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公开(公告)号:US09074480B2
公开(公告)日:2015-07-07
申请号:US13201516
申请日:2009-10-15
IPC分类号: F01K13/02 , F01K21/06 , B01D19/00 , F01B31/00 , F01K19/00 , F01K7/34 , F01K7/22 , F01D5/08 , F01D25/12 , F01D25/24 , F01K7/04 , F01K13/00
CPC分类号: F01D25/12 , F01D5/082 , F01D25/24 , F01K7/04 , F01K7/22 , F01K13/006 , F05D2220/31 , F05D2230/00 , F05D2260/201 , F05D2260/2322
摘要: A steam turbine of an opposed-current single-casing type has a high pressure turbine part and an intermediate-pressure turbine part housed in a single casing. A dummy ring partitions the high-pressure turbine part and the intermediate-pressure part, and a cooling steam supply path and a cooling steam discharge path are formed in the dummy ring in the radial direction. Extraction steam or discharge steam of the high-pressure turbine part, whose temperature is not less than that of the steam having passed through a first-stage stator blade, is supplied to the cooling steam supply path. The cooling steam is fed throughout the clearance to improve the cooling effect of the dummy ring and a turbine rotor. The cooling steam is then discharged through a cooling steam discharge path to a discharge steam pipe which supplies the steam to a subsequent steam turbine.
摘要翻译: 相对电流单壳式的蒸汽轮机具有容纳在单个壳体中的高压涡轮部分和中压涡轮机部分。 虚拟环分隔高压涡轮机部分和中压部分,并且在虚拟环中沿径向方向形成冷却蒸汽供给路径和冷却蒸汽排出路径。 提供蒸汽或蒸汽的高压涡轮部分,其温度不低于通过第一级定子叶片的蒸汽的蒸汽或排出蒸汽,被供应到冷却蒸汽供应通道。 冷却蒸汽通过间隙进给,以改善虚拟环和涡轮转子的冷却效果。 然后,冷却蒸汽通过冷却蒸汽排放路径排放到将蒸汽供应到随后的蒸汽涡轮机的排放蒸汽管。
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公开(公告)号:US20120023945A1
公开(公告)日:2012-02-02
申请号:US13201516
申请日:2009-10-15
CPC分类号: F01D25/12 , F01D5/082 , F01D25/24 , F01K7/04 , F01K7/22 , F01K13/006 , F05D2220/31 , F05D2230/00 , F05D2260/201 , F05D2260/2322
摘要: In a steam turbine 40 of opposed-current single-casing type in which a high pressure turbine part 31a and an intermediate-pressure turbine part 32a are housed in a single casing, a dummy ring 10 partitions the high-pressure turbine part 31a and the intermediate-pressure part 32a and a cooling steam supply path 101 and a cooling steam discharge path 103 are formed in the dummy ring 10 in the radial direction. Extraction steam or discharge steam s1 of the high-pressure turbine part 31a whose temperature is not less than that of the steam having passed through a first-stage stator blade 8a1, is supplied to the cooling steam supply path 101. The cooling steam s1 is fed throughout the clearance 721 and 723 to improve the cooling effect of the dummy ring 10 and a turbine rotor 7. The cooling steam s1 is then discharged through the cooling steam discharge path 103 to a discharge steam pipe 44 which supplies the steam to a subsequent steam turbine.
