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    • 5. 发明授权
    • Method for concentrating precious metals contained in leaching residue discharged from copper hydrometallurgical process
    • 浓缩从铜湿法冶炼过程中排出的浸出渣中所含的贵金属的方法
    • US07422621B2
    • 2008-09-09
    • US10896066
    • 2004-07-22
    • Koji AndoKeiji Kudo
    • Koji AndoKeiji Kudo
    • C22B3/10
    • C22B11/023C22B7/007C22B11/044C22B15/0069C22B15/0086Y02P10/214Y02P10/234Y02P10/236
    • A method for concentrating precious metals contained in the leaching residue discharged from a copper hydrometallurgical process by removing pyrite from the residue. A method for concentrating precious metals in the leaching residue containing pyrite, elementary sulfur, precious metals and gangue, discharged from a copper hydrometallurgical process which comprises steps of leaching in an acidic, aqueous solution, reducing the copper-containing leaching liquor and electrolysis for copper recovery to treat copper sulfide ores, comprising (1) pyrolysis step in which the leaching residue is thermally treated at 550.degree. C. or higher in a non-oxidative atmosphere, to produce the calcined ore containing pyrrhotite, precious metals and gangue, and (2) a re-leaching step in which the calcined ore is re-leached in an acidic, aqueous solution, to be separated into the re-leaching residue and iron-leached liquor, the former containing elementary sulfur, precious metals and gangue.
    • 通过从残留物中除去黄铁矿,浓缩从铜湿法冶炼过程排出的浸出残渣中所含的贵金属的方法。 一种浓缩贵金属的方法,该方法是将从黄铜冶炼工艺中排出的含黄铁矿,元素硫,贵金属和ang石的浸出残渣中浓缩贵金属的方法,该方法包括在酸性水溶液中浸出,还原含铜浸出液和电解铜 回收处理硫化铜矿石,包括(1)热解步骤,其中浸出残渣在550℃下进行热处理。 在非氧化性气氛中为C.或更高,以产生含有磁黄铁矿,贵金属和ang石的煅烧矿石,和(2)将煅烧矿​​石在酸性水溶液中再浸出的再浸出步骤, 分离为再浸出渣和铁浸液,前者含有元素硫,贵金属和ang石。
    • 7. 发明申请
    • Method for concentrating precious metals contained in leaching residue discharged from copper hydrometallurgical process
    • 浓缩从铜湿法冶炼过程中排出的浸出渣中所含的贵金属的方法
    • US20050022629A1
    • 2005-02-03
    • US10896066
    • 2004-07-22
    • Koji AndoKeiji Kudo
    • Koji AndoKeiji Kudo
    • C22B1/02C22B3/04C22B3/06C22B3/10C22B7/00C22B11/00C22B11/02C22B15/00
    • C22B11/023C22B7/007C22B11/044C22B15/0069C22B15/0086Y02P10/214Y02P10/234Y02P10/236
    • A method for concentrating precious metals contained in the leaching residue discharged from a copper hydrometallurgical process by removing pyrite from the residue. A method for concentrating precious metals in the leaching residue containing pyrite, elementary sulfur, precious metals and gangue, discharged from a copper hydrometallurgical process which comprises steps of leaching in an acidic, aqueous solution, reducing the copper-containing leaching liquor and electrolysis for copper recovery to treat copper sulfide ores, comprising (1) pyrolysis step in which the leaching residue is thermally treated at 550° C. or higher in a non-oxidative atmosphere, to produce the calcined ore containing pyrrhotite, precious metals and gangue, and (2) a re-leaching step in which the calcined ore is re-leached in an acidic, aqueous solution, to be separated into the re-leaching residue and iron-leached liquor, the former containing elementary sulfur, precious metals and gangue.
