序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
1 | 使用空气-偏亚硫酸氢盐处理从黄铁矿中分离铜矿物 | CN201080063212.4 | 2010-12-03 | CN102770214B | 2014-08-20 | B.格雷恩 |
本发明的实施方案涉及通过氧化性气体进行曝气并通过硫氧试剂进行接触后浮选硫化物原料。 | ||||||
2 | 从锯屑回收并提纯硅颗粒的方法 | CN200980157591.0 | 2009-12-28 | CN102388121A | 2012-03-21 | A·格拉贝; T·M·拉根 |
本公开一般而言涉及用于从因切割诸如单晶或多晶硅锭的硅锭而产生的锯屑或废研磨浆料回收硅的方法。更具体而言,本公开涉及用于从锯屑或废浆料隔离并提纯硅的方法,以便所产生的硅可被用作诸如太阳能级的硅原材料的原材料。 | ||||||
3 | 改进的泡沫浮选法和设备 | CN01808134.7 | 2001-02-15 | CN1441705A | 2003-09-10 | G·J·詹姆森; N·W·A·兰伯特 |
一种通常用于分离诸如煤炭的颗粒材料的泡沫浮选法,它具有一大小混合的颗粒的供料装置(1),在弧形筛(2)被分离成一较细颗粒流(3)和一较粗颗粒流(14)。细小颗粒以常规方式被送到浮选池(7)中,而粗颗粒与洗水(16)相混合,并通过洗水分布设备(19,20)被分布在泡沫层(10)上或泡沫层(10)中。还叙述了另一种能够处理粗颗粒的洗水分布设备。 | ||||||
4 | 磷酸盐的选矿法 | CN201180056352.3 | 2011-05-31 | CN103249490A | 2013-08-14 | A·J·蒂格 |
一种由磷酸盐矿石中进行磷酸盐选矿的方法,所述方法包括:提供用于调节的微粒形式的磷酸盐矿石的含水浆料,其包含至少60重量%的固体;通过使所述含水浆料与选自脂肪酸及其盐的至少一种调节剂和至少一种烃接触来调节所述含水浆料;稀释经调节的所述浆料以提供不超过35重量%的固体含量;对经稀释的所述浆料进行浮泡浮选,其包括使加压的稀释浆料流与空气在降液管中结合以形成包含分散的空气相的泡沫,并将所述泡沫的下降流引入包含液体的浮选室中的所述液体的表面之下,从而形成浮动泡沫;和收集所述浮动泡沫以提供富含磷酸盐的固体。 | ||||||
5 | 使用空气-偏亚硫酸氢盐处理从黄铁矿中分离铜矿物 | CN201080063212.4 | 2010-12-03 | CN102770214A | 2012-11-07 | B.格雷恩 |
本发明的实施方案涉及通过氧化性气体进行曝气并通过硫氧试剂进行接触后浮选硫化物原料。 | ||||||
6 | 飞灰中的未燃烧碳除去方法 | CN200680049205.2 | 2006-12-11 | CN101346193A | 2009-01-14 | 松尾和芳; 阿部一雄; 铃木隆男; 斋藤绅一郎 |
本发明提供除去原料飞灰中含有的未燃烧碳的方法,该方法包括:向上述飞灰中加入水形成浆料的步骤,对形成浆料的飞灰通过高速旋转的搅拌翼进行剪切、通过该剪切力在未燃烧碳的表面上产生活化能并赋予亲油性的步骤,向含有亲油化了的未燃烧碳的浆料中添加捕获剂和起泡剂并使捕获剂附着在亲油化了的未燃烧碳上的同时使附着有捕获剂的未燃烧碳附着在气泡上并进行浮选的步骤。 | ||||||
7 | 从锯屑回收并提纯硅颗粒的方法 | CN200980157591.0 | 2009-12-28 | CN102388121B | 2013-08-21 | A·格拉贝; T·M·拉根 |
本公开一般而言涉及用于从因切割诸如单晶或多晶硅锭的硅锭而产生的锯屑或废研磨浆料回收硅的方法。更具体而言,本公开涉及用于从锯屑或废浆料隔离并提纯硅的方法,以便所产生的硅可被用作诸如太阳能级的硅原材料的原材料。 | ||||||
8 | 飞灰中的未燃烧碳除去方法 | CN200680049205.2 | 2006-12-11 | CN101346193B | 2012-07-11 | 松尾和芳; 阿部一雄; 铃木隆男; 斋藤绅一郎 |
本发明提供除去原料飞灰中含有的未燃烧碳的方法,该方法包括:向上述飞灰中加入水形成浆料的步骤,对形成浆料的飞灰通过高速旋转的搅拌翼进行剪切、通过该剪切力在未燃烧碳的表面上产生活化能并赋予亲油性的步骤,向含有亲油化了的未燃烧碳的浆料中添加捕获剂和起泡剂并使捕获剂附着在亲油化了的未燃烧碳上的同时使附着有捕获剂的未燃烧碳附着在气泡上并进行浮选的步骤。 | ||||||
9 | 改进的泡沫浮选法和设备 | CN01808134.7 | 2001-02-15 | CN1229182C | 2005-11-30 | G·J·詹姆森; N·W·A·兰伯特 |
一种通常用于分离诸如煤炭的颗粒材料的泡沫浮选法,它具有一大小混合的颗粒的供料装置(1),在弧形筛(2)被分离成一较细颗粒流(3)和一较粗颗粒流(14)。细小颗粒以常规方式被送到浮选池(7)中,而粗颗粒与洗水(16)相混合,并通过洗水分布设备(19,20)被分布在泡沫层(10)上或泡沫层(10)中。还叙述了另一种能够处理粗颗粒的洗水分布设备。 | ||||||
10 | Removing method of unburned carbon in fly ash | JP2005373020 | 2005-12-26 | JP2007167825A | 2007-07-05 | MATSUO KAZUYOSHI; ABE KAZUO; SUZUKI TAKAO; SAITO SHINICHIRO |
<P>PROBLEM TO BE SOLVED: To provide a removing method of an unburned carbon in fly ash using a floatation method by giving the lipophilicity to the surface (surface treatment), which increases the recovering ratio of ash decreases the loading of an oil that is a collector and the amount of an unburned carbon in recovered ash is more diminished. <P>SOLUTION: The removing method of the unburned carbon c in fly ash of a raw material consists of a step for adding water b to the fly ash a to give a slurry, a step for supplying the slurry to a surface treatment