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    • 4. 发明授权
    • Heat exchangers and tower structure for density-driven power generation
    • 热交换器和塔式结构用于密集驱动发电
    • US08640461B2
    • 2014-02-04
    • US12709215
    • 2010-02-19
    • Steven A. Thompson
    • Steven A. Thompson
    • F01K27/00F01K7/00
    • F03G7/04F03B17/005F03D9/00F03D13/20F05B2240/131F05B2250/132Y02E10/28Y02E10/728
    • A power-generating tower comprises: at least one of the lower heat-exchange assemblies, at least one of the upper heat-exchange assemblies, a tower structure arranged to support each upper heat-exchange assembly, at least one ascending circulating-fluid column within the tower structure, at least one descending circulating-fluid column within the tower structure, and at least one turbine. Each ascending column is arranged and connected to receive the circulating fluid from at least one of the lower heat-exchange assemblies and to convey the circulating fluid thus received upward and into at least one of the upper heat-exchange assemblies. Each descending column is arranged and connected to receive the circulating fluid from at least one of the upper heat-exchange assemblies and to convey the circulating fluid thus received downward and into at least one of the lower heat-exchange assemblies. The turbine is arranged to be driven by flow of circulating fluid.
    • 发电塔包括:下部热交换组件中的至少一个,上部热交换组件中的至少一个,布置成支撑每个上部热交换组件的塔架结构,至少一个上升循环流体塔 在塔结构内,在塔结构内至少一个下降的循环流体塔,以及至少一个涡轮机。 每个上升塔被布置和连接以接收来自下部热交换组件中的至少一个的循环流体,并且将上述被接收的循环流体输送到上部热交换组件中的至少一个中。 每个下降柱被布置和连接以接收来自上部热交换组件中的至少一个的循环流体,并将如此接收的循环流体输送到下部热交换组件中的至少一个中。 涡轮被布置成由循环流体的流动驱动。
    • 5. 发明申请
    • ADSORBING HEAT EXCHANGERS
    • 吸附热交换器
    • US20120324890A1
    • 2012-12-27
    • US13581234
    • 2011-02-25
    • Ryan Paul LivelyWilliam John KorosRon Chance
    • Ryan Paul LivelyWilliam John KorosRon Chance
    • F01K7/00F01K17/00
    • F01K17/06Y02C10/06Y02E20/326
    • The present invention generally relates to power generation systems configured to absorb and capture a component, such as carbon dioxide, in a flue gas for later sequestration or utilization, wherein heat generated in the sorption process is captured for use in the power generation system. In some examples, the heat of sorption is used to preheat fluids in one or more systems of the power generation system to reduce the heating load on the subsystem. By using the heat of sorption, the carbon dioxide capture and sequestration process not only reduces or eliminates the concentration of carbon dioxide in the flue gas, but reduces or eliminates the parasitic effect of carbon dioxide capture and sequestration on power generation.
    • 本发明一般涉及配置成在烟道气中吸收和捕获诸如二氧化碳的组分以用于随后的封存或利用的发电系统,其中吸收过程中产生的热量被捕获用于发电系统中。 在一些实例中,吸附热用于预热发电系统的一个或多个系统中的流体,以减少子系统上的加热负载。 通过使用吸附热,二氧化碳捕获和封存过程不仅减少或消除了烟道气中二氧化碳的浓度,而且减少或消除了二氧化碳捕获和封存对发电的寄生效应。
    • 6. 发明申请
    • POWER PLANT WITH CO2 CAPTURE
    • 电厂与二氧化碳捕获
    • US20110314815A1
    • 2011-12-29
    • US13157897
    • 2011-06-10
    • Hongtao LIHolger NAGELTjiptady NUGROHOCeline MAHIEUX
    • Hongtao LIHolger NAGELTjiptady NUGROHOCeline MAHIEUX
    • F01K13/00F01K7/00
    • F02C6/18F01K23/105Y02E20/16Y02E20/326Y02E20/344
    • A method is provided for operating a combined cycle power plant having at least one gas turbine, a heat recovery steam generator (HSRG), a steam turbine and a CO2 capture system. The method includes recirculating a first partial flow of flue gases from the HRSG. The method also includes capturing CO2 from a second partial flow of flue gases from the HRSG; and operating a supplementary firing to increase the net power output of the plant and to at least partly compensate the power consumption of the CO2 capture system. A combined cycle power plant is also provided. The plant includes at least one gas turbine, at least one heat recovery steam generator, at least one steam turbine at least one CO2 capture system, and flue gas recirculation. The plant also includes a low excess air supplementary firing.
