公开(公告)号：US07128310B2

公开(公告)日：2006-10-31

申请号：US10689691

申请日：2003-10-22

Applicant: Eldon F. Mockry ,  Jason Stratman ,  Jidong Yang

Inventor： Eldon F. Mockry ,  Jason Stratman ,  Jidong Yang

IPC: B01D53/26 ,  F28C1/14 ,  F28C1/16

CPC classification number: F28F25/00 ,  F28C1/14 ,  F28D9/0037 ,  F28F2025/005 ,  Y10S165/182 ,  Y10S165/185 ,  Y10S165/356 ,  Y10S165/357 ,  Y10S165/382 ,  Y10S165/384 ,  Y10S165/90 ,  Y10S261/03 ,  Y10S261/11 ,  Y10S261/77

Abstract: A cooling tower having a heat exchanger. The heat exchanger includes at least one heat exchanger pack having a generally diamond shape. The heat exchanger pack includes a first set of passageways for receiving a stream of warm, water laden air and a second set of passageways for receiving ambient air. The first set of passageways and second set of passageways are separate. Cooling tower configurations including the heat exchanger pack are disclosed for achieving effluent plume abatement, and capture of a portion of the effluent for replacement back into the cooling tower reservoir or as a source of purified water.

Abstract translation: 具有热交换器的冷却塔。 热交换器包括至少一个具有大致菱形形状的热交换器组件。 热交换器组包括第一组通道，用于接收温暖的含水空气流，以及用于接收环境空气的第二组通道。 第一组通道和第二组通道是分开的。 公开了包括热交换器组件的冷却塔结构，用于实现流出物羽流减少，并将一部分流出物捕获用于替换回冷却塔储存器或纯化水源。

公开(公告)号：US20040080060A1

公开(公告)日：2004-04-29

申请号：US10689691

申请日：2003-10-22

Applicant: Marley Cooling Technologies, Inc.

Inventor： Eldon F. Mockry ,  Jason Stratman ,  Jidong Yang

IPC: B01F003/04

CPC classification number: F28F25/00 ,  F28C1/14 ,  F28D9/0037 ,  F28F2025/005 ,  Y10S165/182 ,  Y10S165/185 ,  Y10S165/356 ,  Y10S165/357 ,  Y10S165/382 ,  Y10S165/384 ,  Y10S165/90 ,  Y10S261/03 ,  Y10S261/11 ,  Y10S261/77

Abstract: A cooling tower having a heat exchanger. The heat exchanger includes at least one heat exchanger pack having a generally diamond shape. The heat exchanger pack includes a first set of passageways for receiving a stream of warm, water laden air and a second set of passageways for receiving ambient air. The first set of passageways and second set of passageways are separate. Cooling tower configurations including the heat exchanger pack are disclosed for achieving effluent plume abatement, and capture of a portion of the effluent for replacement back into the cooling tower reservoir or as a source of purified water.

Abstract translation: 具有热交换器的冷却塔。 热交换器包括至少一个具有大致菱形形状的热交换器组件。 热交换器组包括第一组通道，用于接收温暖的含水空气流，以及用于接收环境空气的第二组通道。 第一组通道和第二组通道是分开的。 公开了包括热交换器组件的冷却塔结构，用于实现流出物羽流减少，并将一部分流出物捕获用于替换回冷却塔储存器或纯化水源。

公开(公告)号：US06663087B2

公开(公告)日：2003-12-16

申请号：US09973733

申请日：2001-10-11

Applicant: Bryan J. Hubbard ,  Eldon F. Mockry ,  Ohler L. Kinney, Jr.

Inventor： Bryan J. Hubbard ,  Eldon F. Mockry ,  Ohler L. Kinney, Jr.

IPC: B01D5326

CPC classification number: F28F25/00 ,  F28C1/14 ,  F28D9/0037 ,  F28F2025/005 ,  Y10S165/182 ,  Y10S165/185 ,  Y10S165/356 ,  Y10S165/373 ,  Y10S165/382 ,  Y10S165/384 ,  Y10S165/90 ,  Y10S261/03 ,  Y10S261/11 ,  Y10S261/77

Abstract: Heat exchanger packs having a first set of passageways for receiving a stream of ambient air and a second set of passageways for receiving a stream of warm water laden air is disclosed. The first set of passageways and second set of passageways being separate and permitting the warm water laden air stream to be cooled by the stream of ambient air so that water can condense out of the warm water laden air stream. Cooling tower configurations including the heat exchanger pack are disclosed for achieving effluent plume abatement, and capture of a portion of the effluent for replacement back into the cooling tower reservoir or as a source of purified water.

