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公开(公告)号:US20200147658A1
公开(公告)日:2020-05-14
申请号:US16629378
申请日:2018-06-26
发明人: Akira MATSUOKA , Koji NOISHIKI , Tomohiro OZONO
摘要: Provided is a method for cleaning an arbitrary fluid channel in a fluid flow device including a channel-forming body forming a plurality of fluid channels, a first header, and a second header. The method includes opening a cleaning-target channel included in the plurality of fluid channels and closing a non-cleaning-target channel which is the other fluid channel; and supplying a cleaning liquid to a cleaning-liquid supply header selected from the first header and the second header in a state where the non-cleaning-target channel is closed to cause the cleaning liquid to flow only through the cleaning-target channel.
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公开(公告)号:US20160218370A1
公开(公告)日:2016-07-28
申请号:US14979292
申请日:2015-12-22
CPC分类号: H01M4/8657 , B01J8/0457 , B01J8/0492 , B01J19/0093 , B01J19/24 , B01J2219/00891 , B01J2219/24 , H01M4/92
摘要: Disclosed is a method for producing a catalyst, wherein the method comprises: a supplying step of supplying a dispersion containing a palladium-containing fine particle from a supplying part into a reaction container; a preparing step of preparing a copper-palladium-containing complex in which at least part of a surface of the palladium-containing fine particle is covered with copper, by passing the dispersion through a reacting part and bringing the palladium-containing fine particle in the dispersion into contact with a copper-containing member in the reacting part; and a substituting step of substituting the copper in the copper-palladium-containing complex emitted from an emitting part with platinum by bringing the complex into contact with a platinum-containing solution.
摘要翻译: 本发明提供一种催化剂的制造方法,其特征在于,包括:向反应容器供给含有来自供给部的含钯微粒的分散液的供给工序; 制备含有铜 - 钯的络合物的制备步骤,其中至少部分含钯微粒表面被铜覆盖,通过使分散体通过反应部分并将含钯微粒置于 分散体与反应部分中的含铜部件接触; 以及通过使络合物与含铂溶液接触来用铂代替从含有发光部分的铜 - 钯的络合物中的铜的取代步骤。
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公开(公告)号:US20160114282A1
公开(公告)日:2016-04-28
申请号:US14895412
申请日:2014-07-14
发明人: Akira MATSUOKA , Akitoshi FUJISAWA , Koji NOISHIKI
CPC分类号: B01D53/1425 , B01D53/1475 , B01D53/18 , Y02C10/06
摘要: A separation method including: an absorption process absorbing a desired component in a starting material gas into an absorption liquid by bringing the starting material gas and the absorption liquid into contact with each other inside an absorption unit; a regeneration process releasing the desired component from the absorption liquid and regenerating the absorption liquid by heating the absorption liquid, which absorbed the desired component in the absorption process, in a regeneration unit; a post-regeneration separation process separating the mixed fluid, which is the gas of the desired component released in the regeneration process and the regenerated absorption liquid, into the desired component gas and the absorption liquid; and a compression process compressing the starting material gas prior to the absorption process and the regeneration process.
摘要翻译: 一种分离方法,包括:通过使原料气体和吸收液体在吸收单元内部彼此接触而将原料气体中的期望成分吸收到吸收液中的吸收方法; 从吸收液中释放所需成分的再生工序,在再生部中加热吸收了吸收工序中的成分的吸收液再生吸收液; 将作为再生处理中释放的所需成分的气体的混合流体和再生吸收液分离成所需成分气体和吸收液的再生后分离工序; 以及在吸收过程和再生过程之前压缩原料气体的压缩过程。
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公开(公告)号:US20160008736A1
公开(公告)日:2016-01-14
申请号:US14771067
申请日:2014-04-09
发明人: Akira MATSUOKA , Koji NOISHIKI
IPC分类号: B01D11/04
CPC分类号: B01D11/0453
摘要: Provided are a processing device (1) and a processing method that enable an efficient chemical operation by means of reducing the time for separating into individual starting material fluids a mixture of starting material fluids that had once been fractionated. The processing device (1) is provided with: a separation tank (5) that contacts together a first and second starting material fluid (2a, 2b) that differ in specific gravity, performing a chemical operation at the portion at which both starting material fluids contact, and houses the first and second starting material fluids (2a, 2b) that are separated vertically; and a flow path forming member (6) that is disposed within the separation tank (5) and forms a plurality of minute ducts (7) for causing the upper starting material fluid (2a) layer to contact the lower starting material fluid (2b) layer. Each minute duct (7) is provided with: a first duct (9) that penetrates the flow path forming member (6) in the vertical direction and guides the second starting material fluid (2b) below the flow path forming member (6) to above the flow path forming member (6); and a second duct (10) that connects to the first duct (9) in a manner so as to introduce the upper first starting fluid (2a) layer into the first duct (9).
