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    • 4. 发明申请
    • METHOD AND EQUIPMENT FOR PROCESSING ELECTRONIC WASTES
    • 用于处理电子废物的方法和设备
    • WO2012168744A3
    • 2013-04-25
    • PCT/HU2012000006
    • 2012-01-19
    • EWR HUNGARY KFTSZALAY CSABAKOCSIS LASZLOPARTI JUDITSZLAVIK ALAJOSHARTAINE FABRY MARIASZINAY ZOLTAN
    • SZALAY CSABAKOCSIS LASZLOPARTI JUDITSZLAVIK ALAJOSHARTAINE FABRY MARIASZINAY ZOLTAN
    • B09B3/00B03B1/00B03B9/06
    • B09B3/00C22B7/001H05K3/22H05K2203/178Y02P10/214Y02P10/22Y02P10/224Y02P10/236Y02P70/613Y02W30/822
    • The invention relates to a method for processing electronic wastes, characterized that: . a/ grist is prepared from electronic wastes containing metals too, and the grist is heated in a reactor, preferable at 455-465 °C temperature, the vapours of the soldering metals exiting over 200 °C are lead away, precipitated with cooling, the soldering metals are recovered, the gas generated in the reactor is lead into an alkaline quencher, where it is purified, the coal portion of the heating residue remaining on the bottom of the reactor is lead away, and the polymer heating residue is treated with acidic solution, or . b/ the metals are removed from the surface of the surface of the electronic waste to be processed with rubbing-grinding, separation of the copper, nickel and noble metals is carried out with a known method, electrically, this way dischargeable melt is obtained, at higher temperature the lead-containing soldering metals are recovered as secondary melt, the metals are separated, and the light fraction is crushed, the resin is heated in a low temperature reactor, in order to recover the resin, the vapours generated are lead away, cooled, the solidified resin is recovered, the bottom product of the reactor is treated with nitric acid, and the solid residue is separated. . The equipment of the invention is characterized that inside its feeding screw (14) there is a plate lock (13), the central unit of the reactor is the bearing box of the driving engine (15), containing double stuffing box (26, 27, 28 and 29), and the lower part of its stirring mechanics is an anchor stirrer, has dredging shovels (5), on the conoidal frustum shaped bottom of the reactor there is a removal hole, closed by a cone lock (6), and the removal hole continues in a vertical neck (10).
    • 本发明涉及一种处理电子废物的方法,其特征在于: 由含有金属的电子废物制备砂浆,并将粗粉在反应器中加热,优选在455-465℃的温度下,离开200℃的焊接金属的蒸汽导出,冷却沉淀, 回收焊接金属,将反应器中产生的气体引入碱性猝灭剂,在其中进行纯化,剩余在反应器底部的加热残渣的煤部分被排出,聚合物加热残余物用酸性 解决方案,或。 b /金属从摩擦研磨的待处理电子废物表面的表面除去,铜,镍和贵金属的分离是用已知的方法进行的,这样可得到可排出的熔体, 在较高温度下,含铅焊接金属作为二次熔体回收,金属分离,轻馏分被粉碎,树脂在低温反应器中加热,以回收树脂,所产生的蒸气导致 ,冷却,回收固化的树脂,用硝酸处理反应器的底部产物,分离固体残余物。 。 本发明的设备的特征在于,在其进给螺杆(14)内部有一个板锁(13),反应器的中心单元是驱动发动机(15)的轴承箱,包含双重填料函(26,27 ,28和29),其搅拌机构的下部是锚式搅拌器,在反应器的锥形截头锥形底部有疏浚铲(5),有一个由锥形锁(6)封闭的拆卸孔, 并且所述移除孔在垂直的颈部(10)中继续。
    • 7. 发明申请
    • EXTRACTION PROCESS FOR REACTIVE METAL OXIDES
    • 反应性金属氧化物的萃取方法
    • WO2004113230A1
    • 2004-12-29
    • PCT/GB2004/002543
    • 2004-06-11
    • THE UNIVERSITY OF LEEDSJHA, AnimeshMALPAN, Pailo, AntonyTATHAVADKAR, Vilas, Dattatray
    • JHA, AnimeshMALPAN, Pailo, AntonyTATHAVADKAR, Vilas, Dattatray
    • C01G23/047
    • C22B34/1236C01F7/142C01F7/38C01G23/047C01G49/06C22B1/02C22B5/10C22B7/04C22B21/0038C22B34/1209C22B34/1259Y02P10/214Y02P10/218Y02P10/224Y02P10/23
    • The present invention relates to a zero-waste process for extraction of alumina from différent types of bauxite ores and red mud residues and of titanium dioxide from ilmenite. Iron oxide is first reduced to metallic iron above the melting point of C-saturated cast iron alloy which yields a high-C iron alloy and an AI and Ti metal oxide rich slag which is then treated with alkali carbonate to form alkali aluminates and titanates. The alkali aluminates are separated by water leaching from which the hydroxide of alumina is precipitated by bubbling C0 2 . The residue from water leaching is treated with sulphuric acid and Ti0 2 is precipitated via a hydrolysis route. The process recovers most of the metal values and generates only small quantities of silicious residues at pH 4-5 which can be used for soil conditioning. The present also relates to a method for selective separation of Ti0 2 -rich oxides from titaniferrous ore/residue materials via oxidative roasting in the presence of alkali carbonate or carbonates followed by aqueous leaching of the roasted material and selective precipitation of Ti0 2 under controlled condition below pH=4.
