公开(公告)号：US08985192B2

公开(公告)日：2015-03-24

申请号：US12748860

申请日：2010-03-29

申请人： Kenichiro Mitsuhashi ,  Susumu Terada ,  Koji Noishiki

发明人： Kenichiro Mitsuhashi ,  Susumu Terada ,  Koji Noishiki

IPC分类号： B60H1/00 ,  F28F11/00 ,  F28D7/02 ,  F28F3/00 ,  F28D9/00 ,  F28F3/02 ,  F28F27/00

CPC分类号： F28D9/0062 ,  F28D9/0093 ,  F28F3/025 ,  F28F27/00

摘要： A plate fin heat exchanger of the present invention includes a heat exchange part including a heat exchange part main body including layers of plural flow passages, and heat transfer members each of which is disposed within each flow passage of the heat exchange part main body to transfer the heat of fluid flowing in each of the flow passages to each partition walls opposed across the flow passage; and sensing parts connected to both the outsides of the heat exchange part respectively. Each of the sensing parts includes plural sealed spaces, and a sensor wall disposed to separate the outermost sealed space from the sealed space on the inner side thereof. The plate fin heat exchanger further includes a detection means for detecting damage of the sensor wall of the sensing part. According to such a structure, external leak of the fluid performing the heat exchange can be prevented while suppressing deterioration of performance or increase in size or weight.

摘要翻译： 本发明的板翅式热交换器包括：热交换部，其包括具有多个流路的层的热交换部主体，以及配置在热交换部主体的各流路内的传热部， 在每个流动通道中流动的流体的热量跨过流动通道相对的每个分隔壁; 以及分别连接到热交换部件的外部的传感部件。 每个感测部分包括多个密封空间，以及设置成将最外侧密封空间与其内侧上的密封空间分离的传感器壁。 板翅式热交换器还包括用于检测感测部件的传感器壁的损坏的检测装置。 根据这样的结构，可以防止执行热交换的流体的外部泄漏，同时抑制性能的劣化或尺寸或重量的增加。

公开(公告)号：US08668985B2

公开(公告)日：2014-03-11

申请号：US12174892

申请日：2008-07-17

申请人： Takeshi Ohwaki ,  Wataru Urushihara ,  Junichiro Kinugasa ,  Koji Noishiki

发明人： Takeshi Ohwaki ,  Wataru Urushihara ,  Junichiro Kinugasa ,  Koji Noishiki

IPC分类号： F28F3/00 ,  F28F19/02 ,  B32B17/00 ,  B32B27/00

CPC分类号： F28F21/08 ,  B05D5/083 ,  B05D7/51 ,  B05D2202/25 ,  C09D5/08 ,  C22C21/00 ,  C22F1/04 ,  F28D1/022 ,  F28D1/03 ,  F28F19/04 ,  Y10T428/263 ,  Y10T428/3154

摘要： An aluminum alloy material having an excellent sea water corrosion resistance comprises an aluminum alloy substrate whose ten-points average surface roughness Rz, which is the average of five greatest peak-to-valley separations on the surface, is controlled at 0.3 μm or over, an organic phosphonic primer film formed on a surface of the aluminum alloy substrate, and a fluorine resin paint film formed on the primer film and having a dry average thickness of 1 to 100 μm. A plate heat exchanger having an excellent sea water corrosion resistance is also provided wherein the aluminum alloy material is used as a heat transfer unit using sea water as cooling water.

摘要翻译： 具有优异的耐海水腐蚀性的铝合金材料包括：将表面上五个最大峰 - 谷分离的平均值的十点平均表面粗糙度Rz控制在0.3μm以上的铝合金基板， 形成在铝合金基板的表面上的有机膦酸底涂膜和形成在底漆膜上的干燥平均厚度为1〜100μm的氟树脂漆膜。 还提供了具有优异的耐海水腐蚀性的板式热交换器，其中铝合金材料用作使用海水作为冷却水的传热单元。

公开(公告)号：US08225851B2

公开(公告)日：2012-07-24

申请号：US12469225

申请日：2009-05-20

申请人： Takeshi Ohwaki ,  Wataru Urushihara ,  Junichiro Kinugasa ,  Koji Noishiki

发明人： Takeshi Ohwaki ,  Wataru Urushihara ,  Junichiro Kinugasa ,  Koji Noishiki

IPC分类号： F28F19/02 ,  F28F19/00

CPC分类号： C09D127/12 ,  B05D5/086 ,  B05D2202/25 ,  C08K5/29 ,  C23C28/00 ,  F28F19/04 ,  F28F21/084

摘要： Disclosed are an aluminum alloy material and a plate heat exchanger using the aluminum alloy material, both of which have superior corrosion resistance. Specifically, the aluminum alloy material includes an aluminum alloy base material having an anodic oxide layer with an average thickness of 1 to 20 μm as its surface layer, an organic phosphonic acid primer coating arranged on the surface of the aluminum alloy base material, and a fluorocarbon resin coating arranged on the surface of the organic phosphonic acid primer coating and having an average thickness of 1 to 100 μm after drying.