machine with an agitation blade rotating with high speed and making the surface of the unburned carbon c contained in the fly ash a generate an active energy by shear force of the agitation blade to give the lipophilicity, and a step for adding the collector e and a foaming agent f to the slurry d contained in the unburned carbon given the lipophilicity by the active energy, making the collector e adhere to the unburned carbon given the lipophilicity and also the unburned carbon c to a bubble n generated to carry out a floatation. <P>COPYRIGHT: (C)2007,JPO&INPIT | ||||||
11 | JPS5943510B2 - | JP1289177 | 1977-02-08 | JPS5943510B2 | 1984-10-22 | HAINRITSUHI UEEBAA; KURUTO TEITSUPUMAA; RII KEI HATSUSHAA |
Tar and coal fines are separated from ammonia liquor in a coke making operation by a series of settling steps including one in which a foam is physically removed from the surface area of a decanter and placed in a separate decanter. | ||||||
12 | Method of manufacturing grain having large number of carbon from grain mixture | JP8584281 | 1981-06-05 | JPS5738316A | 1982-03-03 | ROJIYAA JIIN KOOBIIRUZU; CHIYAARUZU JIYOOJI ZENGENBAAGA |
Unconverted char in a mixture of particles formed in the partial oxidation of an ash-containing solid fuel is recovered by grinding the mixture and subjecting the ground material to froth flotation. | ||||||
13 | 톱질 잔여물로부터 규소 입자의 회수 및 정제 방법 | KR1020117017816 | 2009-12-28 | KR101538827B1 | 2015-07-22 | 그라비,알렉시스; 레이간,트레이시,엠. |
본원은일반적으로실리콘잉곳 (ingot), 예를들어단결정또는다결정실리콘잉곳의절단에서생성되는톱질잔여물 (saw kerf) 또는폐기연삭슬러리로부터규소를회수하는방법에관한것이다. 보다특히, 본원은생성되는실리콘이원료, 예를들어태양전지용실리콘원료로서사용될수 있도록, 톱질잔여물또는폐기슬러리로부터규소를단리및 정제하는방법에관한것이다. | ||||||
14 | 空気−メタ重亜硫酸処理を用いた黄鉄鉱からの銅鉱物の分離 | JP2018019948 | 2018-02-07 | JP2018075575A | 2018-05-17 | ゴレイン、バルン |
【課題】酸化ガスによるエアレーション、およびスルホキシ試薬による接触に従う硫化物含有物質の浮選プロセスを提供すること。 【解決手段】 浮選プロセスは、外部pH調整剤が添加される場合にpHの変化に抵抗することができる有意な緩衝能を有する浮選用の水を用意し、前記水を用いて、硫化銅鉱物および硫化モリブデン鉱物の少なくとも一方である有価金属硫化物鉱物と、当該有価金属硫化物鉱物から分離される第2の硫化物鉱物とを含むスラリー状有価金属含有パルプを形成し、前記スラリー状有価金属含有パルプを分子状酸素含有ガスによってエアレーションして、エアレーションされたスラリー状パルプを形成し、前記エアレーションされたスラリー状パルプの少なくとも一部をスルホキシ試薬と接触させてスルホキシ化パルプを形成し、前記スルホキシ化パルプを浮選して精鉱を形成することを備える。 【選択図】 図1 |
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15 | Process for the recovery and purification of the silicon particles from Sokafu | JP2011544566 | 2009-12-28 | JP5539390B2 | 2014-07-02 | アレクシス・グラッベ; トレイシー・エム・レイガン |
The present disclosure generally relates to methods for recovering silicon from saw kerf, or an exhausted abrasive slurry, resulting from the cutting of a silicon ingot, such as a single crystal or polycrystalline silicon ingot. More particularly, the present disclosure relates to methods for isolating and purifying silicon from saw kerf or the exhausted slurry, such that the resulting silicon may be used as a raw material, such as a solar grade silicon raw material. | ||||||
16 | Removing unburned carbon method of fly ash | JP2005373020 | 2005-12-26 | JP4917309B2 | 2012-04-18 | 和芳 松尾; 隆男 鈴木; 一雄 阿部; 紳一郎 齋藤 |