摘要翻译: 提供了一种处理装置(1)和一种处理方法,其能够通过减少一次分馏的起始原料流体的混合物来分离成单独的原料流体的时间来实现有效的化学操作。 处理装置(1)设置有:分离槽(5),其将比重不同的第一和第二原料流体(2a,2b)接触在一起,在起始材料流体 接触并容纳垂直分离的第一和第二原料流体(2a,2b); 和流路形成部件(6),其设置在所述分离罐(5)内并且形成用于使所述上部原料流体(2a)层与所述下部原料流体(2b)接触的多个微小管道(7) 层。 每分钟管道(7)设置有:在垂直方向上穿过流路形成部件(6)的第一管道(9),并且将流路形成部件(6)下方的第二原料流体(2b)引导到 在流路形成构件(6)的上方; 以及以将所述上部第一起始流体(2a)层引入所述第一管道(9)的方式连接到所述第一管道(9)的第二管道(10)。
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公开(公告)号:US20220105446A1
公开(公告)日:2022-04-07
申请号:US17472394
申请日:2021-09-10
发明人: Akira MATSUOKA , Koji NOISHIKI
IPC分类号: B01D11/04
摘要: An extraction system includes an extractor that carries out an extraction treatment of bringing a raw material liquid into contact with an extraction liquid so that metal ions are extracted from the raw material liquid to migrate to the extraction liquid, a raw material liquid return path that leads the raw material liquid from a separator to a raw material liquid tank; and a raw material liquid pH regulator addition apparatus connected to a raw material liquid pH adjustment place that is one of the raw material liquid tank and the raw material liquid return path, the raw material liquid pH regulator addition apparatus configured to add a raw material liquid pH regulator to the raw material liquid, the raw material liquid pH regulator being a pH regulator that increases pH of the raw material liquid that have been decreased by the extraction treatment.
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公开(公告)号:US20210239403A1
公开(公告)日:2021-08-05
申请号:US17054304
申请日:2019-05-21
发明人: Koji NOISHIKI
摘要: This stacked heat exchanger is provided with: a high temperature layer that comprises a plurality of channels into which a high temperature-side fluid is introduced; and a low temperature layer that is superposed on the high temperature layer and comprises a plurality of channels into which a low temperature-side fluid is introduced, said low temperature-side fluid being at a temperature that is lower than the temperature of the high temperature-side fluid. Each one of the plurality of channels of the low temperature layer has: an upstream-side part in which at least some of the low temperature-side fluid evaporates by being heated by the high temperature-side fluid that flows within the high temperature layer; and a downstream-side part in which the low temperature-side fluid that has evaporated in the upstream-side part is heated by the high temperature-side fluid that flows within the high temperature layer. The ratio of the areas of the plurality of upstream-side parts in a predetermined area of the low temperature layer is lower than the ratio of the areas of the plurality of downstream-side parts in the predetermined area of the low temperature layer.
