公开(公告)号：US12123617B2

公开(公告)日：2024-10-22

申请号：US18231069

申请日：2023-08-07

Applicant: FFI IONIX IP, INC.

Inventor： Bamdad Bahar ,  William Parmelee ,  Omar Abdelaziz ,  Qu Ming

IPC: F24F3/14 ,  B01D1/14 ,  B01D5/00 ,  B01D53/26 ,  C07D233/58 ,  C08L27/12 ,  F25B17/02 ,  F24F3/00

CPC classification number: F24F3/1417 ,  B01D1/14 ,  B01D5/0003 ,  B01D5/0027 ,  B01D5/0039 ,  B01D5/0087 ,  B01D5/009 ,  B01D53/263 ,  B01D53/268 ,  C07D233/58 ,  C08L27/12 ,  F25B17/02 ,  B01D2252/30 ,  F24F3/001 ,  F24F2003/1458

Abstract: A cooling system utilizes an organic ionic salt composition for dehumidification of an airflow. The organic ionic salt composition absorbs moisture from an inlet airflow to produce an outlet airflow with a reduce moisture from that of the inlet airflow. The organic ionic salt composition may be regenerated, wherein the absorbed moisture is expelled by heating with a heating device. The heating device may be an electrochemical heating device, such as a fuel cell, an electrochemical metal hydride heating device, an electrochemical heat pump or compressor, or a condenser of a refrigerant cycle, which may utilize an electrochemical pump or compressor. The efficiency of the cooling system may be increased by utilization of the waste heat the cooling system. The organic ionic salt composition may circulate back and forth or in a loop between a conditioner, where it absorbs moisture, to a regenerator, where moisture is desorbed by heating.

公开(公告)号：US09759457B1

公开(公告)日：2017-09-12

申请号：US13653355

申请日：2012-10-16

Applicant: Amazon Technologies, Inc.

Inventor： Alan Donald Gillooly

IPC: F25D17/02 ,  F25B17/02

CPC classification number: F25B17/02 ,  F25B25/005 ,  F25B49/02 ,  F25B2600/13 ,  F25B2700/21171 ,  Y02B30/745

Abstract: Methods for and systems of controlling operation of one or more chillers in a primary-secondary chiller plant system. The chillers utilize a set point temperature that is based upon measuring a temperature of water at a supply side of the load on the secondary loop.

公开(公告)号：US20160245554A1

公开(公告)日：2016-08-25

申请号：US15028297

申请日：2014-09-23

Applicant: Matthias BLUG ,  Jens BUSSE ,  Sebastian WILLMES ,  Martin BOUCHÉ ,  Marc LINDER ,  Margarethe MOLENDA ,  Evonik Degussa GmbH

Inventor： Matthias BLUG ,  Jens BUSS ,  Sebastian WILLMES ,  Martin BOUCHE ,  Marc LINDER ,  Margarethe MOLENDA

IPC: F25B15/00

CPC classification number: F25B15/00 ,  F25B15/06 ,  F25B17/02 ,  Y02A30/277 ,  Y02B30/62

Abstract: A cooling device for cooling a medium; by which a large amount of heat can be dissipated in an efficient manner. The cooling device includes: an evaporation device evaporating water; a vacuum device generating a negative pressure in an evaporation chamber of the evaporation device; a charging device including a charging chamber which is fluidically connected to the evaporation chamber of the evaporation device and which is at least partially filled with an absorption medium for absorbing the evaporated water; and a discharging device by which the water absorbed by the absorption medium can be removed from the absorption medium and released to surroundings of the cooling device.

Abstract translation: 用于冷却介质的冷却装置; 能够以高效的方式散发大量的热量。 冷却装置包括：蒸发装置蒸发水; 在蒸发装置的蒸发室中产生负压的真空装置; 充电装置，其包括充电室，其流体连接到所述蒸发装置的蒸发室，并且至少部分地填充有用于吸收蒸发水的吸收介质; 以及排出装置，通过该装置，吸收介质吸收的水可以从吸收介质中去除并释放到冷却装置的周围。