摘要翻译: 在高压涡轮部31a和中压涡轮部32a容纳在单个壳体中的相对电流单壳式的蒸汽轮机40中,假环10将高压涡轮部31a和 中间部分32a和冷却蒸汽供给路径101以及冷却蒸汽排出路径103沿径向方向形成在虚拟环10中。 将不低于通过第一级定子叶片8a1的蒸汽的高压涡轮部31a的抽出蒸汽或排出蒸汽s1供给到冷却水供给路径101.冷却蒸汽s1为 通过间隙721和723输送,以改善虚拟环10和涡轮机转子7的冷却效果。冷却蒸汽s1然后通过冷却蒸汽排放路径103排放到排出蒸气管44,该蒸汽管44将蒸汽供应到随后的 汽轮机。
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公开(公告)号:US08794913B2
公开(公告)日:2014-08-05
申请号:US12674249
申请日:2009-07-30
CPC分类号: F01D5/063 , F01D25/24 , F01K7/18 , F05C2201/0466 , F05D2220/31 , F05D2300/175
摘要: A steam turbine facility suppresses the possibility of vibration from occurring and prevents a drastic increase in facility cost, thereby realizing an increase in size of the facility, even if steam conditions of 650° C. or higher are adopted. In the steam turbine facility including a high-pressure turbine, an intermediate-pressure turbine, and a low-pressure turbine, the intermediate-pressure turbine is separated into a first intermediate-pressure turbine on a high-temperature and high-pressure side and a second intermediate-pressure turbine on a low-temperature and low-temperature side. At least any one of the rotors and casings of the steam-introduction-side turbines into which steam with a temperature of 650° C. or higher is introduced is formed from Ni-based alloy, and at least any one of the overall rotors and the overall casings of the turbines are constructed by joining together a plurality of rotor members or casing members by welding.
摘要翻译: 蒸汽轮机设备抑制振动发生的可能性,并且防止设备成本的急剧增加,从而即使采用650℃以上的蒸气条件,也能实现设备尺寸的增加。 在包括高压涡轮机,中压涡轮机和低压涡轮机的汽轮机设备中,将中压涡轮机分离成高温高压侧的第一中压涡轮机, 在低温低温侧的第二中压涡轮机。 导入温度为650℃以上的蒸汽的蒸汽引入侧涡轮机的转子和壳体中的至少一个由Ni基合金形成,并且至少全部转子和 通过焊接将多个转子构件或壳体构件接合在一起构成涡轮机的整体壳体。
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公开(公告)号:US20110030374A1
公开(公告)日:2011-02-10
申请号:US12674073
申请日:2009-07-30
IPC分类号: F01K23/16
CPC分类号: F01D5/063 , F01D13/003 , F01D13/02 , F01D25/24 , F01K7/22 , F05C2201/0466 , F05D2220/31
摘要: Provided is a steam turbine facility capable of suppressing the possibility of vibration occurrence and a drastic increase in facility cost, thereby realizing an increase in size of the facility, even if steam conditions of 650° C. or higher are adopted. In a steam turbine facility including a high-pressure turbine, an intermediate-pressure turbine, and a low-pressure turbine, the high-pressure turbine is separated into a first high-pressure turbine part on a high-temperature and high-pressure side and a second high-pressure turbine part on a low-temperature and low-pressure side, the intermediate-pressure turbine is separated into a first intermediate-pressure turbine part on the high-temperature and high-pressure side and a second intermediate-pressure turbine part on the low-temperature and low-temperature side, the first high-pressure turbine part and the first intermediate-pressure turbine part are integrated to form a first integrated part, the second high-pressure turbine part and the second intermediate-pressure turbine part are integrated to form a second integrated part, at least any one of the rotors and casings of the turbines into which steam with a temperature of 650° C. or higher is introduced are constructed by joining together a plurality of members formed from Ni-based alloy through welding as a whole.
摘要翻译: 提供一种能够抑制振动发生的可能性和设备成本急剧增加的汽轮机设备,即使采用650℃以上的蒸汽条件,也能够实现设备尺寸的增加。 在包括高压涡轮机,中压涡轮机和低压涡轮机的蒸汽轮机设备中,高压涡轮机被分离成高温高压侧的第一高压涡轮机部件 以及低温低压侧的第二高压涡轮机部,将中压涡轮机分离成高温侧和高压侧的第一中压涡轮部,第二中压 涡轮机部分在低温低温侧,第一高压涡轮机部分和第一中压涡轮部分被一体化以形成第一集成部分,第二高压涡轮部分和第二中压 涡轮部分被一体化以形成第二集成部件,引入涡轮的转子和壳体中的至少任一个,其中引入了650℃或更高的温度的蒸汽,通过连接 通过焊接整体由Ni基合金形成的多个部件组合在一起。
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公开(公告)号:US20100202876A1
公开(公告)日:2010-08-12
申请号:US12674249
申请日:2009-07-30
CPC分类号: F01D5/063 , F01D25/24 , F01K7/18 , F05C2201/0466 , F05D2220/31 , F05D2300/175
摘要: Provided is a steam turbine facility capable of suppressing the possibility of vibration occurrence and a drastic increase in facility cost, thereby realizing an increase in size of the facility, even if steam conditions of 650° C. or higher are adopted. In a steam turbine facility including a high-pressure turbine, an intermediate-pressure turbine, and a low-pressure turbine, the intermediate-pressure turbine is separated into a first intermediate-pressure turbine on a high-temperature and high-pressure side and a second intermediate-pressure turbine on a low-temperature and low-temperature side, at least any one of the rotors and casings of the steam-introduction-side turbines into which steam with a temperature of 650° C. or higher is introduced is formed from Ni-based alloy, and at least any one of the overall rotors and the overall casings of the turbines are constructed by joining together a plurality of rotor members or casing members by welding.