摘要翻译： 公开了使用铝合金材料的铝合金材料和板式热交换器，两者都具有优异的耐腐蚀性。 具体地，铝合金材料包括具有作为其表面层的平均厚度为1至20μm的阳极氧化物层的铝合金基材，设置在铝合金基材的表面上的有机膦酸底漆，以及 氟碳树脂涂层，其设置在有机膦酸底涂层的表面上，干燥后的平均厚度为1〜100μm。

公开(公告)号：US20100178213A1

公开(公告)日：2010-07-15

申请号：US12482903

申请日：2009-06-11

申请人： Hiroyuki Ban ,  Koji Noishiki ,  Kazuto Okada ,  Seiichi Yamamoto

发明人： Hiroyuki Ban ,  Koji Noishiki ,  Kazuto Okada ,  Seiichi Yamamoto

IPC分类号： B01J14/00

CPC分类号： B01J4/001 ,  B01F5/0471 ,  B01F13/0059 ,  B01J19/249 ,  B01J2219/2453 ,  B01J2219/2458 ,  B01J2219/247 ,  B01J2219/2485 ,  B01J2219/2486 ,  B01J2219/2487 ,  B01J2219/2488 ,  B01J2219/249

摘要： It is aimed to improve reaction efficiency by increasing a contact area of first and second reactants per unit volume without reducing dimensions of an inlet path for the first reactant and an inlet path for the second reactant in a layer-thickness direction.In a reactor, a channel includes a first inlet path having the first reactant introduced thereinto, a second inlet path arranged while being separated from the first inlet path and having the second reactant introduced thereinto, a junction channel for causing the first reactant flowing via the first inlet path and the second reactant flowing via the second inlet path to join in the form of the laminar flows separated from each other, and a reaction channel connected with a downstream side of the junction channel for permitting the laminar flow of the first reactant and that of the second reactant held in contact with each other and reacting the two reactants at a contact interface thereof. A dimension of the reaction channel in the layer-thickness direction perpendicular to the contact interface is set to be smaller than the sum of a dimension of the first inlet path in the layer-thickness direction and a dimension of the second inlet path in the layer-thickness direction.

摘要翻译： 旨在通过增加每单位体积的第一和第二反应物的接触面积而不减少第一反应物的入口路径的尺寸和层厚度方向上的第二反应物的入口路径来提高反应效率。 在反应器中，通道包括具有引入其中的第一反应物的第一入口路径，第二入口通道，其与第一入口路径分离并且具有引入第二入口路径的第二入口通道，用于使第一反应物经由 第一入口路径和第二反应物经由第二入口路径流动以彼此分离的层流的形式连接;以及反应通道，其与接合通道的下游侧连接，以允许第一反应物的层流，以及 第二反应物彼此接触并在其接触界面处使两种反应物反应。 垂直于接触界面的层厚度方向上的反应通道的尺寸被设定为小于层厚度方向上的第一入口路径的尺寸和层中的第二入口路径的尺寸之和 厚度方向。

公开(公告)号：US09689620B2

公开(公告)日：2017-06-27

申请号：US13382989

申请日：2010-07-09

申请人： Sayaka Yamada ,  Yasuo Higashi ,  Makoto Nishimura ,  Tatsuo Yoshida ,  Koji Noishiki

发明人： Sayaka Yamada ,  Yasuo Higashi ,  Makoto Nishimura ,  Tatsuo Yoshida ,  Koji Noishiki

IPC分类号： F28F3/00 ,  F28D7/02 ,  F28F3/14 ,  F28D9/00 ,  F28F3/04 ,  F28F13/08 ,  F28F13/12 ,  F28F13/02

CPC分类号： F28D9/0037 ,  F28D9/0006 ,  F28F3/048 ,  F28F13/02 ,  F28F13/08 ,  F28F13/12

摘要： Disclosed is a heat exchanger that can more efficiently transfer heat between a heat-exchange fluid and an object with which heat is to be exchanged. A heat exchanger (1) can transfer heat between a heat-exchange fluid flowing through flow paths (R1) and a fluid with which heat is to be exchanged flowing through other flow paths (R2) by means of the flow path structure member (10) (a first metal sheet (11) and a second metal sheet (12)) in which the flow paths (R1 and R2) are formed. The flow paths (R1 and R2) are formed so that the side surfaces thereof are not straight and so that the depths thereof change along the flow direction.

