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    • 91. 发明授权
    • Vacuum sustaining heating systems and methods
    • 真空维持加热系统和方法
    • US09027846B2
    • 2015-05-12
    • US14553751
    • 2014-11-25
    • Igor Zhadanovsky
    • Igor Zhadanovsky
    • F24D1/08F24D19/10F24D19/00F24D19/08F24D1/02F24D1/00
    • F24D19/1003F01K17/02F16T1/48F22B35/005F24D1/00F24D1/02F24D1/08F24D19/0012F24D19/081F24D2220/0264F24H1/0009Y02B30/16Y02E20/14
    • In order to solve the numerous problems with existing steam, vacuum, and hot water heating systems, presented are novel systems and methods of vapor vacuum heating having several improvements over the prior art, including: condensate return which can operate without steam traps; naturally-induced vacuum; improved vacuum pump operation for sustaining vacuum in such systems; liquid lift apparatus for use with such systems; and other improvements. All innovations presented herein make vapor vacuum heating more efficient and economical for industrial, commercial, and home applications. A field test conducted with these innovations show results of about 26-50% reduced energy usage, implying significant energy savings from the use of the present invention over current heating systems.
    • 为了解决现有蒸汽,真空和热水加热系统的众多问题,提出了一种新型的蒸气真空加热系统和方法,其具有先前技术的几个改进,包括:冷凝水返回,其可在没有蒸汽疏水器的情况下运行; 自然诱导真空; 改进的真空泵操作,用于在这种系统中维持真空; 用于这种系统的液体提升装置; 和其他改进。 本文提出的所有创新都使蒸汽真空加热在工业,商业和家庭应用中更加高效和经济。 通过这些创新进行的现场测试显示出能源使用量减少约26-50%的结果,这意味着使用本发明比现有加热系统节省了显着的能源。
    • 92. 发明申请
    • STEAM DISTRIBUTION CONTROL SYSTEM AND METHOD FOR A STEAM HEATING SYSTEM
    • 蒸汽分配控制系统及蒸汽加热系统方法
    • US20100045470A1
    • 2010-02-25
    • US12544364
    • 2009-08-20
    • Steven P. ARAIZAAndrew J. BARTFAY-SZABO
    • Steven P. ARAIZAAndrew J. BARTFAY-SZABO
    • G08B21/00F24D1/02F24D19/10G05D7/06G05D23/19
    • G05D23/1934F24D1/00F24D1/02F24D19/1003Y02B30/762
    • A steam distribution control system and method for a steam heating system are provided. The steam heating system may include a plurality of radiators, a boiler that provides steam to the plurality of radiators, and a plurality of steam pipes that carry the steam to the plurality of radiators, respectively. The steam distribution control system may include a plurality of steam-air vents provided at the plurality of radiators, respectively, and a central controller in communication with the plurality of steam-air vents that selectively controls the plurality of steam-air vents to control an amount of steam distributed into each of the plurality of radiators. The method may include providing a steam-air vent at each of the plurality of radiators, and selectively controlling the plurality of steam-air vents to control an amount of steam distributed into each of the plurality of radiators.
    • 提供一种用于蒸汽加热系统的蒸汽分配控制系统和方法。 蒸汽加热系统可以包括多个散热器,向多个散热器提供蒸汽的锅炉,以及分别将蒸汽运送到多个散热器的多个蒸汽管。 蒸汽分配控制系统可以包括分别设置在多个散热器处的多个蒸汽通风口和与多个蒸汽通风口连通的中央控制器,该中央控制器选择性地控制多个蒸汽通风口来控制 分配到多个散热器中的每一个的蒸汽量。 该方法可以包括在多个散热器中的每一个处提供蒸汽通风口,并且选择性地控制多个蒸汽通风口以控制分配到多个散热器中的每一个的蒸汽量。
    • 93. 发明授权
    • Heat transfer system
    • 传热系统
    • US06321546B1
    • 2001-11-27
    • US09850029
    • 2001-05-07
    • Douglas E. JohnsonJon Lucas
    • Douglas E. JohnsonJon Lucas
    • F25B2900
    • F24F5/0096C02F1/04F24D1/00F28D15/0266
    • A heat transfer system first includes an air conditioner which includes an evaporator. The system further includes a chamber having an air duct including an input end for receiving fresh ambient make up air and for also receiving recycled air. The air duct also includes an output end to move conditioned air passed the evaporator and into the chamber, with intermediate zones between the input end and the output end. The intermediate zones include a return air zone, a make up air zone, an air handler zone, and an air supply zone. The system also includes a distiller with an input end to receive water from a feed water source, an outputs, an exhaust chimney to direct the flow of excess heat and recycled air to atmosphere or for recirculation, and a heater element. Furthermore, the system includes a passive transfer assembly having a pair of ends with a coil at each end thereof and a pair of lines connecting the coils there between forming a closed loop for a second working fluid to pass. The first heated end is located in operative association with the exhaust chimney of the distiller and the second chilled end located in operative association with the second output end of the air duct.
