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公开(公告)号:US20090050550A1
公开(公告)日:2009-02-26
申请号:US11990745
申请日:2006-08-23
申请人: Kazuo Matsuura , Fusatsugu Abe , Tetsuo Fukazu , Taisuke Sekimoto
发明人: Kazuo Matsuura , Fusatsugu Abe , Tetsuo Fukazu , Taisuke Sekimoto
IPC分类号: B01D33/70
CPC分类号: B01D3/346 , B01D1/16 , B01D53/04 , B01D53/0423 , B01D53/0438 , B01D53/0446 , B01D53/261 , B01D2253/108 , B01D2257/80 , B01D2259/10
摘要: A very highly concentrated solution is obtained in a single cycle of operation. In the solution separating apparatus, the solution is atomized into the mists to be mixed with the carrier gas, the carrier gas containing such atomized mists is transferred to the collection unit 3, and the collection unit 3 is so constructed and arranged that a specific target substance is separated and collected from the atomized mist component. The solution separating apparatus allows the mist component, by means of the carrier gas, to be in contact with the molecular sieving adsorbent 4 having a molecularly sieving capability of adsorbing the adsorbable component contained in the mist component so as to be separated from the mist component. The non-adsorbable component which is not adsorbed into the molecular sieving adsorbent 4 is separated from the mist component contained in the carrier gas in which the adsorbable component is separated, so that the target substance is separated from the carrier gas.
摘要翻译: 在单个操作循环中获得非常高浓度的溶液。 在溶液分离装置中,将溶液雾化成与载气混合的雾,将含有雾化雾的载气转移到收集单元3,收集单元3被构造和布置,使得特定目标 物质从雾化的雾组分分离和收集。 溶液分离装置允许通过载气的雾组分与具有吸附在雾组分中的可吸附组分的分子筛分能力的分子筛吸附剂4接触,从而与雾组分分离 。 未吸附到分子筛吸附剂4中的不吸附成分与分离有可吸附成分的载气中所含的雾成分分离,使目标物质与载气分离。
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公开(公告)号:US20080202333A1
公开(公告)日:2008-08-28
申请号:US12071355
申请日:2008-02-20
申请人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
发明人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
CPC分类号: B01D1/0052 , B01D3/06 , B01D3/145 , B01D3/346 , B01D5/0027 , B01D5/0039 , B01D5/0042 , B01D5/0045 , B01D5/0081 , B01D5/0087 , B01D5/009 , C12G3/10
摘要: In the present invention, a solution containing a target substance is atomized into a mist in an atomizer 1 to produce a mixed fluid of mist and gas. In the collection of the mist from this mixed fluid, a gas transmission membrane 51 of a pore size is used that transmits gas but does not transmit the target substance contained in the mist. In the present invention, the mixed fluid is brought into contact with the primary surface of the gas transmission membrane 51, and the pressure on the primary surface is made higher than the pressure on the secondary surface of the opposite side, whereby the gas in the mixed fluid is let to pass through the gas transmission membrane 51 to separate part or all of the gas contained in the mixed fluid.
摘要翻译: 在本发明中,含有目标物质的溶液在雾化器1中被雾化成雾,以产生雾气和气体的混合流体。 在从该混合流体收集雾中,使用透过气体但不透过雾中含有的目标物质的孔径的气体透过膜51。 在本发明中,使混合流体与气体传递膜51的主表面接触,并使主表面上的压力高于相对侧的二次表面上的压力,由此, 使混合流体通过气体透过膜51以分离包含在混合流体中的部分或全部气体。
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公开(公告)号:US07946508B2
公开(公告)日:2011-05-24
申请号:US12071355
申请日:2008-02-20
申请人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
发明人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
IPC分类号: A24F25/00
CPC分类号: B01D1/0052 , B01D3/06 , B01D3/145 , B01D3/346 , B01D5/0027 , B01D5/0039 , B01D5/0042 , B01D5/0045 , B01D5/0081 , B01D5/0087 , B01D5/009 , C12G3/10
摘要: A method and apparatus for separating a solution containing a target substance. The solution is atomized into a mist in an atomizer (1) to produce a mixed fluid of mist and gas. In the collection of the mist from this mixed fluid, a gas transmission membrane (51) is used. The gas transmission membrane has a pore size that transmits gas but does not transmit the target substance contained in the mist. The mixed fluid is brought into contact with the primary surface of the gas transmission membrane (51), and the pressure on the primary surface is made higher than the pressure on the secondary surface of the opposite side. Thus, the gas in the mixed fluid is allowed to pass through the gas transmission membrane (51) to separate part or all of the gas contained in the mixed fluid.
