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    • 4. 发明申请
    • DISPLACEMENT-INDUCTION NEUTRAL WALL AIR TERMINAL UNIT
    • 位移感应中性空气终端单元
    • US20120270494A1
    • 2012-10-25
    • US13090988
    • 2011-04-20
    • Daniel P. McCarty
    • Daniel P. McCarty
    • F24F7/00
    • F24F1/0007F24D1/00F24D3/02F24D10/003F24D19/0087F24D19/1003F24D19/1009F24F1/0033F24F1/01F24F2001/004F24F2221/34F24F2221/54
    • An induction-displacement neutral wall air terminal unit includes a housing defining a supply airflow path, a connected return airflow path, and a heating airflow path separated from the supply and return airflow paths by at least one interior wall. The unit also includes a plurality of induction-type nozzles located within the supply airflow path, that are deliver a ventilation air flow stream into the supply air flow path. The nozzles induce a return air flow stream through the return air flow path that mixes with the ventilation air flow stream to form a supply air flow stream delivered to a supply air outlet. A heating element is disposed within the heating airflow path to heat air within the heating air flow path. A plurality of fans may be placed within the heating airflow path to increase the overall heating capacity of the unit.
    • 感应位移中性壁空气端子单元包括限定供应气流路径的壳体,连接的返回气流路径和通过至少一个内壁与供气和返回气流路径分离的加热气流路径。 该单元还包括位于供应气流路径内的多个感应型喷嘴,其将通风空气流输送到供应空气流动路径中。 喷嘴引导回流气流通过返回空气流动路径,与回流空气流动流混合,形成输送到供气口的供气流。 加热元件设置在加热气流路径内,以加热加热空气流路中的空气。 多个风扇可以被放置在加热气流路径内以增加单元的总体加热能力。
    • 7. 发明申请
    • Hybrid integrated cogeneration system and method
    • 混合综合热电联产系统及方法
    • US20110068575A1
    • 2011-03-24
    • US12880194
    • 2010-09-13
    • Fikret M. Zabtcioglu
    • Fikret M. Zabtcioglu
    • F01K17/02F24H7/00F03G6/00
    • F24D1/00F01K17/02F22B1/281F24D1/04F24D7/00F24D19/1003F24H7/0266F28D2020/0047Y02B30/16Y02E10/46Y02E20/14
    • A system and method is provided for converting electrical energy input provided by a renewable prime energy into efficient thermo-dynamic energy for cogeneration purposes, activated by the main infrared radiation means and an energy density increasing means functioning synergistically. A closely approximated ideal blackbody condition therein, is utilized to heat the (TES,) resulting in a highly stable total kinetic energy (TES) mass. Another section provides an energy density increasing means. Steam generates power and then heats residential or commercial buildings. Service hot-water and air conditioning is also provided. The system can be an auxiliary system for other power plants increasing efficiency. In the second embodiment, higher capacity low cost electricity generation enables efficient power cogeneration. A zero emission cogeneration system that includes a fast energy density increasing feature and central heating means, and second embodiment plant with high capacity cogeneration; are presented as what are new in the art.
    • 提供了一种系统和方法,用于将由可再生原始能量提供的电能输入转换成由主红外辐射装置激活的有效的热动力能量,并由能量密度增加装置协同作用。 利用其近似的理想黑体条件来加热(TES),导致高度稳定的总动能(TES)质量。 另一部分提供了能量密度增加的手段。 蒸汽发电,然后加热住宅或商业建筑物。 还提供服务热水和空调。 该系统可以作为其他发电厂的辅助系统,提高效率。 在第二实施例中,更高容量的低成本发电实现了高效的电力热电联产。 包括快速能量密度增加特征和中央加热装置的零排放热电联产系统,以及具有高容量热电联产的第二实施方案; 被呈现为本领域的新​​技术。
    • 8. 发明申请
    • STEAM-BASED HVAC SYSTEM
    • 基于蒸汽的暖通空调系统
    • US20080173723A1
    • 2008-07-24
    • US12052009
    • 2008-03-20
    • Igor Zhadanovsky
    • Igor Zhadanovsky
    • F24D1/00
    • F24D1/00Y10T137/8593
    • Various methods and devices are provided for heating, cooling, and humidifying a space using a steam-based HVAC system having a steam source, at least one radiator located in a space to be heated or humidified, and a steam and condensate transfer apparatus extending between the steam source and the radiator. The steam and condensate transfer apparatus can have an inner tube configured for transferring steam disposed within an outer tube configured for transferring condensate and the inner tube can be centered within the outer tube such that the outer tube forms an annulus around the inner tube. The tube-in-tube conduit system or double-tube conduit system can take the form of Lego®-like components that can be fitted together to form the structure needed to deliver steam to light-weight flat-panel radiators located within all areas to be heated and/or humidified. The HVAC system can further include a cold air source for delivering cold air into the tube-in-tube conduit system to provide cold air to registers within spaces to be cooled. In one embodiment, the steam and condensate transfer apparatus can be formed from a thermoplastic, for example, polysulfone.
    • 提供了各种方法和装置,用于使用具有蒸汽源的蒸汽型HVAC系统来加热,冷却和加湿空间,至少一个位于待加热或加湿空间的散热器,以及蒸汽和冷凝水输送装置, 蒸汽源和散热器。 蒸汽和冷凝物输送装置可以具有内管,其构造成用于传送设置在用于输送冷凝物的外管内的蒸汽,并且内管可以在外管内居中,使得外管围绕内管形成环。 管中管道系统或双管导管系统可以采用类似Lego(R)的组件的形式,可以将其组装在一起形成将蒸汽输送到位于所有内部的轻质平板散热器所需的结构 要加热和/或加湿的区域。 HVAC系统还可以包括用于将冷空气输送到管中管道系统中的冷空气源,以向要冷却的空间内的寄存器提供冷空气。 在一个实施例中,蒸汽和冷凝物输送装置可以由热塑性塑料例如聚砜形成。
    • 10. 发明授权
    • Cogeneration system
    • 热电联产系统
    • US5607013A
    • 1997-03-04
    • US252785
    • 1994-06-02
    • 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。