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    • 1. 发明授权
    • LNG-based power and regasification system
    • 液化天然气发电和再气化系统
    • US07493763B2
    • 2009-02-24
    • US11110935
    • 2005-04-21
    • Marat KlochkoUri KaplanDanny BatschaNadav AmirDavid MachlevLucien Y. Bronicki
    • Marat KlochkoUri KaplanDanny BatschaNadav AmirDavid MachlevLucien Y. Bronicki
    • F03G7/00
    • F01K25/10F01K25/08F17C2265/05
    • The present invention provides a power and regasification system based on liquefied natural gas (LNG), comprising a vaporizer by which liquid working fluid is vaporized, said liquid working fluid being LNG or a working fluid liquefied by means of LNG; a turbine for expanding the vaporized working fluid and producing power; heat exchanger means to which expanded working fluid vapor is supplied, said heat exchanger means also being supplied with LNG for receiving heat from said expanded fluid vapor, whereby the temperature of the LNG increases as it flows through the heat exchanger means; a conduit through which said working fluid is circulated from at least the inlet of said vaporizer to the outlet of said heat exchanger means; and a line for transmitting regasified LNG.
    • 本发明提供了一种基于液化天然气(LNG)的动力和再气化系统,其包括蒸发器,液体工作流体被蒸发,所述液体工作流体是LNG或通过LNG液化的工作流体; 用于膨胀蒸发的工作流体并产生动力的涡轮机; 热交换器装置,其供应扩大的工作流体蒸气,所述热交换器装置还被供应有用于从所述膨胀流体蒸气接收热量的LNG,由此LNG流过热交换器装置时,其温度升高; 所述工作流体至少从所述蒸发器的入口循环到所述热交换器装置的出口的管道; 以及用于发送再分配LNG的生产线。
    • 6. 发明授权
    • Method and apparatus for producing power from geothermal fluid
    • 用于从地热液体发电的方法和装置
    • US06298663B1
    • 2001-10-09
    • US08901070
    • 1997-07-28
    • Lucien Y. BronickiUri Kaplan
    • Lucien Y. BronickiUri Kaplan
    • F03G700
    • F03G7/04Y02E10/10Y02E20/16
    • Apparatus for utilizing geothermal fluid comprising a two-phase mixture of geothermal steam and brine produced by a production well, includes an input conduit connecting the production well with the separator which separates the geothermal fluid into high pressure geothermal steam and geothermal brine. A connecting conduit connects the separator to a geothermal power plant which produces power from the high pressure geothermal steam. The input conduit is shorter than said connecting conduit to reduce pressure losses due to two-phase flow in the input conduit. The geothermal power plant includes a topping steam turbine coupled to a generator, and a flow control mechanism for applying the high pressure geothermal steam to the topping steam turbine which is constructed and arranged to drive the generator and produce exhaust steam at a pressure greater than atmospheric pressure. A secondary separator receives the exhaust steam and produces condensate and dry low pressure steam which is applied to a condensing steam turbine coupled to a generator for producing power and exhaust steam that is below atmospheric pressure. The flow control system is effective to maintain a substantially constant flow rate of geothermal steam through he power plant in the face of decreasing pressure of the geothermal fluid.
    • 包括由生产井产生的地热蒸汽和盐水的两相混合物的地热流体的装置包括将生产井与分离器连接的输入管道,该分离器将地热流体分离成高压地热蒸汽和地热盐水。 连接导管将分离器连接到从高压地热蒸汽产生动力的地热发电厂。 输入管道比所述连接管道短,以减少由于输入管道中的两相流动造成的压力损失。 地热发电厂包括联接到发电机的顶部蒸汽涡轮机和用于将高压地热蒸汽施加到顶部蒸汽涡轮机的流量控制机构,该顶部蒸汽涡轮机被构造和布置成驱动发电机并产生大于大气压的排气蒸汽 压力。 次级分离器接收废气蒸汽并产生冷凝物和干燥的低压蒸汽,其被施加到联接到发电机的冷凝蒸汽轮机,用于产生低于大气压的动力和排气蒸汽。 流量控制系统在面对地热流体压力降低的情况下,有效地保持地热蒸汽通过其发电厂的基本恒定的流量。
    • 8. 发明授权
    • Multi-level organic rankine cycle power system
    • 多级有机酸碱循环电力系统
    • US08438849B2
    • 2013-05-14
    • US12457477
    • 2009-06-11
    • Uri KaplanJoseph SinaiLucien Y. Bronicki
    • Uri KaplanJoseph SinaiLucien Y. Bronicki
    • F01K7/34F01K23/04
    • F01K25/08F01K7/025F01K7/18F01K23/065F22B1/1807Y02E20/16Y02E20/363
    • A waste heat recovery system includes a high pressure turbine and a low pressure turbine, in which the high pressure turbine receives high pressure working fluid vapor, the low pressure turbine receives low pressure working fluid vapor and the high pressure turbine also supplies low pressure working fluid vapor to the low pressure turbine. A recuperator receives working fluid vapor from the low pressure turbine. The recuperator produces heated condensate, at least a portion of which is provided to a high pressure vaporizer. The high pressure vaporizer is configured to receive from a high temperature heat source and produces high pressure working vapor used to power the high pressure turbine. The remaining condensed fluid is provided to a low pressure vaporizer which is configured to receive heat from a low-temperature heat source, thereby producing low pressure working fluid vapor used to power the low pressure turbine.
