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公开(公告)号:US20140242299A1
公开(公告)日:2014-08-28
申请号:US14345148
申请日:2012-09-13
申请人: Masato Okamura , Tetsuo Oosato , Kazuo Murakami , Seiji Yamamoto , Hiroyuki Arai , Hidehiro Urata , Hajime Hirasawa , Osamu Shibasaki , Koji Negishi
发明人: Masato Okamura , Tetsuo Oosato , Kazuo Murakami , Seiji Yamamoto , Hiroyuki Arai , Hidehiro Urata , Hajime Hirasawa , Osamu Shibasaki , Koji Negishi
CPC分类号: C23F11/08 , C23F11/18 , C23F11/185 , C23F15/00 , G21C17/0225 , G21D3/08 , Y02E30/40
摘要: A method for injecting a corrosion inhibitor injecting an oxidant and an anticorrosive agent-pH adjusting agent complex including an anticorrosive agent and a pH adjusting agent adsorbed on a surface of the anticorrosive agent into high temperature water in contact with a surface of a metal structural material and irradiating the high temperature water with a radioactive ray or an ultraviolet ray, wherein the anticorrosive agent of the anticorrosive agent-pH adjusting agent complex has, on the surface of the anticorrosive agent, an active site where the pH adjusting agent reacts with the oxidant, and the pH adjusting agent present on the surface of the anticorrosive agent of the anticorrosive agent-pH adjusting agent complex and/or in the high temperature water is oxidized with the oxidant by the irradiation with the radioactive ray or the ultraviolet ray to change pH adjusting ability of the pH adjusting agent and shift a pH of the high temperature water to a neutral side, and thereby deposition of the anticorrosive agent 11 to the metal structural material 65 is accelerated.
摘要翻译: 一种将注入氧化剂的腐蚀抑制剂和防腐蚀剂 - pH调节剂复合物的方法,所述防腐蚀剂 - pH调节剂复合物包括吸附在防腐剂表面上的耐腐蚀剂和pH调节剂,所述抗腐蚀剂和pH调节剂与金属结构材料表面接触的高温水中 并用放射线或紫外线照射高温水,其中防腐剂 - pH调节剂复合物的防腐剂在防腐剂的表面上具有pH调节剂与氧化剂反应的活性位点 ,并且在抗腐蚀剂 - pH调节剂配合物的防腐剂的表面上和/或在高温水中存在的pH调节剂用氧化剂通过用放射线或紫外线照射而被氧化以改变pH 调节pH调节剂的能力并将高温水的pH值转移到中性侧,从而进行 加速了防锈剂11向金属结构材料65的沉积。
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公开(公告)号:US10006127B2
公开(公告)日:2018-06-26
申请号:US13812368
申请日:2011-07-26
IPC分类号: G21C9/00 , C23C26/00 , C23F11/08 , C23F11/18 , F28F19/06 , F01K21/06 , G21C19/307 , C23C18/12 , G21D1/00
CPC分类号: C23C26/00 , C23C18/1216 , C23C18/1241 , C23F11/08 , C23F11/18 , C23F11/185 , F01K21/06 , F28F19/06 , G21C19/307 , G21D1/00
摘要: In a plant including a system which is provided with a steam generator 2, a turbine 3, 5, a condenser 6 and a heater 7 and in which non-deaerated water circulates, and a pipe, the steam generator 2, the heater 7 and 8 of the system which comes into contact with the non-deaerated water is deposited with a protective substance.
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3.发明申请公开(公告)号:US20120225289A1
公开(公告)日:2012-09-06
申请号:US13510008
申请日:2010-11-16
申请人: Masato Okamura , Osamu Shibasaki , Koji Negishi , Seiji Yamamoto , Hajime Hirasawa , Kenji Yamazaki , Tetsuji Kaneko
发明人: Masato Okamura , Osamu Shibasaki , Koji Negishi , Seiji Yamamoto , Hajime Hirasawa , Kenji Yamazaki , Tetsuji Kaneko
CPC分类号: C09D5/08 , C08K3/22 , C08K3/26 , C08K5/098 , C08K2003/221 , C23F11/08 , C23F11/18 , C23F11/185 , F01D5/288 , F05D2220/31 , F16L58/08 , F22B37/025 , F22B37/108 , G21D1/00 , Y10T428/273
摘要: The present invention provides a corrosion-resistant structure for a high-temperature water system comprising: a structural material 1; and a corrosion-resistant film 3 formed from a substance containing at least one of La and Y deposited on a surface in a side that comes in contact with a cooling water 4, of the structural material 1 which constitutes the high-temperature water system that passes a cooling water 4 of high temperature therein. Due to above construction, there can be provided the corrosion-resistant structure and a corrosion-preventing method capable of operating a plant without conducting a water chemistry control of cooling water by injecting chemicals.