公开(公告)号：US06385987B2

公开(公告)日：2002-05-14

申请号：US09792780

申请日：2001-02-23

Applicant: Leslie Schlom ,  Andrew J. Becwar

Inventor： Leslie Schlom ,  Andrew J. Becwar

IPC: F28D500

CPC classification number: F02C7/1435 ,  B01J2219/0002 ,  B01J2219/32206 ,  B01J2219/3221 ,  B01J2219/32213 ,  B01J2219/3222 ,  B01J2219/32227 ,  B01J2219/32237 ,  B01J2219/32251 ,  B01J2219/32408 ,  B01J2219/32483 ,  F02C7/143 ,  F24F5/0035 ,  F24F2001/0092 ,  F28B1/06 ,  F28C1/14 ,  F28C2001/145 ,  F28D5/00 ,  F28F3/025 ,  F28F3/046 ,  F28F13/12 ,  Y02B30/545

Abstract: Novel heat exchangers and methods of constructing the heat exchangers for use in indirect evaporative cooling applications. The evaporative apparatus for cooling comprises both a multi-stage indirect evaporative cooling heat exchanger; and a multi-stage sump where each sump stage, in a one-to-one relationship. Other multistage heat exchangers with their associated multistage sumps can be combined, with the cooled air of a first multistage evaporative assembly feeding into the intake end of a second multistage evaporative assembly, and so on. These heat exchangers can be used for comfort and industrial applications cooling. The invention can be an entire assembly for the pre-cooling and cleaning of the air going to a gas turbine or any other air breathing device, with an air washer stage in which air is directly cooled by evaporation and where simultaneously the air is also cleaned of dust, dirt and other impurities.

Abstract translation: 新型热交换器和构建用于间接蒸发冷却应用的热交换器的方法。 用于冷却的蒸发装置包括多级间接蒸发冷却热交换器; 和一个多级的水槽，每个水槽阶段以一对一的关系。 可以组合具有其相关联的多级蓄电池的其他多级热交换器，其中第一多级蒸发组件的冷却空气进入第二多级蒸发组件的进气端，等等。 这些热交换器可用于舒适和工业应用的冷却。 本发明可以是用于预冷却和清洁进入燃气轮机或任何其它空气呼吸装置的空气的整个组件，其中空气清洗器阶段通过蒸发直接冷却空气，同时空气也被清洁 的灰尘，污垢等杂质。

公开(公告)号：US6105663A

公开(公告)日：2000-08-22

申请号：US708717

申请日：1996-09-05

Applicant: Masahiro Usui ,  Shigehira Yamamoto ,  Osamu Goto

Inventor： Masahiro Usui ,  Shigehira Yamamoto ,  Osamu Goto

IPC: F28C1/04 ,  F28C1/14 ,  F28F25/02 ,  F28F25/08 ,  F28C1/16

CPC classification number: F28C1/14 ,  F28F25/02 ,  F28F25/08 ,  Y10S165/163 ,  Y10S261/11 ,  Y10S261/77 ,  Y10T29/4935

Abstract: The present invention relates to a heat dissipation unit for cross flow type cooling tower with which it is possible to prevent the emission of white vapor without lowering the cooling power of the cooling tower, and also without requiring troublesome routine operation. In order to accomplish the above object, the heat dissipation unit of the present invention comprises filling plates arranged vertically and parallel with each other so as to form spaces therebetween, each of the filling plates having uneven surfaces down which water to be cooled flows when water to be cooled is supplied onto the filling plates, and cowl members disposed between neighboring filling plates, each of the cowl members including a pair of side plate portions having upper ends and a roof portion connecting the upper ends of the side plate portions. The side plate portions of the cowl members are arranged substantially parallel with the filling plates so as to form gaps between the filling plates and the side plate portions of the cowl members.

