Effects of Liquid-Separation Components on Separation Performance of a Steam Separator
Author:
Publisher
The Japanese Society for Multiphase Flow
Subject
General Medicine
Link
https://www.jstage.jst.go.jp/article/jjmf/29/4/29_343/_pdf
Reference12 articles.
1. [1] Wolf, S. and Moen, R. H., Advances in Steam-Water Separators for Boiling Water Reactors, ASME Paper No.73-WA/PWR-4 (1973).
2. [2] Nakao, T., Murase, M., Ishida, N., Kawamura, T., Minato, A. and Moriya, K., Decreasing of Pressure Loss in BWR Steam Separator (1) (Evaluation Method of Gas-Liquid Separation), Japanese Journal of Multiphase Flow, Vol. 15(4), 382-389 (2001).
3. [3] Nakao, T., Murase, M., Ishida, N., Kawamura, T., Nishida, K. and Moriya, K., Decreasing of Pressure Loss in BWR Steam Separator (2) (Decreasing Method of Pressure Loss), Japanese Journal of Multiphase Flow, Vol. 15(4), 390-398 (2001).
4. [4] Ikeda, H., Takigawa, Y., Iwaki, C., Morooka, S., Yamazaki, Y., Yamada, K., Yagii, T. and Soneda, H., Development of Low-Pressure-Loss Steam Separator with Design by Analysis and Test (I) Validation of Analysis Method and Design of Low-Pressure-Loss Steam Separator, Trans. At. Energy Soc. Japan, Vol. 9(2), 109-117 (2010).
5. [5] Iwaki, C., Yamazaki, Y., Morooka, S., Yamada, K., Ikeda, H., Yagii, T. and Soneda, H., Development of Low-Pressure-Loss Steam Separator with Design by Analysis and Test (II) Verification of the Full-Scale Steam Separator Performance with Improved Swirler, Trans. At. Energy Soc. Japan, Vol. 9(2), 118-124 (2010).
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