公开(公告)号：US20160231034A1

公开(公告)日：2016-08-11

申请号：US14358315

申请日：2013-10-09

Applicant: GENERAL ELECTRIC COMPANY

Inventor： John Joseph Roetker

IPC: F25B30/04 ,  F25B17/08 ,  F24H4/04 ,  F24J1/00 ,  F24H7/02

CPC classification number: F25B30/04 ,  F24H4/04 ,  F24H7/0266 ,  F24V30/00 ,  F25B17/02 ,  F25B17/08 ,  F25B35/02 ,  F25B49/046 ,  F25B2500/01 ,  Y02A30/276 ,  Y02A30/278 ,  Y02B30/64

Abstract: A water heater is provided having a sorption based reactor that is integrated into a water tank. The water heater is operated between an adsorption cycle and a desorption cycle. During the endothermic desorption cycle, a primary heat exchanger is used to transfer heat from a condensing primary fluid that was vaporized from the sorbate to water in the tank. A secondary heat transfer system uses a secondary fluid to supply heat for such vaporization during the endothermic desorption cycle. During the exothermic adsorption cycle, a secondary heat exchanger is used along with the secondary fluid to transfer heat generated by adsorption of the primary fluid to water in the tank. An evaporator provides for vaporization of the primary fluid during the adsorption cycle. Substantial improvements in energy efficiency can be achieved.

Abstract translation: 提供了一种热水器，其具有集成在水箱中的基于吸收的反应器。 热水器在吸附循环和解吸循环之间运行。 在吸热解吸周期期间，使用主热交换器将热量从冷凝的主要流体从山梨酸蒸发到水箱中。 二次传热系统在吸热解吸循环期间使用二次流体供应这种蒸发的热量。 在放热吸附循环期间，二次热交换器与二次流体一起使用以将主要流体吸附产生的热量传递到罐中的水。 蒸发器在吸附循环期间提供初级流体的蒸发。 可以大幅提高能源效率。

公开(公告)号：US20160091256A1

公开(公告)日：2016-03-31

申请号：US14606671

申请日：2015-01-27

Applicant: Sanza T. Kazadi

Inventor： Sanza T. Kazadi

IPC: F28D15/00

CPC classification number: F28D15/00 ,  F24V99/00 ,  F25B17/02 ,  F28D15/02 ,  F28D20/003 ,  F28D21/00 ,  F28D21/0015 ,  Y02A30/277 ,  Y02B30/62

Abstract: An entrochemical energy transfer system and a related process for obtaining work from environmental thermal energy are disclosed. In one embodiment, a plurality of linked entrochemical cells with nested chambers provides an aggregate thermal gradient of each entrochemical cell by transferring environmental thermal energy in and/or out of the plurality of linked entrochemical cells. The aggregate thermal gradient generated from the plurality of linked entrochemical cells can be utilized as an environmentally-friendly energy source for human needs. The entrochemical energy transfer system and the related process for obtaining work from environmental thermal energy utilize a set of entropy transfers from Earth's day and night thermal energy inflows and outflows. Furthermore, in a preferred embodiment, the process for obtaining work from environmental thermal energy involves two steps, each step resulting in entropic increases and transfers.

Abstract translation: 公开了一种用于从环境热能获得工作的化学能量转移系统和相关方法。 在一个实施方案中，具有嵌套室的多个连接的化学电池通过在多个连接的化学电池中转移环境热能来提供每个化学电池的聚集热梯度。 从多个连接的化学电池产生的聚集热梯度可以用作人类需要的环境友好型能源。 化学能源转移系统和从环境热能获得工作的相关过程利用了一套来自地球昼夜热能流入和流出的熵传递。 此外，在优选实施例中，从环境热能获得工作的过程涉及两个步骤，每个步骤导致熵增加和转移。

公开(公告)号：US09005349B2

公开(公告)日：2015-04-14

申请号：US13660572

申请日：2012-10-25

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  Michael J. Flynn ,  Richard Teltz ,  Gary Fong ,  Kean Wing Kin Lam

IPC: B01D53/02 ,  B01D53/26 ,  F25B17/02 ,  F25D21/14 ,  F24F3/14 ,  F25B43/00 ,  B01D53/18 ,  B01D53/04 ,  B01D53/28 ,  F25B37/00

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method to recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. Fans, valves, and manifolds are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. The airflow within the chamber and/or each tray is altered depending upon the settings of configurable airflow manifolds. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

