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Patent Agency Ranking
公开(公告)号:US09186604B1
公开(公告)日:2015-11-17
申请号:US14390513
申请日:2013-05-22
Applicant: Dow Global Technologies LLC
Inventor: Steven D. Jons , Santhosh K. Ramalingam
CPC classification number: B01D21/0012 , B01D21/0006 , B01D21/0036 , B01D21/0042 , B01D21/2411 , B01D21/267 , B01D29/33 , B01D29/6415 , B01D29/6476 , B01D29/908 , B01D36/00 , B04C5/04 , B04C5/081 , B04C5/103 , B04C5/14 , B04C5/22 , B04C5/30 , B04C9/00 , B04C2009/004
Abstract: A hydroclone (10) including a tank (12) having a fluid inlet (14), a filtered fluid outlet (16), an effluent outlet (18), a process fluid outlet (20) and an inner peripheral wall (22) positioned about an axis (X) and enclosing a plurality of aligned chambers including: i) a vortex chamber (24) in fluid communication with the fluid inlet (14), a filter assembly (26) located within the vortex chamber (24) and enclosing a filtrate chamber (46), a fluid pathway (28) extending from the fluid inlet (14) and about the filter assembly (26) which is adapted to generate a vortex fluid flow about the filter assembly (26), wherein the filtrate chamber (46) is in fluid communication with the filtered fluid outlet (16) such that fluid passing through the filter assembly (26) enters the filtrate chamber (46) and may exit the tank (12) by way of the filtered fluid outlet (16), and ii) an effluent separation chamber (30) in fluid communication with the vortex chamber (24) and which is adapted for receiving unfiltered fluid therefrom, wherein the effluent separation chamber (30) is in fluid communication with the process fluid outlet (20) and an effluent outlet (18); wherein the hydroclone (10) further includes a vortex flow barrier (34) located between the vortex and effluent separation chambers (24, 30) which is adapted to disrupts vortex fluid flow as fluid flows from the vortex chamber (24) to the effluent separation chamber (30).
Abstract translation: 包括具有流体入口(14)的容器(12),过滤流体出口(16),流出物出口(18),工艺流体出口(20)和内周壁(22)的水力旋流器(10) 围绕轴线(X)并且包围多个对准的腔室,包括:i)与流体入口(14)流体连通的涡流室(24),位于涡流室(24)内的过滤器组件(26) 滤液室(46),从流体入口(14)延伸并且围绕过滤器组件(26)延伸的流体路径(28),其适于在过滤器组件(26)周围产生涡流流体流,其中滤液室 (46)与过滤的流体出口(16)流体连通,使得通过过滤器组件(26)的流体进入滤液室(46),并且可以通过过滤的流体出口(16)离开罐(12) )和ii)与涡流室(24)流体连通并且适于接收的流出物分离室(30) 其中所述流出物分离室(30)与所述过程流体出口(20)和流出物出口(18)流体连通; 其中所述水力旋流器(10)还包括位于所述涡流和流出物分离室(24,30)之间的涡流阻流层(34),所述涡流流动隔离件适于在流体从所述涡流室(24)流动到所述流出物分离时破坏涡流流体流动 室(30)。
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公开(公告)号:US09393532B2
公开(公告)日:2016-07-19
申请号:US14761327
申请日:2014-01-27
Applicant: Rohm and Haas Company , Dow Global Technologies LLC
Inventor: Santhosh K. Ramalingam , Aaron Sarafinas
CPC classification number: B01F5/0665 , B01F3/0807 , B01F3/0865 , B01F5/0465 , B01F5/0468 , B01F7/00908 , B29B9/10
Abstract: A method for making an emulsion using a rotating membrane device (10) including: i) a membrane assembly (12) including a cylindrical porous surface (14) enclosing an inner chamber (16) concentrically positioned about an axis (X), ii) a vane assembly (18) including a plurality of vanes (20) extending along the axial length (L) of the porous surface (14) of the membrane assembly (12), wherein the vanes (24) comprise a shear surface (24) located within 1 mm of the porous surface (14), and iii) a vessel (22) enclosing the membrane and vane assemblies (12, 18); wherein the method includes the step of moving a dispersible liquid phase (26) through the porous surface (14) into a continuous liquid phase (28) while rotating at least one of the vane assembly (18) or membrane assembly (12) relative to the other about the axis (X) such that the shear surfaces (24) exert shear forces upon the dispersible liquid phase (26) passing through the porous surface (14) to form droplets (30) of a dispersed liquid phase having a size of 1 to 500 μm within the continuous liquid phase (28).