摘要翻译: 提供一种能够抑制振动发生的可能性和设备成本急剧增加的汽轮机设备,即使采用650℃以上的蒸汽条件,也能够实现设备尺寸的增加。 在包括高压涡轮机,中压涡轮机和低压涡轮机的汽轮机设备中,将中压涡轮分离成高温高压侧的第一中压涡轮机, 在低温低温侧的第二中压涡轮机,导入650℃以上的蒸汽的蒸汽导入侧涡轮机的转子和壳体中的至少一个转子和壳体是 由Ni基合金形成,并且通过焊接将多个转子部件或壳体部件接合在一起而构成涡轮机的整体转子和整体壳体中的至少任一个。
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公开(公告)号:US08911880B2
公开(公告)日:2014-12-16
申请号:US12674242
申请日:2009-06-11
申请人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
发明人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
CPC分类号: F01D5/063 , B23K31/02 , B23K2101/001 , B23K2101/06 , B23K2103/04 , B23K2103/05 , B23K2103/18 , B23K2103/26 , F05D2300/132 , Y10T29/4932 , Y10T428/12937
摘要: A turbine rotor which is composed by connecting Ni-based alloy and heat resisting steel such as 12-Cr steel by welding to be able to ensure strength of welded parts and can be used under steam conditions of 700° C. class and method of manufacturing the rotor are also provided. The rotor of the rotating machine into which working fluid of 650° C. or higher is introduced, the rotor being composed of a plurality of members connected by welding such that material of each member is different in accordance with temperature of working fluid which flows contacting the members, wherein the first member(s) is formed from Ni-based alloy having mean linear expansion coefficient of 12.4×10−6/° C.˜14.5×10−6/° C., preferably 14.0×10−6/° C. or smaller within a temperature range from a room temperature to 700° C. and second member(s) is formed from high-chrome steels, and the rotor is composed such that the first member(s) formed from Ni-base alloy is located in a portion which contact to the working fluid of 650° C. or higher.
摘要翻译: 涡轮转子,其通过焊接连接Ni基合金和耐热钢如12-Cr钢,以确保焊接部件的强度,并且可以在700℃的蒸汽条件下使用等级和制造方法 还提供转子。 引入650℃以上工作流体的旋转机械的转子,转子由多个通过焊接连接的构件构成,使得每个构件的材料根据流动接触的工作流体的温度而不同 所述构件的第一构件由平均线膨胀系数为12.4×10 -6 /℃〜14.5×10 -6 /℃的Ni基合金形成,优选为14.0×10 -6 / ℃以下,在室温〜700℃的温度范围内,第二构件由高铬钢形成,转子构成为由Ni基形成的第一构件 合金位于与工作流体650℃以上接触的部分。
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7.发明授权Ni-based alloy high-chrome steel structure and manufacturing method of the same 有权镍基合金高铬钢结构及其制造方法相同公开(公告)号:US08603265B2
公开(公告)日:2013-12-10
申请号:US12673414
申请日:2009-06-11
申请人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
发明人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
CPC分类号: F01D5/063 , B23K35/004 , B23K35/308 , B23K2101/001 , B23K2101/04 , B23K2101/18 , B23K2103/04 , B23K2103/18 , B23K2103/26 , C21D6/02 , C21D9/50 , C22C19/05 , C22C19/053 , C22C19/057 , C22C38/001 , C22C38/04 , C22C38/18 , C22C38/22 , C22C38/24 , C22C38/26 , C22F1/10 , F05D2230/40
摘要: There are provided an Ni-based alloy high-chrome steel structure and its manufacturing method capable of joining Ni-based alloys and high-chrome steels by welding, and performing suitable heat treatment, thereby maintaining the strength in the joints. In a manufacturing method of a structure formed by joining together at least two first members formed from Ni-based alloys by welding, and joining a second member formed from high-chrome steels to a member where the first members have been joined together, the manufacturing method includes the steps: joining together the at least two first members formed from Ni-based alloys by welding; performing first-stage aging treatment on a welded joint between the first members, and then, joining the second member formed from high-chrome steels to the member where the first members have been joined together by welding; and then, performing second-stage aging treatment on the welded joint between the first members, and performing heat treatment after welding on a welded portion between the first members and the second member.