Abstract translation: 从环境气流中回收水的系统和方法。 气流的除湿也可以通过去除水来实现。 该系统的装置包括具有一组托盘的腔室，该托盘容纳每个托盘中的相应量的液体干燥剂。 风扇，阀门和歧管用于控制通过设备的气流。 充电循环使空气循环通过设备以从气流中除去水蒸汽。 随后的萃取循环通过与室连通的冷凝器去除在液体干燥剂中收集的水。 腔室和/或每个托盘内的气流根据可配置气流歧管的设置而改变。 整个热交换器在提取循环期间将热量加热到室中。 控制器用于集成和管理所有系统功能和输入变量，以实现高效的采集能量使用。

公开(公告)号：US08882888B2

公开(公告)日：2014-11-11

申请号：US13908576

申请日：2013-06-03

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  David Blatt ,  Michael J. Flynn ,  Richard Teltz

IPC: B01D53/02 ,  B01D53/26 ,  F25B17/02 ,  F24F3/14 ,  B01D53/18 ,  B01D53/04 ,  F25B43/00 ,  F25D21/14 ,  B01D53/28

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

公开(公告)号：US20130319246A1

公开(公告)日：2013-12-05

申请号：US13660525

申请日：2012-10-25

Applicant: Z124

Inventor： James Ball ,  Charles Becze ,  Michael J. Flynn ,  Kean Wing Kin Lam ,  Richard Teltz

IPC: B01D53/26

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.

公开(公告)号：US20130319227A1

公开(公告)日：2013-12-05

申请号：US13746824

申请日：2013-03-26

Applicant: Z124

Inventor： Charles Becze ,  James Ball

IPC: F24F3/14

CPC classification number: B01D53/263 ,  B01D53/0454 ,  B01D53/18 ,  B01D53/26 ,  B01D53/28 ,  F24F3/1417 ,  F25B17/02 ,  F25B37/00 ,  F25B43/00 ,  F25D21/14 ,  Y02B30/62 ,  Y10T29/49396 ,  Y10T29/49826

Abstract: A device recovers water from an ambient airstream. The device includes a chamber having a group of trays that hold respective amounts of liquid desiccant. A foam media element in each tray absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and control device operation. The desiccant trays may be selectively configurable in an array to best suit the intended installation. The trays may be arranged in column and row configurations, along with adjustable airflow patterns between each of the trays. User interfaces are provided to monitor and control operation of the device.

Abstract translation: 设备从周围的气流中回收水。 该装置包括具有一组容纳各种液体干燥剂的托盘的室。 每个托盘中的泡沫介质元件吸收干燥剂以将干燥剂的暴露表面增加到气流。 风扇和阀门用于控制通过设备的气流。 充电循环使空气循环通过设备以从气流中除去水蒸汽。 随后的萃取循环通过与室连通的冷凝器去除在液体干燥剂中收集的水。 整个热交换器在提取循环期间将热量加热到室中。 控制器用于集成和控制设备操作。 干燥剂托盘可以选择性地配置在阵列中以最适合于预期的安装。 托盘可以以列和行配置布置，以及每个托盘之间的可调节气流图案。 提供用户界面来监控和控制设备的操作。

公开(公告)号：US20030014994A1

公开(公告)日：2003-01-23

申请号：US10165753

申请日：2002-06-06

Inventor： Douglas M. Smith ,  Tamara L. O'Brien ,  Kevin H. Roderick ,  Lois X. Warren ,  Richard G. Perkes ,  Vanessa Sinclair ,  Quentin Shrimpton

IPC: F25D003/08 ,  F17C013/00 ,  F25B021/00 ,  F25B017/08

CPC classification number: C09K5/047 ,  F25B17/02 ,  F25B17/08 ,  F25D11/003 ,  F25D2201/126 ,  F25D2201/14 ,  F25D2331/804 ,  Y02B40/34

Abstract: Novel sorption cooling devices capable of providing cooling over an extended period of time are disclosed. The sorption cooling devices are particularly useful for temperature-controlled shipping containers that are required to maintain a temperature below ambient for a time sufficient to complete delivery of the container and its contents. The shipping containers can be utilized to cost-effectively transport temperature-sensitive products.

Abstract translation: 公开了能够在长时间内提供冷却的小型吸附冷却装置。 吸附冷却装置对于温度低于环境温度所需的温度控制运输容器特别有用，时间足以完成容器及其内容物的输送。 运输集装箱可用于成本有效地运输温度敏感的产品。