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公开(公告)号:US20070003408A1
公开(公告)日:2007-01-04
申请号:US11174369
申请日:2005-07-01
Applicant: Chan-sun Lim
Inventor: Chan-sun Lim
IPC: F04D29/56
CPC classification number: F01D17/16 , F01D17/165 , F05D2220/40 , F05D2260/70 , F05D2260/71 , F05D2260/72 , F05D2260/74 , F05D2260/78
Abstract: There is provided an adjustable vane turbine and turbine generator using the same, in which hydrodynamic properties are employed to adjust adjustable vanes automatically in response to flow condition such as the flow rate of the working fluid, thereby simplifying the system using the adjustable vanes and reducing cost. In the adjustable vane turbine, a turbine wheel is installed in a turbine housing and rotatably supported by a shaft, and a plurality of adjustable vanes are movably installed between the turbine housing and the turbine wheel, wherein each of the adjustable vanes includes an adjustable vane member having one end portion rotatably fixed to the turbine housing, a vane control element attached on one side of the adjustable vane member at a set angle, and a guide element attached on the other side of the adjustable vane member, the plurality of adjustable vanes being connected using links between neighboring vanes.
Abstract translation: 提供了一种可调式叶片涡轮机和使用其的涡轮发电机,其中使用流体动力特性来响应于流动条件(例如工作流体的流量)自动调节可调节叶片,从而简化了使用可调节叶片的系统,并减少了 成本。 在可调叶片涡轮机中,涡轮机叶轮安装在涡轮机壳体中并由轴可旋转地支撑,并且多个可调节叶片可移动地安装在涡轮机壳体和涡轮机叶轮之间,其中每个可调节叶片包括可调叶片 具有可旋转地固定到所述涡轮机壳体的一个端部的构件,以可设定的角度安装在所述可调节叶片构件的一侧上的叶片控制元件和附接在所述可调节叶片构件的另一侧上的引导元件,所述多个可调叶片 使用相邻叶片之间的连接来连接。
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公开(公告)号:US07448847B2
公开(公告)日:2008-11-11
申请号:US11174369
申请日:2005-07-01
Applicant: Chan-sun Lim
Inventor: Chan-sun Lim
IPC: F01D9/02
CPC classification number: F01D17/16 , F01D17/165 , F05D2220/40 , F05D2260/70 , F05D2260/71 , F05D2260/72 , F05D2260/74 , F05D2260/78
Abstract: There is provided an adjustable vane turbine and turbine generator using the same, in which hydrodynamic properties are employed to adjust adjustable vanes automatically in response to flow condition such as the flow rate of the working fluid, thereby simplifying the system using the adjustable vanes and reducing cost. In the adjustable vane turbine, a turbine wheel is installed in a turbine housing and rotatably supported by a shaft, and a plurality of adjustable vanes are movably installed between the turbine housing and the turbine wheel, wherein each of the adjustable vanes includes an adjustable vane member having one end portion rotatably fixed to the turbine housing, a vane control element attached on one side of the adjustable vane member at a set angle, and a guide element attached on the other side of the adjustable vane member, the plurality of adjustable vanes being connected using links between neighboring vanes.
Abstract translation: 提供了一种可调式叶片涡轮机和使用其的涡轮发电机,其中使用流体动力特性来响应于流动条件(例如工作流体的流量)自动调节可调节叶片,从而简化了使用可调节叶片的系统,并减少了 成本。 在可调叶片涡轮机中,涡轮机叶轮安装在涡轮机壳体中并由轴可旋转地支撑,并且多个可调节叶片可移动地安装在涡轮机壳体和涡轮机叶轮之间,其中每个可调节叶片包括可调叶片 具有可旋转地固定到所述涡轮机壳体的一个端部的构件,以可设定的角度安装在所述可调节叶片构件的一侧上的叶片控制元件和附接在所述可调节叶片构件的另一侧上的引导元件,所述多个可调叶片 使用相邻叶片之间的连接来连接。
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公开(公告)号:US09249728B2
公开(公告)日:2016-02-02
申请号:US13468218
申请日:2012-05-10
Applicant: Chan-Sun Lim , Myeong-Hyo Kim , Jong-Sub Shin , Young-Chang Shon , Jeong-Hun Lee
Inventor: Chan-Sun Lim , Myeong-Hyo Kim , Jong-Sub Shin , Young-Chang Shon , Jeong-Hun Lee
Abstract: A power generation system includes a compression unit which compresses a gas, a storage which stores the compressed gas output from the compression unit, a first expansion unit which generates first power and outputs a first exhaust gas, a heating unit which heats at least the stored gas output from the storage, a second expansion unit which generates second power and outputs a second exhaust gas, a first regenerator which performs a first heat exchange between the second exhaust gas and the stored gas output from the storage, to generate a first heat exchange gas used to generate the first power and a first regenerator gas, and a second regenerator which performs a second heat exchange between the first exhaust gas and the first regenerator gas to generate a second heat exchange gas used to generate the second power after heated at the heating unit.
Abstract translation: 发电系统包括压缩气体的压缩单元,存储从压缩单元输出的压缩气体的存储器,产生第一功率并输出第一排气的第一膨胀单元,至少加热存储的加热单元 从存储器输出的气体,产生第二功率并输出第二废气的第二膨胀单元,在第二排气和从储存器输出的储存气体之间进行第一热交换的第一再生器,以产生第一热交换 用于产生第一功率的气体和第一再生器气体;以及第二再生器,其在第一废气和第一再生器气体之间进行第二热交换,以产生用于在第二再生器加热后产生第二功率的第二热交换气体 加热单元
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公开(公告)号:US20130001948A1
公开(公告)日:2013-01-03
申请号:US13468218
申请日:2012-05-10
Applicant: Chan-Sun LIM , Myeong-Hyo KIM , Jong-Sub SHIN , Young-Chang SHON , Jeong-Hun LEE
Inventor: Chan-Sun LIM , Myeong-Hyo KIM , Jong-Sub SHIN , Young-Chang SHON , Jeong-Hun LEE
Abstract: A power generation system includes a compression unit which compresses a gas, a storage which stores the compressed gas output from the compression unit, a first expansion unit which generates first power and outputs a first exhaust gas, a heating unit which heats at least the stored gas output from the storage, a second expansion unit which generates second power and outputs a second exhaust gas, a first regenerator which performs a first heat exchange between the second exhaust gas and the stored gas output from the storage, to generate a first heat exchange gas used to generate the first power and a first regenerator gas, and a second regenerator which performs a second heat exchange between the first exhaust gas and the first regenerator gas to generate a second heat exchange gas used to generate the second power after heated at the heating unit.
Abstract translation: 发电系统包括压缩气体的压缩单元,存储从压缩单元输出的压缩气体的存储器,产生第一功率并输出第一排气的第一膨胀单元,至少加热存储的加热单元 从存储器输出的气体,产生第二功率并输出第二废气的第二膨胀单元,在第二排气和从储存器输出的储存气体之间进行第一热交换的第一再生器,以产生第一热交换 用于产生第一功率的气体和第一再生器气体;以及第二再生器,其在第一废气和第一再生器气体之间进行第二热交换,以产生用于在第一再生器加热后产生第二功率的第二热交换气体 加热单元
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