摘要翻译: 一种用于分离含有目标物质的溶液的方法和装置。 将溶液雾化成雾化器(1)中的雾以产生雾气和气体的混合流体。 在从该混合流体收集雾中,使用气体透过膜(51)。 气体透过膜具有透过气体但不透过雾中含有的目标物质的孔径。 使混合流体与气体传递膜(51)的主表面接触,并使主表面上的压力高于相对侧的二次表面上的压力。 因此,允许混合流体中的气体通过气体传递膜(51)以分离混合流体中包含的部分或全部气体。
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公开(公告)号:US20050218241A1
公开(公告)日:2005-10-06
申请号:US11091486
申请日:2005-03-29
申请人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
发明人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
IPC分类号: B01D53/22 , B01D1/00 , B01D3/06 , B01D3/34 , B01D5/00 , B01D69/12 , B01D71/02 , B05B17/06 , C12G3/10 , B05D1/00 , A62C5/02 , B05B17/00
CPC分类号: B01D5/0045 , B01D1/0052 , B01D3/06 , B01D3/346 , B01D5/0027 , B01D5/0039 , B01D5/0042 , B01D5/0081 , B01D5/0087 , B01D5/009 , C12G3/10
摘要: In the present invention, a solution containing a target substance is atomized into a mist in an atomizer 1 to produce a mixed fluid of mist and air. In the collection of the mist from this mixed fluid, an air transmission membrane 51 of a pore size is used that transmits air but does not transmit the target substance contained in the mist. In the present invention, the mixed fluid is brought into contact with the primary surface of the air transmission membrane 51, and the pressure on the primary surface is made higher than the pressure on the secondary surface of the opposite side, whereby the air in the mixed fluid is let to pass through the air transmission membrane 51 to separate part or all of the air contained in the mixed fluid.
摘要翻译: 在本发明中,将包含目标物质的溶液在雾化器1中雾化成雾,以产生雾和空气的混合流体。 在从该混合流体收集雾中,使用透过空气但不透过包含在雾中的目标物质的孔径的透气膜51。 在本发明中,使混合流体与空气传输膜51的主表面接触,使主表面上的压力高于相对侧的二次表面上的压力,由此, 使混合流体通过透气膜51以分离包含在混合流体中的部分或全部空气。
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公开(公告)号:US09155978B2
公开(公告)日:2015-10-13
申请号:US11990745
申请日:2006-08-23
申请人: Kazuo Matsuura , Fusatsugu Abe , Tetsuo Fukazu , Taisuke Sekimoto
发明人: Kazuo Matsuura , Fusatsugu Abe , Tetsuo Fukazu , Taisuke Sekimoto
CPC分类号: B01D3/346 , B01D1/16 , B01D53/04 , B01D53/0423 , B01D53/0438 , B01D53/0446 , B01D53/261 , B01D2253/108 , B01D2257/80 , B01D2259/10
摘要: A very highly concentrated solution is obtained in a single cycle of operation. In the solution separating apparatus, the solution is atomized into the mists to be mixed with the carrier gas, the carrier gas containing such atomized mists is transferred to the collection unit 3, and the collection unit 3 is so constructed and arranged that a specific target substance is separated and collected from the atomized mist component. The solution separating apparatus allows the mist component, by means of the carrier gas, to be in contact with the molecular sieving adsorbent 4 having a molecularly sieving capability of adsorbing the adsorbable component contained in the mist component so as to be separated from the mist component. The non-adsorbable component which is not adsorbed into the molecular sieving adsorbent 4 is separated from the mist component contained in the carrier gas in which the adsorbable component is separated, so that the target substance is separated from the carrier gas.
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公开(公告)号:US07357334B2
公开(公告)日:2008-04-15
申请号:US11091486
申请日:2005-03-29
申请人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
发明人: Kazuo Matsuura , Tetsuo Fukazu , Taisuke Sekimoto
CPC分类号: B01D5/0045 , B01D1/0052 , B01D3/06 , B01D3/346 , B01D5/0027 , B01D5/0039 , B01D5/0042 , B01D5/0081 , B01D5/0087 , B01D5/009 , C12G3/10
摘要: In a method and apparatus for separating a solution, the solution containing a target substance is atomized into a mist in an atomizer (1) to produce a mixed fluid of mist and air. In the collection of the mist from this mixed fluid, an air transmission membrane (51) is used, and the air transmission membrane has a pore size that transmits air but does not transmit the target substance contained in the mist. The mixed fluid is brought into contact with the primary surface of the air transmission membrane (51), and the pressure on the primary surface is made higher than the pressure on the secondary surface of the opposite side. Thereby, the air in the mixed fluid is allowed to pass through the air transmission membrane (51) to separate part or all of the air contained in the mixed fluid.
摘要翻译: 在用于分离溶液的方法和装置中,将含有目标物质的溶液雾化成雾化器(1)中的雾以产生雾和空气的混合流体。 在从该混合流体收集雾中,使用空气传输膜(51),空气传播膜具有透过空气但不透过雾中所含有的目标物质的孔径。 使混合流体与空气传输膜(51)的主表面接触,使主表面上的压力高于相对侧的二次表面上的压力。 由此,允许混合流体中的空气通过空气传递膜51以分离混合流体中包含的部分或全部空气。
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