Abstract translation: 本发明涉及一种用于横流型冷却塔的散热单元，其可以防止白蒸汽的发射而不降低冷却塔的冷却功率，并且也不需要麻烦的日常操作。 为了实现上述目的，本发明的散热单元包括彼此垂直且平行布置的填充板，以便在它们之间形成空间，每个填充板具有不平坦的表面，当水被冷却时，待冷却的水流动 要被冷却的物品被供应到填充板上，并且前围组件设置在相邻的填充板之间，每个前围构件包括一对具有上端的侧板部和连接侧板部的上端的顶部部分。 整流罩构件的侧板部分布置成与填充板基本平行，以便在整流罩构件的填充板和侧板部分之间形成间隙。

公开(公告)号：US5958308A

公开(公告)日：1999-09-28

申请号：US20893

申请日：1998-02-09

Applicant: Kesaaki Mochizuki ,  Osamu Goto ,  Katsutoshi Shibata

Inventor： Kesaaki Mochizuki ,  Osamu Goto ,  Katsutoshi Shibata

IPC: F28F25/04 ,  F28C1/14 ,  B01F3/04 ,  F28F27/02

CPC classification number: F28C1/14 ,  F28F25/04 ,  F28C2001/145 ,  Y10S165/90 ,  Y10S261/77

Abstract: Hot water is sprayed to fillers arranged immediately under a hot water vessel through spray ports opened on a lower surface of the hot water vessel. The hot water flowing down along the fillers is cooled through direct contact with ambient air. The cooling tower includes fillers partitioned alternately into permanent wet and wet-dry changeover regions which are mutually isolated for flow passages of the ambient air and spray pipes provided on the lower surface of the hot water vessel exclusively for the wet-dry changeover regions such that the hot water can be sprayed to the wet-dry changeover regions separately from the permanent wet regions. The hot water vessel is supported by the spray pipes. The spray ports of the hot water vessel is communicated only with the permanent wet regions.

Abstract translation: 将热水通过在热水容器的下表面上开口的喷雾口喷射到紧邻热水容器下面的填料上。 沿着填料流下的热水通过与环境空气直接接触而冷却。 冷却塔包括交替分配成永久性湿式和湿式干式转换区域的填料，其相互隔离用于环境空气的流动通道和设置在热水容器的下表面上的专用于湿 - 干转换区域的喷管，使得 热水可以与永久湿润区域分开地喷洒到干湿转换区域。 热水容器由喷管支撑。 热水容器的喷水口仅与永久湿区连通。

公开(公告)号：US5800743A

公开(公告)日：1998-09-01

申请号：US708716

申请日：1996-09-05

Applicant: Masahiro Usui ,  Shigehira Yamamoto ,  Osamu Goto

Inventor： Masahiro Usui ,  Shigehira Yamamoto ,  Osamu Goto

IPC: F28C1/14 ,  F28C1/16 ,  F28F25/02 ,  F28F25/08 ,  B01F3/04

CPC classification number: F28F25/02 ,  F28C1/14 ,  F28C2001/145 ,  Y10S261/77

Abstract: The present invention relates to a cross flow type cooling tower with which it is possible to prevent the emission of white vapor in cold weather with certainty. In order to accomplish the above object, the cooling tower of the present invention comprises: a heat dissipation unit having filling plates arranged vertically and parallel with each other so as to form dry air passages and moist air passages therebetween, each of the dry air passages and the moist air passages having inner surfaces; water supply means for supplying water to be cooled to the inner surfaces of the moist air passages for cooling the water by contact with air passing through the moist air passage; and water invasion stoppers provided at side ends of the filling plates for preventing the water flowing down the inner surfaces of the moist air passages from invading the dry air passages.

Abstract translation: 本发明涉及一种横流型冷却塔，可以在寒冷的天气中确定地防止白色蒸汽的排放。 为了实现上述目的，本发明的冷却塔包括：具有彼此垂直且平行布置的填充板的散热单元，以在其间形成干燥空气通道和湿气通道，每个干燥空气通道 湿空气通道具有内表面; 供水装置，用于将冷却的水供应到湿空气通道的内表面，用于通过与通过湿空气通道的空气接触来冷却水; 以及设置在填充板的侧端处的防水挡板，用于防止水从湿空气通道的内表面向下流入侵入干燥空气通道。

公开(公告)号：US5664433A

公开(公告)日：1997-09-09

申请号：US570008

申请日：1995-12-14

Applicant: Richard C. Bourne ,  Joel R. Johnson

Inventor： Richard C. Bourne ,  Joel R. Johnson

IPC: F24F1/00 ,  F24F5/00 ,  F28C1/14 ,  F28D5/00 ,  F25D5/00

CPC classification number: F24F5/0035 ,  F28C1/14 ,  F28D5/00 ,  F24F2001/0092 ,  Y02B30/545 ,  Y02B30/748 ,  Y10S261/03

Abstract: An indirect/direct evaporative cooling system for cooling air for comfort purposes includes a single, variable speed blower positioned below an indirect evaporative cooling stage and a direct evaporative cooling stage. A first portion of the blower discharge is directed horizontally through the indirect evaporative cooling stage, where it is cooled without the addition of moisture thereto, and is then further cooled in the direct evaporative stage prior to being supplied to a building. A second portion of the blower discharge is directed vertically through the indirect evaporative cooling stage and serves to cool the first portion as the first portion travels through the indirect stage. The indirect and direct cooling stages share a common sump for collecting water drained therefrom. The indirect stage includes a drip edge to keep drain water out of the flow of the first portion. A stud-straddle supply duct is attached to the direct cooling stage to facilitate installation of the system in wood-framed walls.

