ammonia.