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公开(公告)号:US20210199392A1
公开(公告)日:2021-07-01
申请号:US17273755
申请日:2019-09-03
摘要: A heat exchanger includes a heat exchanger body having a plurality of layer portions each having a plurality of flow paths, and having a configuration in which adjacent layer portions are joined to each other, an inflow header being configured that a fluid is introduced into the inflow header to flow into the plurality of flow paths, an outflow header being configured that a fluid flowing through the plurality of flow paths merges, a cover portion covering all joint portions of the adjacent layer portions or all joint portions of components of layer portions, the joint portions exposed on an outer surface of the heat exchanger body at a portion other than a portion where the inflow header and the outflow header are disposed, and a lead-out portion connected to the cover portion and forming an internal flow path communicating with a space between the cover portion and the heat exchanger body. The lead-out portion is configured to emit a fluid to a predetermined region set in advance.
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公开(公告)号:US20170211893A1
公开(公告)日:2017-07-27
申请号:US15366968
申请日:2016-12-01
发明人: Koji NOISHIKI
摘要: A heat exchanger includes a channel structure including a first substrate in which a first channel is arrayed, and a second substrate stacked on the first substrate, in which a second channel is arrayed. The first channel has an effective area overlapping a range where the second channel is provided, when viewed in a lamination direction of the first and second substrates. The effective area includes a standard heat transfer channel part including a high temperature end, and a high heat transfer channel part including a low temperature end, which is a part of the effective area other than the standard heat transfer channel part. The high heat transfer channel part has a bent shape so that a channel length thereof per unit distance of an end-to-end distance thereof is greater than a channel length of the standard heat transfer channel part per unit distance of an end-to-end distance thereof.
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公开(公告)号:US20160178077A1
公开(公告)日:2016-06-23
申请号:US14922677
申请日:2015-10-26
发明人: Akira MATSUOKA , Koji NOISHIKI , Tomohiro OOZONO
CPC分类号: F16K99/0059 , H01L23/473 , H01L2924/0002 , H01L2924/00
摘要: Provided is a fluid flow device including a flow passage structure including in the interior a micro-channel and an escape flow passage for allowing a fluid to escape from the micro-channel. The micro-channel includes a folded-back flow passage portion that allows the fluid to flow upward before allowing the same to flow downward. The folded-back flow passage portion includes a top portion disposed at the highest position of the folded-back flow passage portion and an upward flow passage portion and a downward flow passage portion with the top portion as a boundary therebetween that allow the fluid to flow upward and downward, respectively, and the escape flow passage is connected to the top portion of the folded-back flow passage portion.
摘要翻译: 提供了一种流体流动装置,其包括在内部包括微通道的流动通道结构和用于允许流体从微通道逸出的逃逸流动通道。 微通道包括折回流动通道部分,其允许流体在允许流体向下流动之前向上流动。 折回流动通道部分包括设置在折返流动通道部分的最高位置的顶部部分和向上流动通道部分和向下流动通道部分,顶部部分作为其间的边界,允许流体流动 分别向上和向下,并且逃逸流动通道连接到折回流动通道部分的顶部。
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公开(公告)号:US20130233525A1
公开(公告)日:2013-09-12
申请号:US13758663
申请日:2013-02-04
发明人: Akira MATSUOKA , Koji NOISHIKI
IPC分类号: F28F9/26
CPC分类号: F28F9/26 , B01J19/0093 , B01J2219/00788 , B01J2219/0086 , B01J2219/00867 , B01J2219/00871 , B01J2219/00873 , F28D9/00 , F28F9/028 , F28F2260/02
摘要: A multi-flow passage device capable of surely performing a desired treatment, such as heat exchange or chemical reaction, even to large amounts of medium is provided.A multi-flow passage device 1 according to the present invention is constituted by stacking units for performing heat exchange or chemical reaction of the introduced medium in a thickness direction, and a flow passage 9 for allowing the flowing medium in one unit 7 to flow in another unit 7 adjacent to the unit 7 is an external flow passage 8 provided outside of one unit 7 and another unit 7.
摘要翻译: 提供了即使对大量的介质也能够可靠地进行期望的处理,例如热交换或化学反应的多流通道装置。 根据本发明的多流路装置1由在厚度方向上进行导入介质的热交换或化学反应的堆叠单元和使一个单元7内的流动介质流入的流路9构成 与单元7相邻的另一个单元7是设置在一个单元7外部的外部流路8和另一个单元7。
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