Abstract translation: 用于舒适冷却空气的间接/直接蒸发冷却系统包括位于间接蒸发冷却阶段和直接蒸发冷却阶段之下的单个可变速度鼓风机。 鼓风机排放的第一部分水平地通过间接蒸发冷却阶段，在那里冷却而不加入水分，然后在被供应到建筑物之前在直接蒸发阶段进一步冷却。 鼓风机排放的第二部分垂直地通过间接蒸发冷却级，并且用于在第一部分行进通过间接级时冷却第一部分。 间接和直接冷却阶段共用一个共同的水槽​​，用于收集从其排出的水。 间接阶段包括滴水边缘以将排水从第一部分的流动中排出。 螺柱跨接式供气管连接到直接冷却台，以便于将系统安装在木框墙中。

公开(公告)号：US5505882A

公开(公告)日：1996-04-09

申请号：US462890

申请日：1995-06-05

Applicant: Kanji Kato

Inventor： Kanji Kato

IPC: F28F27/00 ,  F28C1/14 ,  F28C1/16 ,  F28F25/02 ,  F28F25/04 ,  B01F3/04

CPC classification number: F28F25/02 ,  F28C1/14 ,  F28C2001/145 ,  Y10S261/11 ,  Y10S261/77

Abstract: Water to be cooled is sprayed through water spray ports at a bottom of an upper water vessel into a filler unit having a plurality of heat exchange surface members extending in parallel with each other to define flow passages between them and concurrently ambient air is sucked transversely into the flow passages. Thus, the water flowing down over the heat exchange surface members is cooled by the ambient air in a cross flow manner. In such cooling of water, some of the flow passages are sectioned so as to supply the water in the upper water vessel to some of flow passages so that in a normal condition with no fear of white smoke being generated, the water is sprayed over all of the heat exchange surface members and direct cooling is effected in every flow passage by the ambient air. In a condition with a possibility of the white smoke being generated, spray of the water into some of the flow passages is interrupted so that the direct cooling by the ambient air of the water in the flow passages into which the water is sprayed is effected simultaneously with dry heating of the ambient air flowing through the flow passages into which no water is sprayed and wet air resulting from the direct cooling is mixed with dry air resulting from the dry heating. As a result, the white smoke is prevented from being generated.

公开(公告)号：US4623494A

公开(公告)日：1986-11-18

申请号：US695000

申请日：1985-01-25

Applicant: Daniel M. Gautier ,  Andre Lagoutte

Inventor： Daniel M. Gautier ,  Andre Lagoutte

IPC: F28C1/14 ,  B01F3/04

CPC classification number: F28C1/14 ,  F28C2001/145 ,  Y10S165/90 ,  Y10S261/11 ,  Y10S261/77

Abstract: A wet atmospheric cooling tower has a vertical chimney defining an air path from air inlet openings at the lower end thereof for admitting atmospheric air to an exhaust opening at the upper end thereof, a stationary packing extending circumferentially without any gap across the air path, and a distributor for spraying water to be cooled onto the packing from above. Water is cooled down by air while it flows down across the packing. For dry air-water heat exchange air ducts extend through the packing and open into the air path in a zone which is downstream of the packing. The heat exchanger includes a two dimensional network of passages arranged to receive atmospheric air only and distributed according to a two dimensional network.

Abstract translation: 湿式大气冷却塔具有垂直的烟囱，其限定从其下端的空气入口开口的空气通道，用于将大气引导到其上端的排气口;固定密封件，其周向延伸而没有空气通道的任何间隙;以及 用于从上方喷洒冷却到包装上的水的分配器。 水被空气冷却下来，并穿过包装。 对于干燥的空气 - 水热交换空气管道延伸穿过填料并在包装下游的区域内通入空气路径。 热交换器包括二维网络，其布置成仅接收大气并根据二维网络分布。