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公开(公告)号:US07141172B2
公开(公告)日:2006-11-28
申请号:US10416826
申请日:2002-09-27
IPC分类号: B01D15/08
CPC分类号: B01D53/0446 , B01D15/1842 , B01D53/0454 , B01D53/08 , B01D2215/023 , B01D2257/90 , B01D2259/40005 , B01D2259/40086 , B01D2259/4067
摘要: Distributed valve simulated moving beds are described in which junctions located between successive columns interrupt the flow of process fluid between columns, and either transmit the process fluid through a zone bypass to a succeeding column within the same zone or, if the junction is located between zones, direct the process fluid to an input/output line that is dedicated to the particular zone that immediately follows the junction. At each step of the SMB's operation, the distribution of flows in each junction is modulated to accomplish movement of ports consistent with the SMB's design. Further described are simulated moving beds that contain one or more decoupled on-line regeneration zones. The regeneration zone is decoupled from the separation zones in the sense that it observes a step time (a “regeneration interval”) that is different than the step time observed by the separation zones of the SMB. Because the regeneration zone is “on-line,” the SMB need not be stopped to remove columns for regeneration. Because the regeneration zone is decoupled from the separation zones, the column can stay in the regeneration zone as long as needed to accomplish the regeneration, regardless of the step time observed by the SMB.
摘要翻译: 描述了分布式阀模拟移动床,其中位于连续柱之间的连接点中断了塔之间的过程流体的流动,并且将过程流体通过区域旁路传送到同一区域内的后续柱,或者如果结点位于区域之间 将工艺流体引导到专用于紧接在结点之后的特定区域的输入/输出线。 在SMB运营的每个步骤中,调整每个交叉点的流量分布,以实现与SMB设计一致的端口的移动。 进一步描述的是包含一个或多个解耦的在线再生区的模拟移动床。 在再现区域与分离区域分离的意义上,它观察到与SMB分离区观察到的步进时间不同的步骤时间(“再生间隔”)。 因为再生区域是“在线”,所以不需要停止SMB以除去再生区。 因为再生区域与分离区分离,所以只要需要完成再生,柱子就可以停留在再生区域中,而不管SMB观察到的步骤时间如何。
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公开(公告)号:US06843854B2
公开(公告)日:2005-01-18
申请号:US10159313
申请日:2002-05-31
CPC分类号: C07H17/08 , B01D15/1842 , B01D15/185 , B01D15/327 , C07H1/06
摘要: The present invention comprises the optimization of a four zone simulated moving bed system configured to separate a first component from a mixture containing the first component and a second component wherein the first component exhibits non-linear adsorption and non-negligible mass transfer resistances. In one example, the four zone simulated moving bed is optimized to separate Clarithromycin from a mixture containing Clarithromycin and 6,11-O-methyl erythromycin A. The present invention further comprises a four zone or a five zone apparatus having a first portion and a second portion and the optimization of the four zone or five zone apparatus to separate a first component from a mixture containing the first component and a second component and the method of using the same. In one example, the four zone and five zone simulated moving beds are optimized to separate Clarithromycin from a mixture containing Clarithromycin and 6,11-O-methyl erythromycin A. The present invention further comprises a batch elution system configured to separate Clarithromycin from a mixture containing Clarithromycin and 6,11-O-methyl erythromycin A.
摘要翻译: 本发明包括四区模拟移动床系统的优化,该四区模拟移动床系统被配置为从包含第一组分和第二组分的混合物中分离第一组分,其中第一组分表现出非线性吸附和不可忽略的质量传递电阻。 在一个实例中,四区模拟移动床被优化以将克拉霉素与含有克拉霉素和6,11-O-甲基红霉素A的混合物分离。本发明还包括四区或五区设备,其具有第一部分和 第二部分和四区或五区设备的优化,以将第一组分与含有第一组分和第二组分的混合物分离出来,以及使用该组分的方法。 在一个实例中,四区和五区模拟移动床被优化以将克拉霉素与含有克拉霉素和6,11-O-甲基红霉素A的混合物分离。本发明还包括配置为将克拉霉素与混合物分离的间歇洗脱系统 含有克拉霉素和6,11-O-甲基红霉素A.
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公开(公告)号:US20230093246A1
公开(公告)日:2023-03-23
申请号:US17797826
申请日:2021-01-28
发明人: Nien-Hwa Linda Wang , David Harvey , Yi Ding
摘要: A method of recovering substantially rare earth elements (REEs) from magnets, including first dissolving a magnet to yield a solution containing Nd, Pr, and Dy, and then equilibrating a first column with Cu2+ solution to yield a first equilibrated column, introducing the solution to the first equilibrated column, and introducing a ligand solution to the first equilibrated column to establish three bands of different liquid compositions in the column, wherein the three bands comprise a Dy/Nd mixed band, a first pure Nd band, and a Nd/Pr mixed band. Next, sending the Dy/Nd mixed band to a second column containing a Cu2+ solution and introducing a ligand solution to the second column to establish a pure Dy band and a second pure Nd band in the second column, and sending the Nd/Pr mixed band to a third column containing a Cu2+ solution and introducing a ligand solution to the third column to establish a third pure Nd band and a pure Pr band in the third column. Finally, eluting the respective pure Nd bands to recover Nd, eluting the pure Dy band to recover Dy, and eluting the pure Pr band to recover Pr.
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公开(公告)号:US20220195559A1
公开(公告)日:2022-06-23
申请号:US17536403
申请日:2021-11-29
申请人: Nien-Hwa Linda Wang , Hoon Choi , David Harvey
发明人: Nien-Hwa Linda Wang , Hoon Choi , David Harvey
IPC分类号: C22B7/00 , C22B7/02 , C22B3/42 , C22B3/44 , C01B33/14 , C22B59/00 , C22B21/00 , C22B3/10 , C01G49/06 , C01F7/0693 , C01F11/02 , C01G49/02 , C01F11/24 , C01B33/26 , C01B33/32 , C01G49/10 , C01F17/271 , C22B3/06 , C22B3/08
摘要: A process disclosed herein is related to the isolation and purification of substantially pure chemicals, including silica gel, sodium silicate, aluminum silicate, iron oxide, and rare earth elements (or rare earth metals, REEs), from massive industrial waste coal ash. In one embodiment, the process includes a plurality of caustic extractions of coal ash at an elevated temperature, followed by an acidic treatment to dissolve aluminum silicate and REEs. The dissolved aluminum silicate is precipitated out by pH adjustment as a solid product while REEs remain in the solution. REEs are captured and enriched using an ion exchange column. Alternatively, the solution containing aluminum silicate and REEs is heated to produce silica gel, which is easily separated from the enriched REEs solution. REEs are then isolated and purified from the enriched solution to afford substantially pure individual REE by a ligand-assisted chromatography. Additionally, a simplified process using one caustic extraction and one acidic extraction with an ion exchange process was also investigated and optimized to afford a comparable efficiency.
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