摘要翻译: 提供了一种Ni基合金高铬钢结构及其制造方法,其能够通过焊接将Ni系合金和高铬钢接合,进行适当的热处理,从而保持接合部的强度。 在通过焊接将由Ni基合金形成的至少两个第一部件连接在一起而形成的结构体的制造方法中,将从高铬钢形成的第二部件与第一部件接合的部件接合在一起, 方法包括以下步骤:通过焊接将由Ni基合金形成的至少两个第一构件接合在一起; 在第一构件之间的焊接接头上执行第一阶段时效处理,然后通过焊接将由高铬钢形成的第二构件接合到第一构件已经接合在一起的构件; 然后对第一构件之间的焊接接头进行第二阶段时效处理,并且在第一构件和第二构件之间的焊接部分上进行焊接后的热处理。
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公开(公告)号:US09085993B2
公开(公告)日:2015-07-21
申请号:US12958884
申请日:2010-12-02
CPC分类号: F01D25/12 , F01D5/08 , F01D5/082 , F01D21/003 , F05D2220/31 , F05D2260/2322
摘要: It is intended to effectively cool a dummy ring and a rotor disposed on the inner side of the dummy ring of a single-flow turbine and to suppress a decrease in thermal efficiency by preventing main steam from leaking to the dummy ring side. A cooling steam supply pipe 32 is provided in the dummy ring 26 of the single-flow turbine 10A and extraction steam of a boiler at 570° C. or below is supplied to a clearance c between the dummy ring 26 and the turbine rotor 12 as cooling steam S4. The cooling steam S4 has lower temperature and higher pressure than leak steam S2 which is a portion of the main steam S1 leaking to the dummy ring 26 side. By supplying the cooling steam S4, the leak steam S2 is prevented from entering the dummy ring 26 side and the dummy ring 26, a welding part w and a second rotor part 12b with low heat resistance that are disposed on the inner side of the dummy ring 26 can be cooled.
摘要翻译: 旨在有效地冷却设置在单流式涡轮机的虚拟环的内侧的虚拟环和转子,并且通过防止主蒸汽泄漏到虚拟环侧来抑制热效率的降低。 在单流量涡轮机10A的假环26中设置有冷却蒸汽供给管32,并且在570℃以下的锅炉的抽取蒸汽被供给到虚拟环26和涡轮转子12之间的间隙c,作为 冷却蒸汽S4。 冷却蒸汽S4比作为泄漏到虚拟环26侧的主蒸汽S1的一部分的泄漏蒸汽S2具有更低的温度和更高的压力。 通过供给冷却蒸汽S4,能够防止泄漏蒸汽S2进入虚拟环26一侧,将虚拟环26,具有低耐热性的焊接部w和第二转子部12b配置在虚拟的内侧 环26可以被冷却。
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9.发明申请公开(公告)号:US20110126945A1
公开(公告)日:2011-06-02
申请号:US12673414
申请日:2009-06-11
申请人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
发明人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
CPC分类号: F01D5/063 , B23K35/004 , B23K35/308 , B23K2101/001 , B23K2101/04 , B23K2101/18 , B23K2103/04 , B23K2103/18 , B23K2103/26 , C21D6/02 , C21D9/50 , C22C19/05 , C22C19/053 , C22C19/057 , C22C38/001 , C22C38/04 , C22C38/18 , C22C38/22 , C22C38/24 , C22C38/26 , C22F1/10 , F05D2230/40
摘要: There are provided an Ni-based alloy high-chrome steel structure and its manufacturing method capable of joining Ni-based alloys and high-chrome steels by welding, and performing suitable heat treatment, thereby maintaining the strength in the joints. In a manufacturing method of a structure formed by joining together at least two first members formed from Ni-based alloys by welding, and joining a second member formed from high-chrome steels to a member where the first members have been joined together, the manufacturing method includes the steps: joining together the at least two first members formed from Ni-based alloys by welding; performing first-stage aging treatment on a welded joint between the first members, and then, joining the second member formed from high-chrome steels to the member where the first members have been joined together by welding; and then, performing second-stage aging treatment on the welded joint between the first members, and performing heat treatment after welding on a welded portion between the first members and the second member.
