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    • 3. 发明授权
    • Economical sequestration of carbon dioxide by the mixed gas
    • 混合气体经济地封存二氧化碳
    • US08231850B2
    • 2012-07-31
    • US12873654
    • 2010-09-01
    • Young Nam JangKyung Won RyuMyung Gyu Lee
    • Young Nam JangKyung Won RyuMyung Gyu Lee
    • B01D53/62C01C1/24C01F11/46
    • B01D53/62B01D2251/2062B01D2251/404B01D2251/608B01D2257/504Y02C10/04
    • Provided is a fixation method of carbon dioxide. The method includes a) grinding waste gypsum to become 200˜300 mesh; b) performing reaction by supplying mixed gas while mixing the ground waste gypsum with aqueous ammonia, and c) separating solid from liquid in the manufactured slurry by centrifugation and drying separated solid and liquid portions with calcite and ammonium sulfate, wherein the mixed gas is formed of nitrogen and carbon dioxide, and the carbon dioxide provides carbon dioxide fixation method containing 5˜25 wt %. When carbon dioxide is fixed by using waste gypsum, reaction efficiency is remarkably high. The fixation method makes more than 95% of supplied carbon dioxide fixed. Also, provided is an economical method that disposes carbon dioxide as a disposal target without its separation, refinement and liquefaction processes, to thereby remarkably reduce the entire process and costs for processes.
    • 提供二氧化碳的固定方法。 该方法包括:a)研磨废石膏达到200〜300目; b)通过在将废弃石膏与氨水混合的同时供给混合气体进行反应,和c)通过离心并分离固体和液体部分与方解石和硫酸铵进行干燥分离制得的浆料中的固体,其中形成混合气体 的二氧化碳,二氧化碳提供含有5〜25重量%的二氧化碳固定方法。 当使用废石膏固定二氧化碳时,反应效率非常高。 固定方式使95%以上的二氧化碳固定。 此外,提供了在不进行分离,精制和液化过程的情况下将二氧化碳作为处置对象处理的经济方法,从而显着地减少了整个过程和工艺成本。
    • 4. 发明申请
    • Economical Sequestration of Carbon Dioxide by the Mixed Gas
    • 通过混合气体经济地封存二氧化碳
    • US20110300045A1
    • 2011-12-08
    • US12873654
    • 2010-09-01
    • Young Nam JangKyung Won RyuMyung Gyu Lee
    • Young Nam JangKyung Won RyuMyung Gyu Lee
    • B01D53/62
    • B01D53/62B01D2251/2062B01D2251/404B01D2251/608B01D2257/504Y02C10/04
    • Provided is a fixation method of carbon dioxide. The method includes a) grinding waste gypsum to become 200˜300 mesh; b) performing reaction by supplying mixed gas while mixing the ground waste gypsum with aqueous ammonia, and c) separating solid from liquid in the manufactured slurry by centrifugation and drying separated solid and liquid portions with calcite and ammonium sulfate, wherein the mixed gas is formed of nitrogen and carbon dioxide, and the carbon dioxide provides carbon dioxide fixation method containing 5˜25 wt %. When carbon dioxide is fixed by using waste gypsum, reaction efficiency is remarkably high. The fixation method makes more than 95% of supplied carbon dioxide fixed. Also, provided is an economical method that disposes carbon dioxide as a disposal target without its separation, refinement and liquefaction processes, to thereby remarkably reduce the entire process and costs for processes.
    • 提供二氧化碳的固定方法。 该方法包括:a)研磨废石膏达到200〜300目; b)通过在将废弃石膏与氨水混合的同时供给混合气体进行反应,和c)通过离心并分离固体和液体部分与方解石和硫酸铵进行干燥分离制得的浆料中的固体,其中形成混合气体 的二氧化碳,二氧化碳提供含有5〜25重量%的二氧化碳固定方法。 当使用废石膏固定二氧化碳时,反应效率非常高。 固定方式使95%以上的二氧化碳固定。 此外,提供了在不进行分离,精制和液化过程的情况下将二氧化碳作为处置对象处理的经济方法,从而显着地减少了整个过程和工艺成本。
    • 5. 发明申请
    • METHOD OF PRODUCING CARBONATE USING CARBON DIOXIDE MICROBUBBLES AND CARBONATE THEREOF
    • 使用二氧化碳微生物和碳酸钙生产碳酸的方法
    • US20120114548A1
    • 2012-05-10
    • US13095469
    • 2011-04-27
    • Jun Hwan BangYoung Nam Jang
    • Jun Hwan BangYoung Nam Jang
    • C01F11/18C01B31/00C01B31/24
    • C01F11/181C01B32/60C01P2002/72C01P2004/03C01P2004/52C01P2004/61
    • Disclosed herein is a method of producing carbonate, comprising the steps of: providing a water-containing solution including cations that are precipitated in the form of a salt after undergoing a precipitation reaction with carbonate ions; and generating carbon dioxide microbubbles having a diameter of 50 μm or less in the water-containing solution to induce the precipitation reaction between the cations and the carbonate ions. The method is advantageous in that the carbonate produced using the microbubble system disclosed in the method can be practically used as high-priced building materials, filler for paper manufacturing, etc. and can also be used in foods, medicines and the like depending on the purity thereof, so that it can be recovered in a high yield. Further, the method is advantageous in that carbon dioxide is consumed, and cations can be effectively removed from waste water, so that it is environmentally useful.