摘要翻译: 本发明提供一种用于高温水系统的耐腐蚀结构,包括:结构材料1; 以及由构成高温水系的结构体1的与冷却水4接触的一侧的表面上沉积的La和Y中的至少一种的物质形成的耐腐蚀膜3, 在其中通过高温冷却水4。 由于上述结构,可以提供耐蚀结构和能够通过注入化学物质而不进行冷却水的水化学控制来操作植物的防腐蚀方法。
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公开(公告)号:US20130182814A1
公开(公告)日:2013-07-18
申请号:US13812368
申请日:2011-07-26
IPC分类号: C23C26/00 , F01K21/06 , G21C19/307
CPC分类号: C23C26/00 , C23C18/1216 , C23C18/1241 , C23F11/08 , C23F11/18 , C23F11/185 , F01K21/06 , F28F19/06 , G21C19/307 , G21D1/00
摘要: In a plant including a system which is provided with a steam generator 2, a turbine 3, 5, a condenser 6 and a heater 7 and in which non-deaerated water circulates, and a pipe, the steam generator 2, the heater 7 and 8 of the system which comes into contact with the non-deaerated water is deposited with a protective substance.
摘要翻译: 在包括具有蒸汽发生器2,涡轮3,5,冷凝器6和加热器7并且其中没有脱气的水循环的系统的设备和管,蒸汽发生器2,加热器7和 与未脱气的水接触的系统8被保护物质沉积。
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公开(公告)号:US09410252B2
公开(公告)日:2016-08-09
申请号:US14345148
申请日:2012-09-13
申请人: Masato Okamura , Tetsuo Oosato , Kazuo Murakami , Seiji Yamamoto , Hiroyuki Arai , Hidehiro Urata , Hajime Hirasawa , Osamu Shibasaki , Koji Negishi
发明人: Masato Okamura , Tetsuo Oosato , Kazuo Murakami , Seiji Yamamoto , Hiroyuki Arai , Hidehiro Urata , Hajime Hirasawa , Osamu Shibasaki , Koji Negishi
IPC分类号: C23F11/18 , C23F11/08 , G21C17/022 , G21D3/08 , C23F15/00
CPC分类号: C23F11/08 , C23F11/18 , C23F11/185 , C23F15/00 , G21C17/0225 , G21D3/08 , Y02E30/40
摘要: A method for injecting a corrosion inhibitor injecting an oxidant and an anticorrosive agent-pH adjusting agent complex including an anticorrosive agent and a pH adjusting agent adsorbed on a surface of the anticorrosive agent into high temperature water in contact with a surface of a metal structural material and irradiating the high temperature water with a radioactive ray or an ultraviolet ray, wherein the anticorrosive agent of the anticorrosive agent-pH adjusting agent complex has, on the surface of the anticorrosive agent, an active site where the pH adjusting agent reacts with the oxidant, and the pH adjusting agent present on the surface of the anticorrosive agent of the anticorrosive agent-pH adjusting agent complex and/or in the high temperature water is oxidized with the oxidant by the irradiation with the radioactive ray or the ultraviolet ray to change pH adjusting ability of the pH adjusting agent and shift a pH of the high temperature water to a neutral side, and thereby deposition of the anticorrosive agent 11 to the metal structural material 65 is accelerated.