    • 传热系统首先包括一个包括蒸发器的空调。 该系统还包括具有空气管道的室,该风道包括用于接收新鲜的环境补充空气并且还接收再循环空气的输入端。 空气管道还包括输出端,用于移动通过蒸发器并进入腔室的调节空气,其中输入端和输出端之间具有中间区域。 中间区域包括回风区,补充空气区,空气处理区和供气区。 该系统还包括具有输入端的蒸馏器,用于从进水源接收水,输出,排气烟囱将多余的热量和再循环的空气引导到大气中或用于再循环,以及加热器元件。 此外,该系统包括无源转移组件,其具有在其每个端部具有线圈的一对端部,以及在其间连接线圈的一对线路,形成用于第二工作流体通过的闭合回路。 第一加热端位于与蒸馏器的排气烟道操作相关联,第二冷端位于与空气管道的第二输出端可操作地相关联。
    • 94. 发明授权
    • Cogeneration system
    • 热电联产系统
    • US5819843A
    • 1998-10-13
    • US715968
    • 1996-09-19
    • Yoshinori InoueNozomu KusumotoYuji YoshitakeTokuyuki Akashi
    • Yoshinori InoueNozomu KusumotoYuji YoshitakeTokuyuki Akashi
    • F02G5/00F24D1/00F24D11/02F25B29/00F25D7/02F24F5/00
    • F02G5/00F24D1/00F24D11/0235F24D2200/26F24H2240/10Y02B10/70Y02B30/126Y02B30/16Y02B30/52Y02E20/14Y02P80/15Y02T10/166
    • A cogeneration system includes a gas engine generator acting as private power generating equipment for generating power to be supplied to private electricity consuming equipment, and a source-side heat exchanger connected to the gas engine generator through an exhaust heat recovery piping to act as a heat source. A heat medium is heated and evaporated through a heat exchange in the source-side heat exchanger. The resulting vapor is allowed to flow upward to be supplied to room heating heat exchangers. The vapor is liquefied through a heat exchange in the room heating heat exchangers. The resulting liquid is allowed to flow downward back to the source-side heat exchanger. This natural circulation of the heat medium is used for the heating purpose. Surplus exhaust heat is released through a generator to control the heat medium supplied to the room heating heat exchangers. Thus, the private power generating equipment supplies power to the private electricity consuming equipment, while exhaust heat of the generating equipment is used to heat rooms. The entire system is constructed at low cost.
    • 热电联产系统包括作为用于发电给私人用电设备的私人发电设备的燃气发动机发电机,以及通过排气热回收管道连接到燃气发动机发电机作为热量的源侧热交换器 资源。 通过源侧热交换器中的热交换将热介质加热并蒸发。 允许所得蒸气向上流动以供应到室内加热热交换器。 蒸汽通过室内加热热交换器中的热交换液化。 使得到的液体向下流回到源侧热交换器。 热介质的这种自然循环用于加热目的。 剩余的废热通过发生器释放以控制供应到室内加热热交换器的热介质。 因此,私人发电设备向私人用电设备供电,而发电设备的排气用于加热房间。 整个系统以低成本构建。