17 | Floating method which purify waste water for industry or of selffgoverning community | JP11851780 | 1980-08-29 | JPS5633080A | 1981-04-03 | ERIASU YURUKE |
In a flotation method for purification of industrial or municipal waste water, in which the waste water comes in contact with electrodes having an electrical potential capable of electrolytically decomposing a portion of the waste water, thereby creating an ascending stream of gas bubbles, the waste water is mixed before or during the electrolytic decomposition with wettable particles of polymer material which are practically insoluble in water and have an absolute density of 1.3 g/cm3 at the most. Polymeric materials, especially polyalkane fibrids, are suitable for use as particles. This process makes it possible to purify oil-containing waste water by electroflotation without forming an oil film on the electrodes. | ||||||
18 | Method and apparatus for removing printing ink from cellulose fiber suspension | JP10339378 | 1978-08-26 | JPS5450611A | 1979-04-20 | ROOTARU PUFUARUTSUAA |
Method and apparatus for separating ink from pulped inked paper: a suspension of pulped paper and chemicals enters a cylindrical container tangentially near the container bottom and rotates around the interior of the container; the ink and chemicals form a foam that floats off the suspension of paper fibers; the suspension exits from the container tangentially near the container top; a funnel at the top of the container; a foam outlet near the axis of the container from the funnel; a vortex generator at the bottom of the container, which blows upwardly creating a vortex in the suspension; means disperse air in the suspension in the container inlet before the suspension enters the container through the container inlet; the dispersing means either comprises a rotor cooperating with a stator, or comprises deflector plates in the container inlet; air is supplied to the inlet at the dispersion means rotor or deflector plates; the deflector plates may be washed clean. | ||||||
19 | Method of separating tar from ammonia solution in mixture generated at manufacture of cokes from fine coal and apparatus for carrying out thereof | JP1289177 | 1977-02-08 | JPS52110723A | 1977-09-17 | HAINRITSUHI BUEEBAA; KURUTO TEITSUPUMAA; RII KEI HATSUSHIYAA |
Tar and coal fines are separated from ammonia liquor in a coke making operation by a series of settling steps including one in which a foam is physically removed from the surface area of a decanter and placed in a separate decanter. | ||||||
20 | PROCESS FOR MANUFACTURING WHITE PIGMENT CONTAINING PRODUCTS | EP17703784.3 | 2017-02-13 | EP3417013A1 | 2018-12-26 | SÖTEMANN, Jörg; MAIER, Jörg Andreas |
The present invention concerns a process for manufacturing white pigment containing products. The white pigment containing products are obtained from at least one white pigment and impurities containing material via froth flotation. |