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    • 2. 发明申请
    • Method of and apparatus for cooling a seal for machinery
    • 冷却机械密封的方法和设备
    • US20050247061A1
    • 2005-11-10
    • US11182740
    • 2005-07-18
    • Ohad ZimronNadav AmirMeir Rigal
    • Ohad ZimronNadav AmirMeir Rigal
    • F01K1/00F01D11/02F01D11/04F01D25/12F01K23/04F02G1/043F04D31/00F01K13/02F01K21/06
    • F02G1/043F01D11/02F01D11/04F01D25/125F01K23/04F02G2253/00F05D2240/53F05D2240/63
    • A method is provided for cooling a seal located in a wall of a chamber and through which a movable shaft passes, the seal being heated by hot pressurized vapor that leaks through the seal into the chamber and internal friction. The method comprises the steps of: providing a chamber in which the seal is located and into which the hot pressurized vapor leaks; injecting cool liquid into the chamber in which the seal is located; and cooling and condensing the hot pressurized vapor in the chamber thus cooling the seal. Preferably, the method includes the step of providing a pressure chamber for containing the hot pressurized vapor within which a turbine wheel is mounted on the shaft, and vapor leaks past a labyrinth mounted on the shaft between the turbine wheel and the seal. Apparatus is also provided for cooling a seal located in a wall of a chamber and through which a movable shaft passes, the seal being heated by hot pressurized vapor that leaks through the seal into the chamber in which the seal is located. The apparatus comprises a chamber in which the seal is located and into which leaks the hot pressurized vapor and means for injecting liquid into the chamber in which the seal is located such that the hot pressurized vapor is cooled and condenses in the chamber, thus cooling the seal. Preferably, the apparatus also includes a turbine wheel mounted on the shaft in the pressure chamber containing hot pressurized, vaporized working fluid, wherein the shaft passes through a labyrinth seal mounted on the shaft.
    • 提供了一种用于冷却位于室的壁中的密封件的方法,可移动轴通过该密封件,该密封件被热的加压蒸气加热,所述热的加压蒸气通过密封件泄漏到室中并产生内摩擦。 该方法包括以下步骤:提供密封件所在的腔室,热加压蒸汽泄漏到该腔室中; 将液体注入到密封件所在的腔室中; 并冷却并冷凝室中的热加压蒸汽,从而冷却密封。 优选地,该方法包括提供用于容纳涡轮机叶轮安装在轴上的热加压蒸汽的压力室的步骤,并且蒸气通过安装在涡轮机叶轮和密封件之间的轴上的迷宫式泄漏。 还提供了用于冷却位于室壁中的密封件的装置,并且可移动轴通过该密封件,该密封件被热的加压蒸气加热,该密封件通过密封件泄漏到密封件所在的室中。 该装置包括一个腔室,密封件位于该腔室中,泄漏热的加压蒸气和用于将液体注入到密封件所在的腔室中的装置,使得热的加压蒸气被冷却并在腔室中冷凝, 密封。 优选地,该装置还包括安装在压力室中的轴上的涡轮机叶轮,其包含热加压,汽化的工作流体,其中轴穿过安装在轴上的迷宫式密封件。
    • 3. 发明授权
    • Seal system for geothermal power plant operating on high pressure
geothermal steam
    • 用于高压地热蒸汽的地热发电厂密封系统
    • US5857338A
    • 1999-01-12
    • US766932
    • 1996-12-16
    • Meir Rigal
    • Meir Rigal
    • F01D11/04F03G4/06F03G7/04F16J15/00F01B31/00
    • F01D11/04F03G7/04Y02E10/10
    • A seal system for a geothermal power plant of the type having a steam turbine operating on high pressure steam produced from geothermal fluid includes a high pressure seal housing associated with the high pressure stage of the turbine. The housing has a first internal chamber for receiving geothermal steam that leaks from the high pressure stage, and a further internal chamber for receiving geothermal steam leaking from the first internal chamber. A condenser/vaporizer is provided for condensing steam from the further internal chamber using an organic fluid and producing condensate that can be disposed of in a re-injection well. Leakage of high pressure geothermal steam through the seal is suppressed because most of the leakage with be shunted to the condenser/vaporizer, which preferably is associated with a module that includes a steam turbine and an organic turbine coupled to a generator.