    • 本文公开了一种生产碳酸盐的方法,包括以下步骤:提供含有阳离子的含水溶液,所述阳离子在与碳酸根离子进行沉淀反应之后以盐的形式沉淀; 并且在含水溶液中产生直径为50μm以下的二氧化碳微泡,以诱导阳离子和碳酸根离子之间的沉淀反应。 该方法的优点在于,使用该方法中公开的微泡系统制造的碳酸盐可以实际用作高价建筑材料,造纸用填料等,并且还可以用于食品,药品等,这取决于 纯度,可以高收率地回收。 此外,该方法的优点在于二氧化碳被消耗,并且可以从废水中有效地除去阳离子,从而在环境中是有用的。
    • 6. 发明授权
    • Method of producing carbonate using carbon dioxide microbubbles and carbonate thereof
    • 使用二氧化碳微泡及其碳酸盐生产碳酸盐的方法
    • US08470281B2
    • 2013-06-25
    • US13095469
    • 2011-04-27
    • Jun Hwan BangYoung Nam Jang
    • Jun Hwan BangYoung Nam Jang
    • C01F11/18
    • C01F11/181C01B32/60C01P2002/72C01P2004/03C01P2004/52C01P2004/61
    • Disclosed herein is a method of producing carbonate, comprising the steps of: providing a water-containing solution including cations that are precipitated in the form of a salt after undergoing a precipitation reaction with carbonate ions; and generating carbon dioxide microbubbles having a diameter of 50 μm or less in the water-containing solution to induce the precipitation reaction between the cations and the carbonate ions. The method is advantageous in that the carbonate produced using the microbubble system disclosed in the method can be practically used as high-priced building materials, filler for paper manufacturing, etc. and can also be used in foods, medicines and the like depending on the purity thereof, so that it can be recovered in a high yield. Further, the method is advantageous in that carbon dioxide is consumed, and cations can be effectively removed from waste water, so that it is environmentally useful.
    • 本文公开了一种生产碳酸盐的方法,包括以下步骤:提供含有阳离子的含水溶液,所述阳离子在与碳酸根离子进行沉淀反应之后以盐的形式沉淀; 并在含水溶液中产生直径为50μm以下的二氧化碳微泡,以诱导阳离子和碳酸根离子之间的沉淀反应。 该方法的优点在于,使用该方法中公开的微泡系统制造的碳酸盐可以实际用作高价建筑材料,造纸用填料等,并且还可以用于食品,药品等,这取决于 纯度,可以高收率地回收。 此外,该方法的优点在于二氧化碳被消耗,并且可以从废水中有效地除去阳离子,从而在环境中是有用的。
    • 9. 发明申请
    • METHOD OF ANALYZING FORMATION AND PHASE TRANSITION CHARACTERISTIC OF AMORPHOUS CALCIUM CARBONATE
    • 分析不规则碳酸钙形成和相转移特性的方法
    • US20120276571A1
    • 2012-11-01
    • US13359704
    • 2012-01-27
    • Seung Woo LeeYoung Nam Jang
    • Seung Woo LeeYoung Nam Jang
    • G01N33/50C12Q1/02C12Q1/25
    • G01N23/207G01N25/02G01N2223/605Y10T436/204998
    • Provided is a method of analyzing a formation and a phase transition characteristic of amorphous calcium carbonate that may adjust a preferred orientation in crystalline calcium carbonate as well as an amorphous state of calcium carbonate using a water-soluble material containing an amino acid in an operation of forming calcium carbonate. It is possible to handle issues of a limit of a sampling and a standard pattern of an analysis scheme in in vitro calcium carbonate crystallization test by adjusting a holding time of amorphous calcium carbonate or a preferred orientation of a crystal calcium carbonate when forming calcium carbonate using a water-soluble material containing an amino acid. Further, it is possible to verify further characteristics of elements that adjust a formation of a biological material, which may be used for a synthesis of a new material in tissue engineering as well as for an biomineralizaton process.
    • 本发明提供一种分析无定型碳酸钙的形成和相变特性的方法,其可以使用在氨基酸的操作中使用含有氨基酸的水溶性材料来调节结晶碳酸钙中的优选取向以及碳酸钙的无定形状态 形成碳酸钙。 通过调整无定型碳酸钙的保持时间或碳酸钙形成碳酸钙时的优选取向,可以处理体外碳酸钙结晶试验中的分析方案的取样极限和标准图案的问题, 含有氨基酸的水溶性物质。 此外,可以验证调整生物材料形成的元素的进一步特征,其可以用于组织工程中的新材料的合成以及生物矿物质化过程。