公开(公告)号：US20180209743A1

公开(公告)日：2018-07-26

申请号：US15934763

申请日：2018-03-23

Applicant: BayoTech, Inc.

Inventor： Milton Edward Vernon

IPC: F28D7/10 ,  H01M8/0612 ,  C05C9/00 ,  C07C273/04 ,  C01C1/04 ,  C01B3/48 ,  B01J19/00 ,  B01J15/00 ,  B01J7/00 ,  C01B3/38

CPC classification number: F28D7/103 ,  B01J8/008 ,  B01J8/0257 ,  B01J8/0278 ,  B01J8/0285 ,  B01J8/0465 ,  B01J12/007 ,  B01J2208/00212 ,  B01J2208/00309 ,  B01J2208/0053 ,  B01J2208/025 ,  B01J2219/00495 ,  B01J2219/0072 ,  B01J2219/00745 ,  C01B3/384 ,  C01B3/48 ,  C01B2203/0233 ,  C01B2203/0283 ,  C01B2203/068 ,  C01B2203/0811 ,  C01B2203/1241 ,  C01B2203/82 ,  C01C1/0417 ,  C01C1/0482 ,  C05C9/00 ,  C07C273/04 ,  F28D7/12 ,  F28D2021/0022 ,  F28F1/122 ,  H01M8/0618 ,  H01M2250/10 ,  Y02B90/14 ,  Y02P20/124 ,  Y02P20/142 ,  Y02P20/52

Abstract: Disclosed is a technology based upon the nesting of tubes to provide chemical reactors or chemical reactors with built in heat exchanger. As a chemical reactor, the technology provides the ability to manage the temperature within a process flow for improved performance, control the location of reactions for corrosion control, or implement multiple process steps within the same piece of equipment. As a chemical reactor with built in heat exchanger, the technology can provide large surface areas per unit volume and large heat transfer coefficients. The technology can recover the thermal energy from the product flow to heat the reactant flow to the reactant temperature, significantly reducing the energy needs for accomplishment of a process.

公开(公告)号：US20180100702A1

公开(公告)日：2018-04-12

申请号：US15290014

申请日：2016-10-11

Applicant: Hamilton Sundstrand Corporation

Inventor： Leo J. Veilleux, JR. ,  Lubomir A. Ribarov

IPC: F28D7/00 ,  F28F13/06 ,  F28F9/013

CPC classification number: F28D7/0066 ,  F28F1/122 ,  F28F3/048 ,  F28F9/013 ,  F28F9/22 ,  F28F13/003 ,  F28F13/06 ,  F28F2260/00 ,  F28F2260/02

Abstract: A tubular heat exchanger includes a first flow path to receive a first fluid flow, wherein the first flow path is defined by a conduit, and a support structure with a plurality of support structure openings, wherein the support structure supports the first flow path, the plurality of support structure openings define a second flow path to receive a second fluid flow, and the first flow path is in thermal communication with the second flow path.

公开(公告)号：US20150007965A1

公开(公告)日：2015-01-08

申请号：US13935800

申请日：2013-07-05

Applicant: Toyota Motor Engineerig & Manufacturing North America, Inc.

Inventor： Shailesh N. Joshi

IPC: F28F13/18 ,  F28D15/00 ,  F28F21/08

CPC classification number: F28F13/185 ,  F28F1/122 ,  F28F13/003 ,  F28F21/089 ,  H01L21/4882 ,  H01L23/3733 ,  H01L23/4735 ,  H01L2924/0002 ,  H01L2924/00

Abstract: Cooling assemblies including a porous three dimensional surface such as a heat sink are disclosed. In one embodiment, a cooling assembly includes a heat transfer substrate having a surface, a thermally conductive fin extending from the surface, a metal mesh bonded to a surface of the thermally conductive fin, and sintered metal particles bonded to the metal mesh and the surface of the thermally conductive fin. The metal mesh defines a macro-level porosity, and the sintered metal particles define a micro-level porosity. In another embodiment, a cooling assembly includes a heat transfer substrate having a surface, a thermally conductive fin extending from the surface of the heat transfer substrate, and sintered metal particles bonded to the surface of the thermally conductive fin. An average diameter of the sintered metal particles increases from a base of the thermally conductive fin to a top of the thermally conductive fin.