    • 一种用于地热发电厂的密封系统,其具有由地热流体产生的高压蒸汽运行的蒸汽轮机,包括与涡轮机的高压级相关联的高压密封壳体。 壳体具有用于接收从高压级泄漏的地热蒸汽的第一内部室和用于接收从第一内部室泄漏的地热蒸汽的另一内部室。 提供冷凝器/蒸发器,用于使用有机流体冷凝来自另外的内部室的蒸汽,并产生可在再注入井中处理的冷凝物。 抑制了通过密封件的高压地热蒸汽的泄漏,因为大部分泄漏被分流到冷凝器/蒸发器,其优选地与包括蒸汽轮机和耦合到发电机的有机涡轮机的模块相关联。
    • 4. 发明授权
    • Closed Rankine-cycle power plant utilizing organic working fluid
    • 利用有机工作液的封闭朗肯循环发电厂
    • US4458493A
    • 1984-07-10
    • US389873
    • 1982-06-18
    • Nadav AmirMeir Rigal
    • Nadav AmirMeir Rigal
    • F01D17/00F01K7/16F01K25/08F01K7/06
    • F01K25/08F01D17/00F01K7/16
    • A closed Rankine-cycle power plant (10) has a boiler (24) for vaporizing an organic working fluid and a first nozzle box (58) for receiving vaporized working fluid from the boiler (24) and for furnishing the fluid to a set of axial flow turbine blades (30) located on the periphery of a turbine rotor (50). The vaporized working fluid from the nozzle box (58) expands on passing through the blades (30) producing work that drives a generator (34) coupled to the turbine (28). A second nozzle box (62) receives vaporized working fluid that exits from the axial flow blades (30) on the rotor (50) and applies the working fluid to a second set of radial flow blades (66) on the rotor (50) adjacent the second nozzle box (62). Working fluid from the boiler (24) is applied directly to the first nozzle box (58), and in a selective, controlled manner, through a proportioning valve (26), working fluid from the boiler (24) is applied to the second nozzle box (62) thereby providing an efficient way to vary the work output of the turbine (28).
    • 封闭的朗肯循环发电厂(10)具有用于蒸发有机工作流体的锅炉(24)和用于从锅炉(24)接收蒸发的工作流体的第一喷嘴箱(58),并用于将流体提供给一组 轴流涡轮机叶片(30)位于涡轮机转子(50)的周边。 来自喷嘴箱(58)的蒸发的工作流体在穿过叶片(30)时膨胀,产生驱动与涡轮机(28)连接的发电机(34)的工作。 第二喷嘴箱(62)接收从转子(50)上的轴向流动叶片(30)排出的蒸发的工作流体,并将工作流体施加到相邻的转子(50)上的第二组径向流动叶片(66) 第二喷嘴箱(62)。 来自锅炉(24)的工作流体直接施加到第一喷嘴箱(58),并以选择性控制的方式通过比例阀(26),来自锅炉(24)的工作流体被施加到第二喷嘴 从而提供了改变涡轮机(28)的工作输出的有效方式。
    • 5. 发明授权
    • Method of and apparatus for cooling a seal for machinery
    • 冷却机械密封的方法和设备
    • US07284376B2
    • 2007-10-23
    • US11182740
    • 2005-07-18
    • Ohad ZimronNadav AmirMeir Rigal
    • Ohad ZimronNadav AmirMeir Rigal
    • F01K25/08
    • F02G1/043F01D11/02F01D11/04F01D25/125F01K23/04F02G2253/00F05D2240/53F05D2240/63
    • A method and an apparatus for producing power from a heat source comprising a nonane heater/vaporizer, an intermediate fluid vapor turbine mounted on a shaft that receives and expands the vaporized nonane, an organic fluid vaporizer that receives the expanded vaporized nonane for supplying heat to liquid organic working fluid present in said organic fluid vaporizer and vaporizes said liquid organic working fluid with heat from the expanded vaporized nonane to form vaporized organic working fluid and a nonane condensate, a seal of said shaft being cooled using the nonane condensate by cooling and condensing hot pressurized vapor near the seal, and liquid containing such condensed hot pressurized vapor being supplied to a condensate drain vessel, the drained condensate being supplied to a line connected to a cycle pump of the nonane intermediate cycle, and an organic vapor turbine that expands the vaporized organic working fluid.
