Method for recycling noble metal from electronic waste material and apparatus thereof
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C22B-004/04
C22B-004/08
C22B-011/02
출원번호
US-0823076
(2010-10-27)
등록번호
US-9328398
(2016-05-03)
우선권정보
CN-2010 1 0506134 (2010-10-12)
국제출원번호
PCT/CN2010/078167
(2010-10-27)
§371/§102 date
20130313
(20130313)
국제공개번호
WO2012/048474
(2012-04-19)
발명자
/ 주소
Xu, Kaihua
출원인 / 주소
GEM CO., LTD.
대리인 / 주소
Shimokaji IP
인용정보
피인용 횟수 :
1인용 특허 :
1
초록▼
A method for recycling noble metals from electronic waste materials and apparatus thereof. The method comprises the following steps: mechanically breaking up the electronic waste materials; removing rubber and plastic materials by electrostatic separation; removing ferromagnetic metals by magnetic s
A method for recycling noble metals from electronic waste materials and apparatus thereof. The method comprises the following steps: mechanically breaking up the electronic waste materials; removing rubber and plastic materials by electrostatic separation; removing ferromagnetic metals by magnetic separation; removing residual rubber and plastic materials by microwave pyrolysis; removing low-melting-point metals by indirectly heating using microwave; separating the noble metals from one another in turn from low-melting-point metal to high-melting-point metal for recycle. The apparatus includes a microwave housing. A filtering screen is positioned on the inside wall of the housing horizontally, and vertically-arranged and open-ended heating pipes are positioned over the filtering screen. The method and apparatus can adequately recycle resources in the electronic waste materials.
대표청구항▼
1. A method for recycling noble metals from electronic waste materials containing noble metals, comprising the following steps: (1) taking electronic waste materials containing noble metals, mechanically breaking up and sieving to obtain electronic waste powders containing noble metals;(2) taking sa
1. A method for recycling noble metals from electronic waste materials containing noble metals, comprising the following steps: (1) taking electronic waste materials containing noble metals, mechanically breaking up and sieving to obtain electronic waste powders containing noble metals;(2) taking said electronic waste powders containing noble metals, removing rubber and plastic materials by electrostatic separation, collecting noble metal-rich part;(3) taking said noble metal-rich part, removing ferromagnetic metals by magnetic separation, collecting ferromagnetism-free metal-rich part;(4) taking and feeding said ferromagnetism-free metal-rich part into heating chamber from feed inlet of microwave reactor, shutting the feed inlet valve and valve that connects the channels, heating to pyrogenation temperature T1=400˜600° C. by microwave, collecting gases generated by pyrolysis at exhaust outlet;(5) heating to melting temperature T2=700˜900° C. by microwave, melting low-melting-point metals whose melting temperature is lower than T2, keeping melting for 5˜30 minutes, allowing the melted low-melting-point metal liquor to pass through a filtering screen, collecting filtrate A and residues A separately;(6) continue to heat said residues A to melting temperature T3=990˜1020° C. by microwave, melting metal silver, keeping melting for 5˜30 minutes, allowing melted silver liquor to pass through the filtering screen, collecting filtrate B and residues B separately;(7) taking said residues B, applying one or more methods of microwave-melting, acid-liquor filtration, electrolysis and extraction to separate one or more noble metals individually;all processes of heating by microwave are conducted in microwave reactor; said microwave reactor comprises microwave housing, microwave transmitter positioned on the inside wall of said microwave housing, a feed inlet positioned inside said microwave housing for feeding, a microwave chamber formed in the hollow microwave housing, a filtering screen positioned on the inside wall of the housing horizontally, one or more heating pipes used to heat electronic waste powders containing noble metals positioned over said filtering screen, said heating pipes whose internal spaces are heating chamber provided for electronic waste powders containing noble metals to pass by and to be placed in are vertically-arranged and open-ended, temperature detector positioned over said heating pipes, which is used to detect the temperature of said heating pipes, exhaust