Abstract translation: 公开了包括诸如散热器的多孔三维表面的冷却组件。 在一个实施例中，冷却组件包括具有表面的传热基板，从表面延伸的导热翅片，结合到导热翅片表面的金属网，以及结合到金属网和表面的烧结金属颗粒 的导热翅片。 金属网限定了宏观水平的孔隙度，并且烧结金属颗粒限定了微量级孔隙度。 在另一个实施例中，冷却组件包括具有表面的热传递基板，从传热基板的表面延伸的导热翅片和结合到导热翅片表面的烧结金属颗粒。 烧结金属颗粒的平均直径从导热翅片的底部增加到导热翅片的顶部。

公开(公告)号：US20120199334A1

公开(公告)日：2012-08-09

申请号：US13365456

申请日：2012-02-03

Applicant: Scott M. MAURER ,  Nicholas J. NAGURNY ,  Michael R. ELLER ,  James W. KLETT

Inventor： Scott M. MAURER ,  Nicholas J. NAGURNY ,  Michael R. ELLER ,  James W. KLETT

IPC: F28F7/00

CPC classification number: F28F1/122 ,  F28F13/003 ,  F28F21/02 ,  F28F2275/025

Abstract: Heat exchangers are described that employ fins made of a heat conducting foam material to enhance heat transfer. The foam fins can be used in any type of heat exchanger including, but not limited to, a plate-fin heat exchanger, a plate-frame heat exchanger or a shell-and-tube heat exchanger. The heat exchangers employing foam fins described herein are highly efficient, inexpensive to build, and corrosion resistant. The described heat exchangers can be used in a variety of applications, including but not limited to, low thermal driving force applications, power generation applications, and non-power generation applications such as refrigeration and cryogenics. The fins can be made from any thermally conductive foam material including, but not limited to, graphite foam or metal foam.

Abstract translation: 描述了使用由导热泡沫材料制成的翅片来加强热传递的热交换器。 泡沫翅片可以用于任何类型的热交换器，包括但不限于板翅式热交换器，板式热交换器或管壳式热交换器。 使用本文所述的泡沫翅片的热交换器是高效的，低成本的和耐腐蚀的。 所描述的热交换器可以用于各种应用，包括但不限于低热驱动力应用，发电应用以及非发电应用，例如制冷和低温。 翅片可以由任何导热泡沫材料制成，包括但不限于石墨泡沫或金属泡沫。

公开(公告)号：US07694722B2

公开(公告)日：2010-04-13

申请号：US11606819

申请日：2006-12-01

Applicant: John M. Popovich

Inventor： John M. Popovich

IPC: F28F7/02

CPC classification number: F28F1/405 ,  F28F1/122 ,  F28F3/022 ,  H01L23/473 ,  H01L2224/29499 ,  H01L2924/01079 ,  H01L2924/01322 ,  H01L2924/10253 ,  H01L2924/12041 ,  H04B10/00 ,  H05K7/20245 ,  H01L2924/00

Abstract: Apparatus for cooling of an electrical element package, comprising in combination structure including a hollow body, defining a cavity containing cooling fluid, the structure defining an opening or passage whereby direct contact of the cooling fluid with the package is established for heat transfer from the package to the fluid contained in the cavity; a mesh located to enhance the heat transfer, and means for circulating the fluid to transfer heat to other heat transfer means acting to remove heat from the fluid.

Abstract translation: 用于冷却电气元件封装的装置，包括组合结构，包括中空体，限定含有冷却流体的空腔，所述结构限定开口或通道，从而建立冷却流体与包装的直接接触，以便从包装 涉及包含在空腔中的流体; 用于增强热传递的网眼，以及用于使流体循环以将热量传递到用于从流体移除热量的其它传热装置的装置。

公开(公告)号：US07599626B2

公开(公告)日：2009-10-06

申请号：US11314400

申请日：2005-12-20

Applicant: John M. Popovich

Inventor： John M. Popovich

IPC: H04B10/00

CPC classification number: F28F1/405 ,  F28F1/122 ,  F28F3/022 ,  H01L23/473 ,  H01L2224/29499 ,  H01L2924/01079 ,  H01L2924/01322 ,  H01L2924/10253 ,  H01L2924/12041 ,  H04B10/00 ,  H05K7/20245 ,  H01L2924/00

Abstract: The method of communicating with circuitry that includes providing a woven mesh having elongated conductive elements extending in array forming directions relative to the circuitry, establishing communication sites associated with the mesh elements, located in spaced apart relation, and operating the sites via the mesh to communicate optically with the circuitry, having detection capability.

Abstract translation: 与电路通信的方法包括提供具有相对于电路在阵列形成方向上延伸的细长导电元件的编织网，建立与网格元件相关联的与间隔开关系的通信位置，以及经由网格操作该位点以进行通信 与电路光学地具有检测能力。

公开(公告)号：US20080142197A1

公开(公告)日：2008-06-19

申请号：US11887490

申请日：2006-03-04

Applicant: Eleonoor Van Andel ,  Europeo Eleonoor Van Andel

Inventor： Eleonoor Van Andel ,  Europeo Eleonoor Van Andel

IPC: F28D15/04 ,  A01G9/24

CPC classification number: F28F1/122 ,  A01G9/246 ,  F28B1/06 ,  F28D7/0041 ,  F28F9/26 ,  Y02A40/268

Abstract: A heat exchanger for exchanging heat between a liquid-containing medium and a gas comprises a medium inlet and a medium outlet and a flat heat exchanger mat, wherein the mat comprises a number of parallel, equidistant capillaries of heat-conducting material and wires of heat-conducting material which are attached in heat-conducting contact to the capillaries, extend in transverse direction relative thereto and have a mutual distance in the order of magnitude of the diameter of the wires, wherein gas can flow along the wires for heat exchange between this gas and the medium flowing through the capillaries, and wherein the gas flows along the mat and at least a substantial part of the gas is prevented from flowing through the mat, and the gas flows in longitudinal direction of the wires.