Abstract translation: 一种使用旋转膜装置(10)制造乳液的方法,包括:i)膜组件(12),其包括围绕轴线(X)同心定位的围绕内室(16)的圆柱形多孔表面(14),ii) 叶片组件(18),其包括沿膜组件(12)的多孔表面(14)的轴向长度(L)延伸的多个叶片(20),其中叶片(24)包括剪切表面(24) 位于多孔表面(14)的1mm内,以及iii)封闭膜和叶片组件(12,18)的容器(22); 其中所述方法包括将可分散液相(26)穿过所述多孔表面(14)移动到连续液相(28)中的步骤,同时相对于所述叶片组件(18)或膜组件(12)中的至少一个相对于 另一个围绕轴线(X),使得剪切表面(24)对通过多孔表面(14)的可分散液相(26)施加剪切力,以形成分散液相的液滴(30),其具有大小为 在连续液相(28)内为1〜500μm。
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公开(公告)号:US20150352506A1
公开(公告)日:2015-12-10
申请号:US14761327
申请日:2014-01-27
Applicant: ROHM AND HAAS COMPANY , DOW GLOBAL TECHNOLOGIES LLC
Inventor: Santhosh K. Ramalingam , Aaron Sarafinas
CPC classification number: B01F5/0665 , B01F3/0807 , B01F3/0865 , B01F5/0465 , B01F5/0468 , B01F7/00908 , B29B9/10
Abstract: A method for making an emulsion using a rotating membrane device (10) including: i) a membrane assembly (12) including a cylindrical porous surface (14) enclosing an inner chamber (16) concentrically positioned about an axis (X), ii) a vane assembly (18) including a plurality of vanes (20) extending along the axial length (L) of the porous surface (14) of the membrane assembly (12), wherein the vanes (24) comprise a shear surface (24) located within 1 mm of the porous surface (14), and iii) a vessel (22) enclosing the membrane and vane assemblies (12, 18); wherein the method includes the step of moving a dispersible liquid phase (26) through the porous surface (14) into a continuous liquid phase (28) while rotating at least one of the vane assembly (18) or membrane assembly (12) relative to the other about the axis (X) such that the shear surfaces (24) exert shear forces upon the dispersible liquid phase (26) passing through the porous surface (14) to form droplets (30) of a dispersed liquid phase having a size of 1 to 500 μm within the continuous liquid phase (28).
