Mineral Processing Latest Patents has 74 update(s) | | Date range: | 08 Feb 2021 – 15 Feb 2021 |
| | | Title: | Mineral Processing Latest Patents |
| | Workspace: | Mining Technology – CEMI – Mineral Processing – Latest Patents |
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| | Legal status (5) | | JP2017206397A | | Tiを精製する方法 | | [Translated] Ti PURIFICATION METHOD | | Application Date:16 May 2016 Publication Date:24 Nov 2017 Current Assignee:JX金属株式会社 |
| | 【課題】チタン製錬における塩化残渣からTiを回収する方法を提供すること。 【解決手段】チタン製錬における塩化残渣からTiを回収する方法であって、 塩化残渣に対して浮遊選鉱処理を行い、それによって、尾鉱、浮鉱、及び浮選後液を得る工程と、 前記尾鉱に対して比重選別を行い、それによって、Siを除去する工程を含む、 を含む、該方法。 【選択図】図1 | | [Translated] PROBLEM TO BE SOLVED: To provide a method of recovering Ti from chloride residues in titanium smelting.SOLUTION: A method of recovering Ti from chloride residues in titanium smelting includes the steps of performing flotation ore dressing of the chloride residues, thereby obtaining tailing, floated ore, and post-flotation liquid, and performing gravity ore dressing of the tailing, thereby reducing Si.SELECTED DRAWING: Figure 1 | | | 02 Feb 2021 | +WRITTEN DECISION TO GRANT A PATENT OR TO GRANT A REGISTRATION (UTILITY MODEL) |
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| | EP3139904A1 | | Formulation of fat-soluble vitamin | | Application Date:05 May 2015 Publication Date:15 Mar 2017 Current Assignee:BASF SE |
| | The invention relates to a composition comprising A) microcapsules comprising at least one fat-soluble active substance selected from a vitamin K compound or a provitamin or a prodrug of a vitamin K compound embedded in a matrix comprising a hydrocolloid and optionally one or more other matrix components, and B) at least one dietary mineral; as well as uses and products comprising such compositions. | | | 29 Jan 2021 | +(EXPECTED) GRANT | | 26 Jan 2021 | +GRANT FEE PAID |
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| | CN205518122U | | 一种矾土矿超细粉制备系统装置 | | [Translated] Alumina ore deposit super powder preparation system device | | Application Date:24 Feb 2016 Publication Date:31 Aug 2016 Current Assignee:巩义市铠源超细粉有限公司 |
| | 本实用新型属于矾土矿加工生产技术领域,具体的说是涉及一种矾土矿超细粉制备系统装置,主要是为了提供一种矾土矿超细粉制备系统装置,使得矿产加工生产过程连续一致,提高企业的生产效率,提供了一种矾土矿超细粉制备系统装置,在该系统的最前端设置有原料矿斗,在原料矿斗的前端分别设置有第一颚式破碎机和第二颚式破碎机,在第二颚式破碎机的前端设置有振动筛,在振动筛的下方设置有粉矿仓,其通过细粉碾磨机和选粉机直接与成品仓相连接,本实用新型加工生产效率高,极大的提高了企业的生产效率,而且使得矾土矿的生产加工更加连续一致,同时也有效的提高了矾土矿加工颗粒的加工生产精度,提高了产品的质量等级。 | | [Translated] The utility model belongs to the technical field of the processing production of alumina ore deposit, specific saying so relates to an alumina ore deposit super powder preparation system device, mainly in order to provide an alumina ore deposit super powder preparation system device, make the continuous unanimity of mineral products processing production process, the efficiency of the production of enterprise is improved, the utility model provides an alumina ore deposit super powder preparation system device, be provided with the raw materials ore bucket foremost in this system, front end at the raw materials ore bucket is provided with a jaw breaker and the 2nd jaw breaker respectively, front end at the 2nd jaw breaker is provided with the shale shaker, be provided with whitewashed ore bin in the below of shale shaker, it is connected with the finished product storehouse through farine edge -runner mill and selection powder machine are direct, the utility model discloses production efficiency is high in processing, very big improvement the production efficiency of enterprise, make the production and processing in alumina ore deposit unanimous more in succession moreover, the also effectual processing production precision that has improved alumina ore deposit processing granule has simultaneously improved the quality class of product. | |
| | US8336621B2 | | Energy efficient, low emissions shale oil recovery process | | Application Date:23 Sep 2009 Publication Date:25 Dec 2012 Current Assignee:JWBA, INC. |