outlet positioned over said microwave housing, which is used to get rid of gases generated by pyrolysis, and sub-pipeline positioned at the bottom of said microwave housing, which is used to discharge materials; feed inlet, exhaust outlet and sub-pipeline all have valves;height of said heating pipes is in a range of 10˜100 cm, pipe diameter is in a range of 3˜10 cm. 2. The method as claimed in claim 1, wherein, said step (5) comprises: heating to melting temperature T2=700˜900° C. by microwave, melting low-melting-point metals whose melting temperature is lower than T2, keeping melting for 5˜30 minutes, opening vacuum pump, vacuum filtrating at 0.2˜0.5 atmosphere, allowing low-melting-point metals to pass through filtering screen, collecting filtrate and residues separately. 3. The method as claimed in claim 1, wherein, said step (6) comprises: heating to melting temperature T3=990˜1020° C. by microwave, melting metal silver, keeping melting for 5˜30 minutes, opening vacuum pump, vacuum filtrating at 0.2˜0.5 atmosphere, allowing melted silver liquor to pass through filtering screen, collecting filtrate B and residues B separately. 4. The method as claimed in claim 1, wherein, microwave-melting method is applied in said step (7): taking residues B, heating to melting temperature T4=1070˜1075° C. by microwave, melting metal gold, keeping melting for 5˜30 minutes, allowing melted gold liquor to pass through the filtering screen, collecting filtrate C and residues C separately; taking residues C, heating to melting temperature T5=1480˜1520° C. by microwave, allowing melted copper liquor to pass through the filtering screen, keeping melting for 5˜30 minutes, filtrating, collecting filtrate D and residues D separately; taking residues D, heating to melting temperature T6=1580˜1750° C. by microwave, melting metal palladium, keeping melting for 5˜30 minutes, allowing melted palladium liquor to pass through the filtering screen, collecting filtrate E and residues E separately; taking residues E, heating to melting temperature T7=1800˜1900° C. by microwave, melting metal platinum, keeping melting for 5˜30 minutes, allowing melted platinum liquor to pass through the filtering screen, collecting filtrate F and residues F separately. 5. The method as claimed in claim 1, wherein, acid-liquor filtration method and microwave-melting method are applied in said step (7): taking residues B, adding a strong acid selected from hydrochloric acid, nitric acid, and sulfuric acid, dissolving metal copper, copper oxides and copper chlorides in acid liquor and passing through the filtering screen to form filtrate G and residues G; taking residues G, heating to melting temperature T8=1070˜1075° C. by microwave, melting metal gold, keeping melting for 5˜30 minutes, allowing melted gold liquor to pass through the filtering screen, collecting filtrate H and residues H separately; taking residues H, heating to melting temperature T9=1580˜1750° C. by microwave, melting metal palladium, keeping melting for 5˜30 minutes, allowing melted palladium liquor to pass through the filtering screen, collecting filtrate I and residues I separately; taking residues I, heating to melting temperature T10=1800˜1900° C. by microwave, melting metal platinum, keeping melting for 5˜30 minutes, allowing melted platinum liquor to pass through the filtering screen, collecting filtrate J and residues J separately. 6. The method as claimed in claim 1, wherein, said step (7) acid-liquor filtration method and either electrolysis or extraction are applied in said step (7): taking residues B, adding a strong acid selected from hydrochloric acid, nitric acid, and sulfuric acid to submerge the residues, dissolving metal copper, copper oxides and copper chlorides in acid liquor and passing through the filtering screen to form filtrate G and residues G; separating the residues G by electrolysis or extraction, collecting metal gold, palladium and platinum separately. 7. The method as claimed in claim 4, wherein, said filtration in said step (7) is vacuum filtration. 8. The method as claimed in claim 5, wherein, said filtration in said step (7) is vacuum filtration. 9. The method as claimed in claim 6, wherein, said filtration in said step (7) is vacuum filtration.
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이 특허에 인용된 특허 (1)
Wicks George G. ; Clark David E. ; Schulz Rebecca L., Method for recovering metals from waste.
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