Hydrazine and Hydrogen Co-injection to Mitigate Stress Corrosion Cracking of Structural Materials in Boiling Water Reactors, (III) Effects of Adding Hydrazine on Zircaloy-2 Corrosion
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概要
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The effects of hydrazine on the corrosion of Zircaloy-2 were examined in supercritical water. Hydrazine could be used as a reducing agent to control the corrosive environment for the coolant of boiling water reactors (BWRs). Before the corrosion test, the applicability of supercritical water for corrosion testing of zirconium alloys was studied. Supercritical water was found to be a useful solvent for testing corrosion based on the following facts: (1) the weight gain of Zircaloy-2 in supercritical water followed the same cubic law with the activation energy of 133 kJ/mol as that in water and steam did, and (2) the weight gain in supercritical water at 723 K and 24.5 MPa was more than 8 times greater than that in water at 561 K and 7.8 MPa depending on immersion time. The corrosion tests in supercritical water at 723 K and 24.5 MPa under γ-irradiation for 1,000 h were conducted to study the effects of adding nitrogen and ammonia on the corrosion of Zircaloy-2. Nitrogen and ammonia are decomposed products of hydrazine. The measured weight gain, oxide film thickness, and amount of hydrogen pick-up had slight differences between cases with and without the additives. Based on these data, it was concluded adding hydrazine to the coolant has little influence on the corrosion of Zircaloy-2 used in BWR cores.
- 社団法人 日本原子力学会の論文
- 2006-10-25
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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Fuse Motomasa
Power Systems Nuclear Engineering And Product Division 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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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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AIZAWA Motohiro
Power Systems, Hitachi Works, Hitachi, Ltd.
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KARASAWA Hidetoshi
Power & Industrial Systems R&D Laboratory, Hitachi Ltd.
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ENDOU Masao
Power & Industrial Systems R&D Laboratory, Hitachi Ltd.
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NISHINO Yoshitaka
Power & Industrial Systems R&D Laboratory, Hitachi Ltd.
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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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Endou Masao
Power & 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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Nishino Yoshitaka
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Karasawa Hidetoshi
Power & Industrial Systems R&d Laboratory Hitachi Ltd.
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Aizawa Motohiro
Hitachi-ge Nuclear Energy 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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