| | A process for the energy efficient, environmentally friendly recovery of liquid and gaseous products from solid or semi-solid hydrocarbon resources, in particular, oil shale or tar sands. The process involves non-oxidative pyrolysis to recover fluid energy values, oxidative combustion to recover energy values as recoverable heat, and environmental sequestration of gases produced. | | | 01 Feb 2021 | -LAPSE FOR FAILURE TO PAY MAINTENANCE FEES |
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| | US20100078167A1 | | Energy efficient, low emissions shale oil recovery process | | Application Date:23 Sep 2009 Publication Date:01 Apr 2010 Current Assignee:JWBA, INC. |
| | A process relates to the energy efficient, environmentally friendly recovery of liquid and gaseous products from solid or semi-solid hydrocarbon resources, in particular, oil shale or tar sands. The process involves non-oxidative pyrolysis to recover fluid energy values, oxidative combustion to recover energy values as recoverable heat, and environmental sequestration of gases produced. | | | 01 Feb 2021 | -LAPSE FOR FAILURE TO PAY MAINTENANCE FEES |
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| Family (65) | | | WO2019175746A1 | | Minerals processing | | Application Date:11 Mar 2019 Publication Date:19 Sep 2019 Current Assignee:WEIR MINERALS AFRICA (PROPRIETARY) LIMITED |
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| | GB2571941A | | Minerals processing | | Application Date:13 Mar 2018 Publication Date:18 Sep 2019 Current Assignee:WEIR MINERALS AFRICA (PROPRIETARY) LIMITED |
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| | | | | RU2681140C2 | | Флотационная установка | | [Translated] Flotation installation | | Application Date:04 Aug 2017 Publication Date:04 Mar 2019 Current Assignee:ОУТОТЕК (ФИНЛЭНД) ОЙ(OUTOTEC (FINLAND) OY) |
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| Expired patents (4) | | AU2001238249B2 | | Method for removing microbial biofilms from surfaces | | Application Date:15 Feb 2001 Publication Date:15 Sep 2005 Current Assignee:BETZDEARBORN INC., |
| | Method for removing microbial biofilm from surfaces in contact with an aqueous system is disclosed, which comprises adding to the system a treatment comprising low foaming, ethoxylated anionic surfactant composed of alkyl substituted carboxylated acid or salt thereof and polyoxyethylene-polyoxypropylene block copolymer. |
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| | AU2001238249A1 | | Method for removing microbial biofilms from surfaces | | Application Date:15 Feb 2001 Publication Date:03 Sep 2001 Current Assignee:BETZDEARBORN INC., |
| | Method for removing microbial biofilm from surfaces in contact with an aqueous system is disclosed, which comprises adding to the system a treatment comprising low foaming, ethoxylated anionic surfactant composed of alkyl substituted carboxylated acid or salt thereof and polyoxyethylene-polyoxypropylene block copolymer. |
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| | CA2399520A1 | | Method for removing microbial biofilms from surfaces | | Application Date:15 Feb 2001 Publication Date:30 Aug 2001 Current Assignee:BETZDEARBORN INC. |
| | Method for removing microbial biofilm from surfaces in contact with an aqueous system is disclosed, which comprises adding to the system a treatment comprising low foaming, ethoxylated anionic surfactant composed of alkyl substituted carboxylated acid or salt thereof and polyoxyethylene-polyoxypropylene block copolymer. |
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| | CA2399520C | | Method for removing microbial biofilms from surfaces | | Application Date:15 Feb 2001 Publication Date:30 Aug 2001 Current Assignee:BETZDEARBORN INC. |
| | Method for removing microbial biofilm from surfaces in contact with an aqueous system is disclosed, which comprises adding to the system a treatment comprising low foaming, ethoxylated anionic surfactant composed of alkyl substituted carboxylated acid or salt thereof and polyoxyethylene-polyoxypropylene block copolymer. |
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