公开(公告)号：US20130153071A1

公开(公告)日：2013-06-20

申请号：US13818884

申请日：2011-09-13

申请人： Koji Noishiki ,  Makoto Nishimura ,  Takeshi Yamashita ,  Tatsuo Yoshida

发明人： Koji Noishiki ,  Makoto Nishimura ,  Takeshi Yamashita ,  Tatsuo Yoshida

IPC分类号： B01F5/00

CPC分类号： B01F5/00 ,  B01J19/00 ,  B01J19/0093 ,  B01J2219/00783 ,  B01J2219/0086 ,  B01J2219/00873 ,  B01J2219/00889 ,  B01L3/502746 ,  B01L2300/0816 ,  B01L2300/0867 ,  B01L2300/0874 ,  B01L2300/0887 ,  B81B1/00 ,  Y10T137/87652

摘要： A flow passage structure having a plurality of flow passageways therein includes a first junction portion for joining a first fluid introduced into a first inlet path and a second fluid introduced into a second inlet path, a first joined fluid flow passage through which a fluid made by joining both the fluids flows, a branch portion for dividing the fluid flowing in the first joined fluid flow passage into two fluids, a first branch path through which one of the two divided fluids flows, and a second branch path through which the other flows, wherein a corresponding diameter of the first branch path and a corresponding diameter of the second branch path in each of the passageways are smaller than a corresponding diameter of the first joined fluid flow passage in the passageway.

摘要翻译： 具有多个流路的流路结构包括：第一接合部，其将引入第一入口路径的第一流体和导入第二入口路径的第二流体接合;第一接合流体流路，由 连接两个流体流，用于将在第一接合流体流动通道中流动的流体分成两个流体的分支部分，两个分开的流体中的一个流过的第一分支路径和另一个流体流过的第二分支路径， 其中所述第一分支路径的对应直径和每个所述通道中的所述第二分支路径的对应直径小于所述通道中所述第一接合流体流动通道的对应直径。

公开(公告)号：US20080283228A1

公开(公告)日：2008-11-20

申请号：US11852721

申请日：2007-09-10

申请人： Takeshi Ohwaki ,  Nobuhiro Kobayashi ,  Koji Noishiki

发明人： Takeshi Ohwaki ,  Nobuhiro Kobayashi ,  Koji Noishiki

IPC分类号： F28D1/00 ,  B32B33/00

CPC分类号： C23C28/00 ,  C09D5/086 ,  C23F11/1676 ,  F28F19/04 ,  F28F21/084 ,  Y10T428/263

摘要： An aluminum alloy for use in a plate-fin heat exchanger having a heat transfer portion with seawater as a coolant includes an organic phosphonic acid underlying coating disposed on the surface of the aluminum alloy and a fluorocarbon resin coating disposed on the organic phosphonic acid underlying coating, the fluorocarbon resin coating having an average thickness of 1 to 100 μm after drying. The aluminum alloy has improved durability of coating adhesion and excellent seawater corrosion resistance.

摘要翻译： 用于具有海水作为冷却剂的传热部分的板翅式热交换器的铝合金包括设置在铝合金表面上的有机膦酸底涂层和设置在有机膦酸底层涂层上的氟碳树脂涂层 ，干燥后平均厚度为1〜100μm的氟碳树脂涂料。 铝合金具有改善的涂层附着力和耐海水腐蚀性能的耐久性。

公开(公告)号：US06492040B2

公开(公告)日：2002-12-10

申请号：US09891308

申请日：2001-06-27

申请人： Koji Noishiki ,  Kenichirou Mitsuhashi ,  Shuhei Natani ,  Masahiro Gotou

发明人： Koji Noishiki ,  Kenichirou Mitsuhashi ,  Shuhei Natani ,  Masahiro Gotou

IPC分类号： B32B1520

CPC分类号： F28F21/084 ,  B23K35/286 ,  F28F9/0219 ,  Y10S165/905 ,  Y10S428/926 ,  Y10T428/12271 ,  Y10T428/12347 ,  Y10T428/1241 ,  Y10T428/12583 ,  Y10T428/1259 ,  Y10T428/12611 ,  Y10T428/12764

