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    • 5. 发明申请
    • SEPARATION METHOD USING SINGLE POLYMER PHASE SYSTEMS
    • 使用单个聚合物相系统的分离方法
    • US20120010390A1
    • 2012-01-12
    • US13143560
    • 2010-01-07
    • James Van AlstineJamil ShanagarRolf HjorthMartin HallCamilla Estmer Nilsson
    • James Van AlstineJamil ShanagarRolf HjorthMartin HallCamilla Estmer Nilsson
    • C07K16/00C07K1/36C07K14/00C07K1/14
    • C07K16/00C07K1/14C07K1/36C07K16/04C07K16/065C07K2317/10
    • The present invention relates to a process of enriching one target compound from a liquid, which process comprises at least one step of isolation performed by differentially partitioning between two aqueous phases. In the present invention the phases are formed by adding a thermally responsive, self-associating (i.e. clouding) hydrophilic polymer, and if needed some additional salts, to an aqueous biotechnical solution (such as a fermentation sample or bioseparation process stream) under thermal and other conditions where the solution separates into a one polymer, two-phase system with one phase enriched in the polymer. The target compound is to be found in the phase not enriched in the polymer, while a significant though varying percentage of contaminants may differentially partition to the phase interface or the polymer enriched phase. With minor or no modification the target containing phase solution can be further processed via standard unit operations such as precipitation, chromatography, and filtration to further purify target and remove any residual polymer.
    • 本发明涉及从液体中富集一种目标化合物的方法,该方法包括通过在两个水相之间进行差异分配而进行的至少一个分离步骤。 在本发明中,通过将热响应,自缔合(即,混浊)的亲水聚合物和如果需要的话添加一些额外的盐,在热和/或热处理下,向水生物技术溶液(例如发酵样品或生物分离工艺流) 溶液分离成一种聚合物的其它条件,两相体系中一相富集聚合物。 目标化合物可以在不富集聚合物的相中找到,而显着的不同百分比的污染物可以差异地分配到相界面或聚合物富集相。 通过微量或不改变,可以通过标准单元操作(如沉淀,色谱和过滤)进一步处理包含相溶液的溶液,以进一步纯化目标物并除去任何残留的聚合物。
    • 6. 发明授权
    • Separation method using single polymer phase systems
    • 使用单聚合物相系统的分离方法
    • US09115181B2
    • 2015-08-25
    • US13143560
    • 2010-01-07
    • James Van AlstineJamil ShanagarRolf HjorthMartin HallCamilla Estmer Nilsson
    • James Van AlstineJamil ShanagarRolf HjorthMartin HallCamilla Estmer Nilsson
    • A23J1/00C07K1/00C07K14/00C07K16/00C07K17/00C07K1/14C07K1/36C07K16/04C07K16/06
    • C07K16/00C07K1/14C07K1/36C07K16/04C07K16/065C07K2317/10
    • The present invention relates to a process of enriching one target compound from a liquid, which process comprises at least one step of isolation performed by differentially partitioning between two aqueous phases. In the present invention the phases are formed by adding a thermally responsive, self-associating (i.e. clouding) hydrophilic polymer, and if needed some additional salts, to an aqueous biotechnical solution (such as a fermentation sample or bioseparation process stream) under thermal and other conditions where the solution separates into a one polymer, two-phase system with one phase enriched in the polymer. The target compound is to be found in the phase not enriched in the polymer, while a significant though varying percentage of contaminants may differentially partition to the phase interface or the polymer enriched phase. With minor or no modification the target containing phase solution can be further processed via standard unit operations such as precipitation, chromatography, and filtration to further purify target and remove any residual polymer.