    • 通过从残留物中除去黄铁矿,浓缩从铜湿法冶炼过程排出的浸出残渣中所含的贵金属的方法。 一种浓缩贵金属的方法,该方法是将从黄铜冶炼工艺中排出的含黄铁矿,元素硫,贵金属和ang石的浸出残渣中浓缩贵金属的方法,该方法包括在酸性水溶液中浸出,还原含铜浸出液和电解铜 回收处理硫化铜矿石,其包括(1)热解步骤,其中浸出残渣在非氧化性气氛中在550℃或更高温度下进行热处理,以生产含有磁黄铁矿,贵金属和ang石的煅烧矿石和( 2)再煅烧步骤,其中煅烧矿石在酸性水溶液中再浸出,分离成再浸出渣和铁浸出液​​,前者含有元素硫,贵金属和ang石。
    • 9. 发明授权
    • Method for recovering nickel from sulfuric acid aqueous solution
    • 从硫酸水溶液中回收镍的方法
    • US08580213B2
    • 2013-11-12
    • US13057683
    • 2010-02-02
    • Hiroshi KobayashiHirofumi ShojiNorihisa TokiKeiji KudoTatsuya Higaki
    • Hiroshi KobayashiHirofumi ShojiNorihisa TokiKeiji KudoTatsuya Higaki
    • B01D11/00
    • C01G45/003C01G51/003C01G51/04C01G53/003C01G53/04C22B3/44C22B23/043C22B23/0461Y02P10/234
    • A method for recovering nickel from sulfuric acid aqueous solution, for recovering nickel in an effectively utilizable form as a raw material of nickel industry material, by separating efficiently impurity elements of iron, aluminum, manganese, etc., from the sulfuric acid aqueous solution containing nickel and cobalt, and the impurity elements, iron, aluminum, manganese, etc. The method comprises the following steps: subject the sulfuric acid aqueous solution to oxidation neutralization treatment; then subject the solution to neutralization treatment, and separate and recover mixed hydroxides containing nickel and cobalt; subject the mixed hydroxides to dissolution treatment in a sulfuric acid solution having a concentration of equal to or higher than 50% by mass; subject the concentrated solution to solvent extraction treatment, using a phosphate ester-based acidic extraction agent; add a neutralizing agent to the resultant extraction residual liquid; subject the solution to the neutralization treatment, and separate and recover nickel hydroxide generated.
    • 一种从硫酸水溶液中回收镍的方法,用于以有效利用的形式回收镍作为镍工业材料的原料,通过将铁,铝,锰等的杂质元素从含有 镍和钴,以及杂质元素,铁,铝,锰等。该方法包括以下步骤:将硫酸水溶液进行氧化中和处理; 然后对溶液进行中和处理,分离回收含镍和钴的混合氢氧化物; 将混合氢氧化物溶解在浓度等于或高于50质量%的硫酸溶液中; 采用浓缩溶液进行溶剂萃取处理,使用磷酸酯类酸性提取剂; 向所得萃取残余液体中加入中和剂; 对溶液进行中和处理,并分离并回收生成的氢氧化镍。
    • 10. 发明申请
    • METHOD FOR RECOVERING NICKEL FROM SULFURIC ACID AQUEOUS SOLUTION
    • 从硫酸水溶液中回收镍的方法
    • US20110135547A1
    • 2011-06-09
    • US13057683
    • 2010-02-02
    • Hiroshi KobayashiHirofumi ShojiNorihisa TokiKeiji KudoTatsuya Higaki
    • Hiroshi KobayashiHirofumi ShojiNorihisa TokiKeiji KudoTatsuya Higaki
    • C01G53/04C01G51/04C01G51/00
    • C01G45/003C01G51/003C01G51/04C01G53/003C01G53/04C22B3/44C22B23/043C22B23/0461Y02P10/234
    • A method for recovering nickel from an sulfuric acid aqueous solution, for recovering nickel in an effectively utilizable form as a raw material of nickel industry material, by separating efficiently impurity elements of iron, aluminum, manganese and the like, from the sulfuric acid aqueous solution containing nickel and cobalt, and the impurity elements, iron, aluminum, manganese and the like.The method is characterized by comprising the following steps (1) to (5). step (1): to subject the sulfuric acid aqueous solution to oxidation neutralization treatment. step (2): then, to subject the solution to neutralization treatment, and to separate and recover mixed hydroxides containing nickel and cobalt. step (3): to subject the mixed hydroxides to dissolution treatment in a sulfuric acid solution having a concentration of equal to or higher than 50% by mass. step (4): to subject the concentrated solution to solvent extraction treatment, using a phosphate ester-based acidic extraction agent. step (5): by adding a neutralizing agent to the resultant extraction residual liquid, to subject the solution to the neutralization treatment, and to separate and recover nickel hydroxide generated.
    • 从硫酸水溶液中回收镍的方法,通过从硫酸水溶液中有效地分离出铁,铝,锰等的杂质元素,以镍工业材料的原料回收镍,以有效利用的形式回收镍 含有镍和钴,以及杂质元素,铁,铝,锰等。 该方法的特征在于包括以下步骤(1)至(5)。 步骤(1):使硫酸水溶液进行氧化中和处理。 步骤(2):然后,使溶液进行中和处理,并分离和回收含有镍和钴的混合氢氧化物。 步骤(3):使混合氢氧化物在浓度等于或高于50质量%的硫酸溶液中进行溶解处理。 步骤(4):使用浓缩溶液进行溶剂萃取处理,使用磷酸酯基酸性提取剂。 步骤(5):通过向所得到的萃取残留液中加入中和剂,使溶液进行中和处理,分离并回收生成的氢氧化镍。