    • 本发明涉及从不同类型的铝土矿和红泥渣以及来自钛铁矿的二氧化钛提取氧化铝的零废弃方法。 首先将氧化铁还原成高于C饱和铸铁合金的熔点的金属铁,其产生高C铁合金和富含Al和Ti的富含金属氧化物的炉渣,然后用碱金属碳酸盐处理以形成碱金属铝酸盐和钛酸盐。 碱金属铝酸盐通过水浸出分离,氧化铝的氢氧化物通过鼓泡形成CO 2沉淀。 用硫酸处理来自水浸的残渣,经水解路线沉淀出TiO 2。 该过程恢复大部分金属值,并在pH 4-5下仅产生少量的可用于土壤调理的硅残余物。 本发明还涉及一种通过在碱金属碳酸盐或碳酸盐存在下通过氧化焙烧从钛铁矿/残渣物质中选择性分离富含TiO 2的氧化物的方法,然后将焙烧物料进行含水浸出并在低于pH的控制条件下选择性沉淀TiO 2 = 4。
    • 10. 发明申请
    • METHOD AND EQUIPMENT FOR PROCESSING ELECTRONIC WASTES
    • 用于处理电子废物的方法和设备
    • WO2012168744A2
    • 2012-12-13
    • PCT/HU2012/000006
    • 2012-01-19
    • EWR-Hungary Kft.SZALAY, CsabaKOCSIS, LászlóPARTI, JuditSZLÁVIK, AlajosHARTAINÉ Fábry MáriaSZINAY, Zoltán
    • SZALAY, CsabaKOCSIS, LászlóPARTI, JuditSZLÁVIK, AlajosHARTAINÉ Fábry MáriaSZINAY, Zoltán
    • B09B3/00
    • B09B3/00C22B7/001H05K3/22H05K2203/178Y02P10/214Y02P10/22Y02P10/224Y02P10/236Y02P70/613Y02W30/822
    • The invention relates to a method for processing electronic wastes, characterized that: a/ grist is prepared from electronic wastes containing metals too, and the grist is heated in a reactor, preferable at 455-465 °C temperature, the vapours of the soldering metals exiting over 200 °C are lead away, precipitated with cooling, the soldering metals are recovered, the gas generated in the reactor is lead into an alkaline quencher, where it is purified, the coal portion of the heating residue remaining on the bottom of the reactor is lead away, and the polymer heating residue is treated with acidic solution, or b/ the metals are removed from the surface of the surface of the electronic waste to be processed with rubbing-grinding, separation of the copper, nickel and noble metals is carried out with a known method, electrically, this way dischargeable melt is obtained, at higher temperature the lead-containing soldering metals are recovered as secondary melt, the metals are separated, and the light fraction is crushed, the resin is heated in a low temperature reactor, in order to recover the resin, the vapours generated are lead away, cooled, the solidified resin is recovered, the bottom product of the reactor is treated with nitric acid, and the solid residue is separated. The equipment of the invention is characterized that inside its 14 feeding screw there is a 13 plate lock, the central unit of the reactor is the bearing box of the 15 driving engine, containing 26, 27, 28 and 29 double stuffing box, and the lower part of its stirring mechanics is an anchor stirrer, has 5 dredging shovels, on the conoidal frustum shaped bottom of the reactor there is a removal hole, closed by a 6 cone lock, and the removal hole continues in a 10 vertical neck.
    • 本发明涉及一种处理电子废物的方法,其特征在于:由含有金属的电子废物制备砂粒,并且在反应器中加热砂浆,优选在455-465℃的温度下,焊接金属的蒸汽 离开200℃以上的铅离开,冷却沉淀,回收焊接金属,在反应器中产生的气体被引入碱性猝灭剂,在其中被纯化,加热残渣的煤部分残留在 反应器被引出,聚合物加热残余物用酸性溶液处理,或b /金属从待处理的电子废物表面的表面除去,用于研磨,分离铜,镍和贵金属 以已知的方法进行电解,以这种方式获得可放电熔体,在较高温度下,含铅焊接金属作为二次熔体回收,金属分离, 将轻馏分粉碎,将树脂在低温反应器中加热,以回收树脂,产生的蒸汽被引出,冷却,回收固化的树脂,反应器的底部产物用硝酸处理 ,并分离固体残余物。 本发明的设备的特征在于,在其14个进给螺杆内部有一个13板锁,反应器的中心单元是15个驱动发动机的轴承箱,包含26,27,28和29个双重填料箱, 其搅拌机构的下部是锚式搅拌器,在反应器的锥形截头锥形底部有5个疏浚铲,有一个拆卸孔,由6个锥形锁闭合,拆卸孔在10个垂直的颈部中延伸。