Hydrogen and Hydrazine Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors, (VI) The Effect of Ammonia on Intergranular Stress Corrosion Cracking
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概要
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Hydrogen and hydrazine co-injection into a boiling water reactor was considered as a new mitigation method of stress corrosion cracking (SCC). In this method, some amount of ammonia will be formed by the decomposition of hydrazine. The effect of ammonia on SCC susceptibility was studied over a wide range of electrochemical corrosion potentials (ECPs) in 288°C water by conducting slow strain rate technique SCC experiments (SSRTs). ECP was changed from −0.6 V versus the standard hydrogen electrode (V(SHE)) to 0.1 V(SHE) by controlling dissolved oxygen concentration. Ammonia concentration was controlled to have values of 100 and 530 ppb. Similarly, sulfuric acid was injected to confirm the difference in the effect of injected chemical compounds on SCC susceptibility. The intergranular stress corrosion cracking (IGSCC) fraction, which was used as the index of SCC susceptibility, decreased with decreasing ECP for the case of no chemical injection. Sulfuric acid enhanced the IGSCC fraction. These data were in good agreement with literature data. On the other hand, ammonia at less than 530 ppb did not affect IGSCC fraction. It is expected that 51–280 ppb hydrazine and 0–53 ppb hydrogen will be injected into reactor water to mitigate SCC in BWRs. In the bottom region of the reactor pressure vessel, ECP and ammonia concentration will be −0.1 V(SHE) and 15–60 ppb, respectively. Under these conditions, ammonia did not affect SCC susceptibility. So SCC susceptibility will be mitigated by decreasing the ECP using hydrazine and hydrogen co-injection.
- 社団法人 日本原子力学会の論文
- 2007-12-25
著者
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Fuse Motomasa
Hitachi Works, Hitachi-GE Nuclear Energy, Ltd.
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Wada Y
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Wada Yoichi
Power And Industrial Systems R& D Division Hitachi Ltd.
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Fuse Motomasa
Hitachi Works Hitachi-ge Nuclear Energy Ltd.
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Wada Yoichi
Energy And Environmental Systems Lab. Hitachi Ltd.
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Wada Yoichi
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Ishigure Kenkichi
Quantum Science And Energy Engineering Department Graduate School Of Engineering Tohoku University
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Ishigure K
Department Of Quantum Engineering And Systems Science The University Of Tokyo
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Wada Yoichi
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Kadoi Eiichi
The Japan Atomic Power Co.
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TACHIBANA Masahiko
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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ISHIDA Kazushige
Power and Industrial Systems R&D Laboratory, Hitachi, Ltd.
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AIZAWA Motohiro
Hitachi-GE Nuclear Energy, Ltd.
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TAKIGUCHI Hideki
The Japan Atomic Power Co.
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Iinuma Kouichi
Department Of Quantum Science And Energy Engineering Graduate School Of Engineering Tohoku Universit
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Fuse Motomasa
Hitachi-ge Nuclear Energy Ltd.
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Ishida Kazushige
Power And Industrial Systems R&d Laboratory Hitachi Ltd.
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Tachibana Masahiko
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Aizawa Motohiro
Hitachi-ge Nuclear Energy Ltd.
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Aizawa Motohiro
Hitachi Engineering Co. Ltd.
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Ishida Kazushige
Energy And Environmental Systems Laboratory Hitachi Ltd.
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Ishida Kazushige
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Wada Yoichi
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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AIZAWA Motohiro
Hitachi Engineering Co.
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