摘要： To make stress corrosion cracking caused by precipitation of a &bgr; layer (Mg2Al3) in a welding part (5) or in the periphery of the welding part (5) hard to occur. An apparatus body (1) and a header (3) formed of an aluminum alloy with precipitation of magnesium suppressed by standardized heat treatment are assembled and welded, and natural gas containing mercury is subjected to heat exchanging. There are provided with backing metal (4) disposed on the back of the inner wall surface of one header (3) prior to standardized heat treatment and placed in contact with the other apparatus body (1) at the time of assembling and welding, a welding part (5) formed by being assembled and welded using first welding metal containing magnesium at percent content not less than 2.0% in a space part formed by the backing metal (4), the apparatus body (1) and the header (3), and a seal part (6) formed by seal-welding, so that first welding metal may not contact with fluid from a contact part between the backing metal (4) and the apparatus body (1), the contact part using second welding metal containing magnesium at percent content not more than 2.0%.

摘要翻译： 在焊接部（5）或焊接部（5）的周围难以发生由β层（Mg2Al3）析出引起的应力腐蚀开裂。 组装焊接由铝合金形成的装置主体（1）和由标准化热处理抑制的镁析出的集管（3），对含有汞的天然气进行热交换。 在标准化热处理之前设置有设置在一个集管（3）的内壁表面的后部的背衬金属（4），并且在组装和焊接时与另一个设备主体（1）接触， 焊接部件（5）通过在由背衬金属（4），装置本体（1）和集管（3）形成的空间部分中使用含有不少于2.0％的含镁量的第一焊接金属进行组装和焊接而形成， 以及通过密封焊接形成的密封部分（6），使得第一焊接金属可能不与来自背衬金属（4）和装置主体（1）之间的接触部分的流体接触，所述接触部分使用第二焊接金属 含镁含量不超过2.0％。

公开(公告)号：US09776145B2

公开(公告)日：2017-10-03

申请号：US14125417

申请日：2012-06-07

申请人： Daisuke Nishikawa ,  Takeshi Yamashita ,  Makoto Nishimura ,  Koji Noishiki

发明人： Daisuke Nishikawa ,  Takeshi Yamashita ,  Makoto Nishimura ,  Koji Noishiki

IPC分类号： B01F3/08 ,  B01F13/00 ,  B01J19/00 ,  B81B1/00 ,  B01F5/06

CPC分类号： B01F3/0876 ,  B01F5/0647 ,  B01F13/0071 ,  B01J19/0093 ,  B01J2219/00783 ,  B01J2219/00889 ,  B01J2219/00898 ,  B01J2219/00903 ,  B81B1/00

摘要： Provided is a method of mixing first and second liquids having mutual solubility inside a mixing flow channel formed by a micro flow channel. This method includes: causing the first and second liquids to be joined to each other inside the mixing flow channel; and forming a slug flow, in which mixing subject cells (60) formed by the joined liquid and insoluble fluid cells (63) formed by an insoluble fluid are alternately arranged, inside a flow channel at the downstream side of an insoluble fluid supply position in a manner such that the insoluble fluid having insolubility with respect to both mixing subject liquids is supplied to the joined liquid flowing through the flow channel in a direction intersecting the flow channel so that the joined liquid is divided with a gap therebetween, thereby mixing the first mixing subject liquid and the second mixing subject liquid contained in each mixing subject cell inside the downstream flow channel.

公开(公告)号：US09713802B2

公开(公告)日：2017-07-25

申请号：US12473906

申请日：2009-05-28

申请人： Hiroyuki Ban ,  Koji Noishiki ,  Kazuto Okada ,  Seiichi Yamamoto

发明人： Hiroyuki Ban ,  Koji Noishiki ,  Kazuto Okada ,  Seiichi Yamamoto

IPC分类号： B01J19/26 ,  B01F3/08 ,  B01J19/00

CPC分类号： B01J19/0093 ,  B01J2219/00783 ,  B01J2219/00837 ,  B01J2219/00873 ,  B01J2219/00889 ,  B01J2219/00891 ,  B01J2219/00984

摘要： The present invention provides microsphere manufacturing method and apparatus capable of stable obtaining microspheres of a desired size and reducing facility cost. According to the method and the apparatus, to manufacture microspheres made of a second liquid in a first liquid, the first liquid is supplied into a first channel to flow therein and the second liquid is supplied to an intermediate part of the first channel through a second channel. The supply velocities of the first and second liquids are set such that the second liquid closes the first channel and the closing part of the second liquid is cut off due to a pressure difference between an upstream side and a downstream side to form microspheres.