Abstract translation: 用于在含液介质和气体之间进行热交换的热交换器包括介质入口和介质出口和平坦的热交换器垫，其中所述垫包括多个平行等距的导热材料毛细管和热导线 连接到毛细管的导热接触的导电材料在相对于其的横向方向上延伸，并且具有线的直径的数量级的相互距离，其中气体可以沿着导线流动，以在这个 气体和流过毛细管的介质，并且其中气体沿着垫流动，并且防止气体的至少大部分流过垫子，并且气体沿着导线的纵向方向流动。

公开(公告)号：US20060140630A1

公开(公告)日：2006-06-29

申请号：US11314400

申请日：2005-12-20

Applicant: John Popovich

Inventor： John Popovich

IPC: H04B10/20

CPC classification number: F28F1/405 ,  F28F1/122 ,  F28F3/022 ,  H01L23/473 ,  H01L2224/29499 ,  H01L2924/01079 ,  H01L2924/01322 ,  H01L2924/10253 ,  H01L2924/12041 ,  H04B10/00 ,  H05K7/20245 ,  H01L2924/00

Abstract: The method of communicating with circuitry that includes providing a woven mesh having elongated conductive elements extending in array forming directions relative to the circuitry, establishing communication sites associated with the mesh elements, located in spaced apart relation, and operating the sites via the mesh to communicate optically with the circuitry, having detection capability.

公开(公告)号：US20030006027A1

公开(公告)日：2003-01-09

申请号：US09899723

申请日：2001-07-05

Inventor： James H. Jenkins JR.

IPC: F28D001/00 ,  F28F001/32

CPC classification number: C04B41/009 ,  C04B41/5024 ,  C04B2111/00801 ,  F25B39/04 ,  F25B2500/01 ,  F25D23/003 ,  F28D1/0477 ,  F28F1/122 ,  Y10T29/53122 ,  C04B41/0072 ,  C04B41/4521 ,  C04B41/4535 ,  C04B41/4556 ,  C04B35/10 ,  C04B35/185 ,  C04B35/195 ,  C04B38/0006

Abstract: A condenser coil assembly is described and methods for forming such a device. The condenser assembly maximizes heat transfer surface area within a reduced volumetric area without significantly increasing the static pressure on the condenser fan system. The coil assembly is made up of a coil element through which refrigerant is transmitted and a plurality of wires that are affixed to the coil element to assist in dissipating heat from the coil element. The coil element is formed into a compact three-layer arrangement by first bending the coil element into a flat, zig-zag configuration. Secondly, the zig-zag shape is folded in a transverse direction to create three folds or flaps that are essentially equal in length. It is preferred that rounded bars be used to assist in creating the folds.

公开(公告)号：US20020059964A1

公开(公告)日：2002-05-23

申请号：US10038693

申请日：2002-01-02

Applicant: SANOH KOGYO KABUSHIKI KAISHA

Inventor： Norio Kobayashi

IPC: B21F033/00

CPC classification number: F28F1/122 ,  B21F33/002 ,  F28D1/0477 ,  Y10T29/4935

Abstract: A wire condenser element bending method and a wire condenser element bending apparatus bend two wire condenser elements by pressing the wire condenser elements against a bending roller to form two scroll wire condensers simultaneously. Inner edge parts of the wire condenser elements are held by holding devices at diametrically opposite positions on the outer circumference of the bending roller. Pressure rollers press the two wire condenser elements against the bending roller while the bending roller is rotated to form two scroll wire condensers simultaneously. Each wire condenser element serves as a separator for separating layers of the other wire condenser element.

Abstract translation: 电线电容器弯曲方法和电线电容器弯曲装置通过将电线电容器元件压靠在弯辊上来弯曲两线电容器元件，以同时形成两个涡旋线电容器。 电线电容器元件的内缘部分通过保持装置保持在弯曲辊的外圆周上的径向相对位置处。 压辊将双线电容器元件压靠在弯曲辊上，同时弯曲辊同时旋转形成两个涡旋丝冷凝器。 每个电线电容器元件用作用于分离另一电线电容器元件的层的隔板。