    • 本发明涉及从液体中富集一种目标化合物的方法,该方法包括通过在两个水相之间进行差异分配而进行的至少一个分离步骤。 在本发明中,通过将热响应,自缔合(即,混浊)的亲水聚合物和如果需要的话添加一些额外的盐,在热和/或热处理下,向水生物技术溶液(例如发酵样品或生物分离工艺流) 溶液分离成一种聚合物的其它条件,两相体系中一相富集聚合物。 目标化合物可以在不富集聚合物的相中找到,而显着的不同百分比的污染物可以差异地分配到相界面或聚合物富集相。 通过微量或不改变,可以通过标准单元操作(如沉淀,色谱和过滤)进一步处理包含相溶液的溶液,以进一步纯化目标物并除去任何残留的聚合物。
    • 7. 发明授权
    • Separation media slurry tank
    • 分离介质泥浆罐
    • US08092073B2
    • 2012-01-10
    • US12517447
    • 2007-12-18
    • Magnus AsplundRolf Hjorth
    • Magnus AsplundRolf Hjorth
    • B01F5/00G01N30/56
    • G01N30/56B01D15/20B01D15/206B01F3/188B01F5/0206B01F5/10B01F7/021B01F7/22B01F2003/0028B01J8/007B01J20/30G01N30/50G01N2030/565
    • A tank adapted to be used for suspending separation media slurry before transferring the separation media slurry to a column or a container comprises: an impeller (7) adapted to rotate in order to mix the media slurry, a nozzle (9) provided protruding into the tank from the bottom (8) thereof, and an adjustable pipe (5) having an open end (6) positioned in the tank and which can be adjusted in position. The nozzle (9) and the adjustable pipe (5) are adapted to be connected to a pump (3) adapted to pump liquid from the adjustable pipe (5) when the open end (6) of the adjustable pipe (5) has been positioned in an uppermost liquid phase provided in the tank when the media slurry has started to sediment and pump the liquid, possibly containing a small amount of media, through the nozzle (9) back into the tank from the tank bottom (8) in order to start re-suspending media that has sedimented in the tank.
    • 适于在将分离介质浆料转移到塔或容器之前用于悬浮分离介质浆料的罐包括:适于旋转以便混合介质浆料的叶轮(7),设置成突出到 罐的底部(8)和可调节管(5),其具有位于罐中的开口端(6),并且可以调节到位。 喷嘴(9)和可调管(5)适于连接到泵(3),当可调节管道(5)的开口端(6)已经被 当介质浆料已经开始沉淀并且将可能含有少量介质的液体从罐底部(8)依次通过喷嘴(9)从罐底部(8)按顺序从罐底部(8)回到罐中时,位于设置在罐中的最上液相中 开始重新暂停在坦克中沉淀的媒体。
    • 8. 发明申请
    • SEPARATION MEDIA SLURRY TANK
    • 分离介质浆液罐
    • US20100044323A1
    • 2010-02-25
    • US12517447
    • 2007-12-18
    • Magnus AsplundRolf Hjorth
    • Magnus AsplundRolf Hjorth
    • B01D21/06
    • G01N30/56B01D15/20B01D15/206B01F3/188B01F5/0206B01F5/10B01F7/021B01F7/22B01F2003/0028B01J8/007B01J20/30G01N30/50G01N2030/565
    • A tank adapted to be used for suspending separation media slurry before transferring the separation media slurry to a column or a container comprises: an impeller (7) adapted to rotate in order to mix the media slurry, a nozzle (9) provided protruding into the tank from the bottom (8) thereof, and an adjustable pipe (5) having an open end (6) positioned in the tank and which can be adjusted in position. The nozzle (9) and the adjustable pipe (5) are adapted to be connected to a pump (3) adapted to pump liquid from the adjustable pipe (5) when the open end (6) of the adjustable pipe (5) has been positioned in an uppermost liquid phase provided in the tank when the media slurry has started to sediment and pump the liquid, possibly containing a small amount of media, through the nozzle (9) back into the tank from the tank bottom (8) in order to start re-suspending media that has sedimented in the tank.
    • 适于在将分离介质浆料转移到塔或容器之前用于悬浮分离介质浆料的罐包括:适于旋转以便混合介质浆料的叶轮(7),设置成突出到 罐的底部(8)和可调节管(5),其具有位于罐中的开口端(6),并且可以调节到位。 喷嘴(9)和可调管(5)适于连接到泵(3),当可调节管道(5)的开口端(6)已经被 当介质浆料已经开始沉淀并且将可能含有少量介质的液体从罐底部(8)依次通过喷嘴(9)从罐底部(8)按顺序从罐底部(8)回到罐中时,位于设置在罐中的最上液相中 开始重新暂停在坦克中沉淀的媒体。