摘要翻译: 一种将注入氧化剂的腐蚀抑制剂和防腐蚀剂 - pH调节剂复合物的方法,所述防腐蚀剂 - pH调节剂复合物包括吸附在防腐剂表面上的耐腐蚀剂和pH调节剂,所述抗腐蚀剂和pH调节剂与金属结构材料表面接触的高温水中 并用放射线或紫外线照射高温水,其中防腐剂 - pH调节剂复合物的防腐剂在防腐剂的表面上具有pH调节剂与氧化剂反应的活性位点 ,并且在抗腐蚀剂 - pH调节剂配合物的防腐剂的表面上和/或在高温水中存在的pH调节剂用氧化剂通过用放射线或紫外线照射而被氧化以改变pH 调节pH调节剂的能力并将高温水的pH值转移到中性侧,从而进行 加速了防锈剂11向金属结构材料65的沉积。
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6.发明授权公开(公告)号:US09062878B2
公开(公告)日:2015-06-23
申请号:US13510008
申请日:2010-11-16
申请人: Masato Okamura , Osamu Shibasaki , Koji Negishi , Seiji Yamamoto , Hajime Hirasawa , Kenji Yamazaki , Tetsuji Kaneko
发明人: Masato Okamura , Osamu Shibasaki , Koji Negishi , Seiji Yamamoto , Hajime Hirasawa , Kenji Yamazaki , Tetsuji Kaneko
IPC分类号: B32B15/04 , B05D3/12 , B05D3/10 , F22B37/02 , C23F11/08 , C23F11/18 , F01D5/28 , F16L58/08 , F22B37/10 , G21D1/00
CPC分类号: C09D5/08 , C08K3/22 , C08K3/26 , C08K5/098 , C08K2003/221 , C23F11/08 , C23F11/18 , C23F11/185 , F01D5/288 , F05D2220/31 , F16L58/08 , F22B37/025 , F22B37/108 , G21D1/00 , Y10T428/273
摘要: The present invention provides a corrosion-resistant structure for a high-temperature water system comprising: a structural material 1; and a corrosion-resistant film 3 formed from a substance containing at least one of La and Y deposited on a surface in a side that comes in contact with a cooling water 4, of the structural material 1 which constitutes the high-temperature water system that passes a cooling water 4 of high temperature therein. Due to above construction, there can be provided the corrosion-resistant structure and a corrosion-preventing method capable of operating a plant without conducting a water chemistry control of cooling water by injecting chemicals.
摘要翻译: 本发明提供一种用于高温水系统的耐腐蚀结构,包括:结构材料1; 以及由构成高温水系的结构体1的与冷却水4接触的一侧的表面上沉积的La和Y中的至少一种的物质形成的耐腐蚀膜3, 在其中通过高温冷却水4。 由于上述结构,可以提供耐蚀结构和能够通过注入化学物质而不进行冷却水的水化学控制来操作植物的防腐蚀方法。
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公开(公告)号:US20110318223A1
公开(公告)日:2011-12-29
申请号:US13255765
申请日:2010-03-09
CPC分类号: C23F14/02 , C02F1/02 , C02F1/20 , C02F1/66 , C02F1/70 , C02F1/72 , C02F1/722 , C02F1/725 , C02F1/727 , C02F1/78 , C02F9/00 , C02F2209/06 , C02F2209/22 , C02F2303/08 , F22D1/003 , F22D11/00 , F28B1/02 , F28B9/00 , F28F19/00 , F28F19/01 , G21D1/02 , Y02E30/40
摘要: A method for controlling water chemistry in a power generation plant including a low-pressure feedwater heater (18), a deaerator (19), and a high-pressure feedwater heater (20) disposed sequentially along a feedwater pipe (16) from a condenser (15) to a steam generator or a boiler (11) to control the chemistry of feedwater guided to the steam generator or the boiler includes the steps of: injecting an oxidant through an oxidant injection line (31) into feedwater flowing through the feedwater pipe disposed downstream of the condenser in such a way that a dissolved oxygen concentration in the feedwater ranges from 3 to 100 ppb while the feedwater is maintained to be neutral to form an oxide film on surfaces of the feedwater pipe, the low-pressure feedwater heater, the deaerator, the high-pressure feedwater heater, and other structural members that come into contact with the feedwater; and injecting a deoxidant through a deoxidant injection line (35) into the feedwater flowing through the feedwater pipe disposed downstream of the deaerator in such a way that the dissolved oxygen concentration in the feedwater flowing into the steam generator or the boiler lowers to 5 ppb or lower.