    • 废热回收系统包括高压涡轮机和低压涡轮机,其中高压涡轮机接收高压工作流体蒸气,低压涡轮机接收低压工作流体蒸气,高压涡轮机还提供低压工作流体 蒸汽到低压涡轮。 换热器从低压涡轮机接收工作流体蒸汽。 换热器产生加热的冷凝物,其至少一部分被提供给高压蒸发器。 高压蒸发器配置为从高温热源接收并产生用于为高压涡轮机供电的高压工作蒸汽。 剩余的冷凝流体被提供给构造成从低温热源接收热量的低压蒸发器,从而产生用于为低压涡轮机供电的低压工作流体蒸汽。
    • 10. 发明授权
    • Method for utilizing acidic geothermal fluid for generating power in a
rankine cycle power plant
    • 在酸碱循环发电厂中利用酸性地热液发电的方法
    • US5816048A
    • 1998-10-06
    • US403262
    • 1995-03-13
    • Lucien Y. BronickiUri KaplanMoshe Grassiani
    • Lucien Y. BronickiUri KaplanMoshe Grassiani
    • F03G7/04F03G7/00
    • F03G7/04Y02E10/10
    • A method for utilizing acidic geothermal fluid (e.g., fluid having a pH of less than about 3.5) containing non-condensable gases in a geothermal power plant includes separating the geothermal fluid into steam and brine, applying the steam to a device from which power and steam condensate is produced. Such device can be a back-pressure steam turbine whose exhaust can be cooled by organic fluid to produce organic vapor that is expanded in an organic vapor turbine. Alternatively, the steam can be applied to the steam-side of an indirect contact heat exchanger containing a liquid organic working fluid for producing steam condensate and vaporized working fluid. In such case, the steam condensate produced by the heat exchanger is less acidic than the brine. The vaporized working fluid is expanded in an organic vapor turbine for producing electricity and expanded working fluid, and the expanded working fluid is condensed for producing condensed organic fluid which is preheated and supplied to the heat exchanger. Preheating of the condensed organic fluid is achieved using heat contained in both the steam condensate and brine which are cooled thereby. The dilution of the brine by the steam condensate causes the concentration of acids, e.g., hydrochloric acid, and salts in the brine, to return to less than their original values in the geothermal brine.
    • 在地热发电厂中使用含有不可冷凝气体的酸性地热流体(例如,pH小于约3.5的流体)的方法包括将地热流体分离成蒸汽和盐水,将蒸汽施加到一个装置上, 产生蒸汽冷凝物。 这种装置可以是背压蒸汽轮机,其排气可以通过有机流体冷却以产生在有机汽轮机中膨胀的有机蒸气。 或者,可以将蒸汽施加到含有用于产生蒸汽冷凝物和汽化的工作流体的液体有机工作流体的间接接触热交换器的蒸汽侧。 在这种情况下,由热交换器产生的蒸汽冷凝物比盐水酸性低。 蒸发的工作流体在用于产生电力和膨胀的工作流体的有机蒸汽涡轮机中膨胀,并且膨胀的工作流体被冷凝以产生预热和供应到热交换器的冷凝有机流体。 冷凝的有机流体的预热是通过将冷却的蒸汽冷凝物和盐水中所含的热量实现的。 蒸汽冷凝物对盐水的稀释使得酸(例如盐酸)和盐水中的盐的浓度在地热盐水中回到小于其原始值。