摘要翻译: 提供了一种Ni基合金高铬钢结构及其制造方法,其能够通过焊接将Ni系合金和高铬钢接合,进行适当的热处理,从而保持接合部的强度。 在通过焊接将由Ni基合金形成的至少两个第一部件连接在一起而形成的结构体的制造方法中,将从高铬钢形成的第二部件与第一部件接合的部件接合在一起, 方法包括以下步骤:通过焊接将由Ni基合金形成的至少两个第一构件接合在一起; 在第一构件之间的焊接接头上执行第一阶段时效处理,然后通过焊接将由高铬钢形成的第二构件接合到第一构件已经接合在一起的构件; 然后对第一构件之间的焊接接头进行第二阶段时效处理,并且在第一构件和第二构件之间的焊接部分上进行焊接后的热处理。
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公开(公告)号:US20100296938A1
公开(公告)日:2010-11-25
申请号:US12674242
申请日:2009-06-11
申请人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
发明人: Shin Nishimoto , Takashi Nakano , Yoshinori Tanaka , Tatsuaki Fujikawa , Kenji Kawasaki , Yoshikuni Kadoya , Ryuichi Yamamoto , Yuichi Hirakawa , Takashi Shige
CPC分类号: F01D5/063 , B23K31/02 , B23K2101/001 , B23K2101/06 , B23K2103/04 , B23K2103/05 , B23K2103/18 , B23K2103/26 , F05D2300/132 , Y10T29/4932 , Y10T428/12937
摘要: A turbine rotor which is composed by connecting Ni-based alloy and heat resisting steel such as 12-Cr steel by welding to be able to ensure strength of welded parts and can be used under steam conditions of 700° C. class and method of manufacturing the rotor are also provided. The rotor of the rotating machine into which working fluid of 650° C. or higher is introduced, the rotor being composed of a plurality of members connected by welding such that material of each member is different in accordance with temperature of working fluid which flows contacting the members, wherein the first member(s) is formed from Ni-based alloy having mean linear expansion coefficient of 12.4×10−6/° C.˜14.5×10−6/° C., preferably 14.0×10−6/° C. or smaller within a temperature range from a room temperature to 700° C. and second member(s) is formed from high-chrome steels, and the rotor is composed such that the first member(s) formed from Ni-base alloy is located in a portion which contact to the working fluid of 650° C. or higher.
摘要翻译: 涡轮转子,其通过焊接连接Ni基合金和耐热钢如12-Cr钢,以确保焊接部件的强度,并且可以在700℃的蒸汽条件下使用等级和制造方法 还提供转子。 引入650℃以上工作流体的旋转机械的转子,转子由多个通过焊接连接的构件构成,使得每个构件的材料根据流动接触的工作流体的温度而不同 所述构件的第一构件由平均线膨胀系数为12.4×10 -6 /℃〜14.5×10 -6 /℃的Ni基合金形成,优选为14.0×10 -6 / ℃以下,在室温〜700℃的温度范围内,第二构件由高铬钢形成,转子构成为由Ni基形成的第一构件 合金位于与工作流体650℃以上接触的部分。
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