摘要翻译: 一种用于控制发电设备中的水化学性质的方法,包括从冷凝器(16)沿着给水管(16)顺序设置的低压给水加热器(18),除气器(19)和高压给水加热器 (15)到蒸汽发生器或锅炉(11)以控制被引导到蒸汽发生器或锅炉的给水的化学性质包括以下步骤:将氧化剂通过氧化剂注入管线(31)注入到通过给水管道 设置在冷凝器的下游,使得给水中的溶解氧浓度范围为3至100ppb,同时将给水保持为中性,以在给水管,低压给水加热器, 脱气器,高压给水加热器和与给水接触的其他结构件; 以及通过脱氧剂注入管线(35)将脱氧剂注入流经脱气器下游的给水管的给水中,使得流入蒸汽发生器或锅炉的给水中的溶解氧浓度降至5ppb或 降低。
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公开(公告)号:US09758880B2
公开(公告)日:2017-09-12
申请号:US13255765
申请日:2010-03-09
IPC分类号: C23F11/00 , C23F11/02 , C02F1/20 , C02F1/72 , C02F1/02 , C23F14/02 , C02F1/78 , C02F9/00 , F22D1/00 , F22D11/00 , F28B1/02 , F28B9/00 , F28F19/00 , F28F19/01 , G21D1/02 , C02F1/68 , B01D5/00 , G21C9/00 , C02F1/70
CPC分类号: C23F14/02 , C02F1/02 , C02F1/20 , C02F1/66 , C02F1/70 , C02F1/72 , C02F1/722 , C02F1/725 , C02F1/727 , C02F1/78 , C02F9/00 , C02F2209/06 , C02F2209/22 , C02F2303/08 , F22D1/003 , F22D11/00 , F28B1/02 , F28B9/00 , F28F19/00 , F28F19/01 , G21D1/02 , Y02E30/40
摘要: A method for controlling water chemistry in a power generation plant including a low-pressure feedwater heater (18), a deaerator (19), and a high-pressure feedwater heater (20) disposed sequentially along a feedwater pipe (16) from a condenser (15) to a steam generator or a boiler (11) to control the chemistry of feedwater guided to the steam generator or the boiler includes the steps of: injecting an oxidant through an oxidant injection line (31) into feedwater flowing through the feedwater pipe disposed downstream of the condenser in such a way that a dissolved oxygen concentration in the feedwater ranges from 3 to 100 ppb while the feedwater is maintained to be neutral to form an oxide film on surfaces of the feedwater pipe, the low-pressure feedwater heater, the deaerator, the high-pressure feedwater heater, and other structural members that come into contact with the feedwater; and injecting a deoxidant through a deoxidant injection line (35) into the feedwater flowing through the feedwater pipe disposed downstream of the deaerator in such a way that the dissolved oxygen concentration in the feedwater flowing into the steam generator or the boiler lowers to 5 ppb or lower.
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公开(公告)号:US20110211663A1
公开(公告)日:2011-09-01
申请号:US13127503
申请日:2009-11-04
申请人: Yumi Yaita , Seiji Yamamoto , Hajime Hirasawa , Yutaka Uruma
发明人: Yumi Yaita , Seiji Yamamoto , Hajime Hirasawa , Yutaka Uruma
CPC分类号: G21F1/106 , G21C19/307 , G21D3/08 , Y02E30/40
摘要: A radiation exposure reduction method includes the steps of: injecting iron into a coolant which flows from the reactor cooling system to the reactor core in a nuclear power plant; and ferritizing and fixing radionuclides or parent nuclides thereof, which are contained in the coolant, on the surface of a reactor core structure, wherein an iron citrate which is soluble organic iron, or iron oxalate or iron fumarate which has a particle diameter of 3 μm or less, is used as the iron to be injected into the coolant.
摘要翻译: 放射线曝光降低方法包括以下步骤:将铁注入从反应堆冷却系统流到核电站中的反应堆堆芯的冷却剂中; 并且将包含在冷却剂中的放射性核素或其母体核素铁氧化并固定在反应堆芯结构的表面上,其中可溶性有机铁的柠檬酸铁或草酸铁或富马酸铁具有3μm的粒径 或更少,被用作要注入冷却剂的铁。
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公开(公告)号:US08798225B2
公开(公告)日:2014-08-05
申请号:US13127503
申请日:2009-11-04
申请人: Yumi Yaita , Seiji Yamamoto , Hajime Hirasawa , Yutaka Uruma
发明人: Yumi Yaita , Seiji Yamamoto , Hajime Hirasawa , Yutaka Uruma
CPC分类号: G21F1/106 , G21C19/307 , G21D3/08 , Y02E30/40
摘要: A radiation exposure reduction method includes the steps of: injecting iron into a coolant which flows from the reactor cooling system to the reactor core in a nuclear power plant; and ferritizing and fixing radionuclides or parent nuclides thereof, which are contained in the coolant, on the surface of a reactor core structure, wherein an iron citrate which is soluble organic iron, or iron oxalate or iron fumarate which has a particle diameter of 3 μm or less, is used as the iron to be injected into the coolant.
摘要翻译: 放射线曝光降低方法包括以下步骤:将铁注入从反应堆冷却系统流到核电站中的反应堆堆芯的冷却剂中; 并且将包含在冷却剂中的放射性核素或其母体核素铁氧化并固定在反应堆芯结构的表面上,其中可溶性有机铁的柠檬酸铁或草酸铁或富马酸铁具有3μm的粒径 或更少,被用作要注入冷却剂的铁。
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