    • 一种用于从热源产生动力的方法和装置,包括非加热器/蒸发器,安装在轴上的中间流体蒸气涡轮机,其接收和膨胀汽化的非烷烃;有机流体蒸发器,其接收膨胀的蒸发的壬烷以供热 存在于所述有机流体蒸发器中的液体有机工作流体,并且利用来自膨胀蒸发的非烷烃的热量使所述液体有机工作流体蒸发以形成蒸发的有机工作流体和非烷烃冷凝物,所述轴的密封通过冷却和冷凝 密封件附近的热加压蒸气,以及含有这种冷凝的热加压蒸汽的液体被供应到冷凝水排放容器,排出的冷凝物被供应到连接到非正常中间循环的循环泵的管线,以及有机蒸气涡轮机, 蒸发有机工作液。
    • 7. 发明授权
    • Energy recovery, pressure reducing system and method for using the same
    • 能量回收,减压系统及其使用方法
    • US5606858A
    • 1997-03-04
    • US197601
    • 1994-02-17
    • Nadiv AmirMeir RigalYoel Gilon
    • Nadiv AmirMeir RigalYoel Gilon
    • F17D1/04F02C1/00F02C1/02F17D1/075G05D16/00F01K25/10
    • F02C1/02F02C1/00F17D1/075
    • An energy recovery, pressure reducing system according to the present invention for reducing high pressure gas in a transmission pipeline to a lower pressure in a consumer pipeline includes a primary pressure regulator or regulating valve having an adjustable flow control opening, the pressure regulating valve being selectively connectable between the transmission and consumer pipelines for throttling the high pressure gas and producing low pressure gas when the primary pressure regulator or regulating valve connects the pipelines. A bypass line shunts the primary pressure regulator or regulating valve for connecting the pipelines when the primary pressure regulating valve is disconnected from the pipelines. The bypass line includes an expander system having at least one expander for expanding the high pressure gas in the gas transmission pipeline and producing work and lower pressure gas that is supplied to the consumer pipeline. Preferably, a generator is coupled to the expander for converting work produced by the pressure regulating of the high pressure gas in the expander to electricity which is supplied to an electrical load. A fast acting, selectively adjustable pressure regulator or regulating valve apparatus is connected in parallel with the expander system. Finally, a control system is provided, responsive to a reduction in flow through the expander system for rapidly switching the apparatus from a non-operational state in which no gas is transmitted between the transmission and the consumer pipelines, to an operational state in which high pressure gas is throttled to the lower pressure in the consumer pipeline and transmitted thereto.
    • 根据本发明的用于将输送管道中的高压气体降低到消费管道中的较低压力的能量回收,减压系统包括具有可调节流量控制开口的一次压力调节器或调节阀,该压力调节阀是选择性地 可连接在传输和消耗管道之间,用于节流高压气体,并在主压力调节器或调节阀连接管道时产生低压气体。 当主压力调节阀从管道断开时,旁路管路分流主压力调节器或调节阀,用于连接管道。 旁通管路包括具有至少一个膨胀机的膨胀机系统,用于膨胀气体输送管道中的高压气体,并产生供应给消耗管线的工作和低压气体。 优选地,发电机联接到膨胀器,用于将通过膨胀器中的高压气体的压力调节产生的作业转换成供给电负载的电力。 快速作用的,可选择性调节的压力调节器或调节阀装置与膨胀机系统并联连接。 最后,提供了一种控制系统,其响应于通过膨胀器系统的流量的减少,以便将装置从在变速器和消耗管线之间没有气体传送的非操作状态快速切换到高运行状态 压力气体被节流到消费管道中的较低压力并传递到其上。