    • 提供了一种用于操作具有至少一个燃气轮机,热回收蒸汽发生器(HSRG),蒸汽轮机和CO 2捕集系统的联合循环发电厂的方法。 该方法包括再循环来自HRSG的第一部分烟道气流。 该方法还包括从来自HRSG的第二部分烟道气流捕获CO 2; 并进行补充燃烧以提高工厂的净功率输出,并至少部分地补偿二氧化碳捕集系统的功率消耗。 还提供联合循环发电厂。 该设备包括至少一个燃气轮机,至少一个热回收蒸汽发生器,至少一个蒸汽轮机至少一个CO 2捕集系统和烟道气再循环。 该工厂还包括低空余量的辅助燃烧。
    • 8. 发明申请
    • Engine
    • 发动机
    • US20110169277A1
    • 2011-07-14
    • US13053893
    • 2011-03-22
    • Michael Miller
    • Michael Miller
    • F03C1/00F01K7/00H02K7/18
    • F01K25/10F01K27/00Y02E20/14
    • An engine is provided that utilizes an active heat exchanger such as a heat pump to transfer heat into and remove heat from a low boiling point liquid that is disposed in a pair of diametrically opposed containers. The addition of heat into the low-boiling point liquid causes the liquid to move vertically from a bottom container to a top container, transforming the transferred heat energy into potential energy. The top container is allowed to fall under the weight of the transferred liquid, transforming the potential energy to kinetic energy which is used to perform the desired work. The expanding low-boiling point liquid can also be used to advance a magnetic back and forth through a wire coiling to produce an electric current, converting the transferred heat energy into electrical energy. The use of an active heat exchanger such as a heat pump permits the use of one unit of electrical energy to transfer 3 to 5 units of heat energy.
    • 提供了一种使用诸如热泵的主动热交换器的发动机,以将热量传递到设置在一对直径相对的容器中的低沸点液体中并从其中去除热量。 向低沸点液体中加热导致液体从底部容器垂直移动到顶部容器,将转移的热能转化为势能。 允许顶部容器落在转移液体的重量下,将势能转化为用于执行所需工作的动能。 膨胀的低沸点液体也可以用于通过线圈卷取来提前磁性,以产生电流,将转移的热能转换成电能。 使用诸如热泵的主动热交换器允许使用一个单位的电能来传递3至5个单位的热能。
    • 9. 发明申请
    • EFFICIENT VAPOR (STEAM) ENGINE/PUMP IN A CLOSED SYSTEM USED AT LOW TEMPERATURES AS A BETTER STIRLING HEAT ENGINE/REFRIGERATOR
    • 在低温下使用的封闭系统中的有效蒸汽(蒸汽)发动机/泵作为更好的搅拌热发动机/制冷器
    • US20090249779A1
    • 2009-10-08
    • US12486525
    • 2009-06-17
    • JAMES SHIHFU SHIAO
    • JAMES SHIHFU SHIAO
    • F02G1/043F01K7/00F02G1/053
    • F01K25/04
    • A high efficiency vapor (steam) engine/pump process in a closed system can use either water or liquefied gases for its working fluid to extract thermal energy from the ambient or non-ambient heat sources to increase its heat transfer rate and obtain power generation efficiency over 50%. A slow-speed two-phase piston steam engine's flywheel has a high ratio gear reducer attached to increase a generator's speed and produce power with over 50% efficiency and meet its power generation requirements (3,600 RPM). This two-phase vapor (steam) engine/pump substitutes the cooling condenser's and pump's functions of compressing the waste streams directly back into the boiler, and allows the process to run at temperatures lower than room temperature, with no need for a conventional cooling condenser. The present process will not discharge thermal pollution and/or radioactive/hazardous wastes into the heat sink and to the global environment, which is highly recommended for new nuclear/general power steam engine/turbines modifications.
    • 封闭系统中的高效蒸汽(蒸汽)发动机/泵过程可以使用水或液化气体作为其工作流体从环境或非环境热源提取热能,从而提高其传热速率并获得发电效率 超过50%。 慢速两相活塞式蒸汽机的飞轮具有高比率齿轮减速器,可提高发电机的转速,并以超过50%的效率生产电力,并满足其发电要求(3600 RPM)。 这种两相蒸汽(蒸汽)发动机/泵代替冷却冷凝器和泵的功能,将废物流直接压回锅炉,并允许该过程在低于室温的温度下运行,而不需要常规冷却冷凝器 。 本过程不会将热污染和/或放射性/危险废物排放到散热器和全球环境中,这对于新的核/一般动力蒸汽机/涡轮机修改是强烈建议的。