Abstract translation: 一种使用旋转膜装置(10)制造乳液的方法,包括:i)膜组件(12),其包括围绕轴线(X)同心定位的围绕内室(16)的圆柱形多孔表面(14),ii) 叶片组件(18),其包括沿膜组件(12)的多孔表面(14)的轴向长度(L)延伸的多个叶片(20),其中叶片(24)包括剪切表面(24) 位于多孔表面(14)的1mm内,以及iii)封闭膜和叶片组件(12,18)的容器(22); 其中所述方法包括将可分散液相(26)穿过所述多孔表面(14)移动到连续液相(28)中的步骤,同时相对于所述叶片组件(18)或膜组件(12)中的至少一个相对于 另一个围绕轴线(X),使得剪切表面(24)对通过多孔表面(14)的可分散液相(26)施加剪切力,以形成分散液相的液滴(30),其具有大小为 在连续液相(28)内为1〜500μm。
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公开(公告)号:US09192946B2
公开(公告)日:2015-11-24
申请号:US14429005
申请日:2013-10-09
Applicant: Dow Global Technologies LLC
Inventor: Santhosh K. Ramalingam , Christopher J. Siler , Steven D. Jons
CPC classification number: B04C9/00 , B01D21/0012 , B01D21/0042 , B01D21/2488 , B01D21/267 , B04C3/00 , B04C3/06 , B04C2009/004
Abstract: A hydroclone including: a vortex chamber (24) in fluid communication with the inlet (14), a process fluid chamber (32) in fluid communication with the process fluid outlet (20), an effluent separation chamber (30) located between the vortex chamber (24) and process fluid chamber (32) and including an outer circumferential surface (23), a vortex flow barrier (34) located between the vortex chamber (24) and the effluent separation chamber (30), an effluent barrier (36) located between the effluent separation chamber (30) and the process fluid chamber (32) including at least one opening (42′) near the outer circumferential surface (23), and an effluent opening (38) centrally located within the effluent separation chamber (30) in fluid communication with the effluent outlet (18); wherein the effluent separation chamber (30) has a median distance (80) between the vortex flow barrier (34) and effluent barrier (36) which is adjustable.
Abstract translation: 一种水力旋流器,包括:与入口(14)流体连通的涡流室(24),与过程流体出口(20)流体连通的过程流体室(32),位于涡流之间的流出物分离室(30) 室(24)和过程流体室(32),并且包括外周表面(23),位于涡流室(24)和流出物分离室(30)之间的涡流阻流层(34),流出物阻挡层 )位于流出物分离室(30)和处理流体室(32)之间,包括在外周表面(23)附近的至少一个开口(42'),以及位于流出物分离室 (30)与流出物出口(18)流体连通; 其中所述流出物分离室(30)具有可调节的涡流阻流层(34)和流出物阻挡层(36)之间的中间距离(80)。
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公开(公告)号:US20150224517A1
公开(公告)日:2015-08-13
申请号:US14429005
申请日:2013-10-09
Applicant: DOW GLOBAL TECHNOLOGIES LLC
Inventor: Santhosh K. Ramalingam , Christopher J. Siler , Steven D. Jons
CPC classification number: B04C9/00 , B01D21/0012 , B01D21/0042 , B01D21/2488 , B01D21/267 , B04C3/00 , B04C3/06 , B04C2009/004
Abstract: A hydroclone including: a vortex chamber (24) in fluid communication with the inlet (14), a process fluid chamber (32) in fluid communication with the process fluid outlet (20), an effluent separation chamber (30) located between the vortex chamber (24) and process fluid chamber (32) and including an outer circumferential surface (23), a vortex flow barrier (34) located between the vortex chamber (24) and the effluent separation chamber (30), an effluent barrier (36) located between the effluent separation chamber (30) and the process fluid chamber (32) including at least one opening (42′) near the outer circumferential surface (23), and an effluent opening (38) centrally located within the effluent separation chamber (30) in fluid communication with the effluent outlet (18); wherein the effluent separation chamber (30) has a median distance (80) between the vortex flow barrier (34) and effluent barrier (36) which is adjustable.
Abstract translation: 一种水力旋流器,包括:与入口(14)流体连通的涡流室(24),与过程流体出口(20)流体连通的过程流体室(32),位于涡流之间的流出物分离室(30) 室(24)和过程流体室(32),并且包括外周表面(23),位于涡流室(24)和流出物分离室(30)之间的涡流阻流层(34),流出物阻挡层 )位于流出物分离室(30)和处理流体室(32)之间,包括在外周表面(23)附近的至少一个开口(42'),以及位于流出物分离室 (30)与流出物出口(18)流体连通; 其中所述流出物分离室(30)具有可调节的涡流阻流层(34)和流出物阻挡层(36)之间的中间距离(80)。
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