Maeda Koji

マエダコウジ | Maeda Koji

Affiliation and department：

Research field (1)： Nuclear engineering

Papers (35)：

Takasaki Koji, Yasumune Takashi, Yamaguchi Yukako, Hashimoto Makoto, Maeda Koji, Kato Masato. Estimation of the activity median aerodynamic diameter of plutonium particles using image analysis. Journal of Nuclear Science and Technology. 2023. 60. 11. 1437-1446
Kazama Hiroyuki, Konashi Kenji*, Suzuki Tatsuya*, Koyama Shinichi, Maeda Koji, Sekio Yoshihiro, Onishi Takashi, Abe Chikage*, Shikamori Yasuyuki*, Nagai Yasuyoshi*. Reaction of Np, Am, and Cm ions with CO$_{2}$ and O$_{2}$ in a reaction cell in triple quadrupole inductively coupled plasma mass spectrometry. Journal of Analytical Atomic Spectrometry. 2023. 38. 8. 1676-1681
Tsai T.-H., Sasaki Shinji, Maeda Koji. Data processing and visualization of X-ray computed tomography images of a JOYO MK-III fuel assembly. Journal of Nuclear Science and Technology. 2023. 60. 6. 715-723
Takashi Onishi, Koji Maeda, Kozo Katsuyama. Leaching behavior of radionuclides from samples prepared from spent fuel rod comparable to core debris in the 1F NPS. Journal of Nuclear Science and Technology. 2020
Shinji Sasaki, Koji Maeda, Hirotaka Furuya. Irradiation performance of sodium-bonded control rod for the fast breeder reactor. Journal of Nuclear Science and Technology. 2018. 55. 3. 276-282

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MISC (74)：

Ikeuchi Hirotomo, Sasaki Shinji, Onishi Takashi, Nakayoshi Akira, Arai Yoichi, Sato Takumi, Ohgi Hiroshi, Sekio Yoshihiro, Yamaguchi Yukako, Morishita Kazuki, et al. Analysis of deposits inside the reactor at Fukushima Daiichi Nuclear Power Station in JFY2021; The Subsidy program of "Project of Decommissioning and Contaminated Water Management (Development of Analysis and Estimation Technology for Characterization of Fuel Debris)" starting FY2021. JAEA-Data/Code 2023-005. 2023. 418
Koyama Shinichi, Ikeuchi Hirotomo, Mitsugi Takeshi, Maeda Koji, Sasaki Shinji, Onishi Takashi, Tsai T.-H., Takano Masahide, Fukaya Hiroyuki, Nakamura Satoshi, et al. Summary report in FY2022 of subsidy program for "the Project of Decommissioning and Contaminated Water Management (Development of Analysis and Estimation Technology for Characterization of Fuel Debris (Development of Technologies for Enhanced Analysis Accuracy, Thermal behavior Estimation, and Simplified Analysis of Fuel Debris)" started in FY2011. Hairo, Osensui, Shorisui Taisaku Jigyo Jimukyoku Homu Peji (Internet). 2023. 216
Kato Masato, Machida Masahiko, Hirooka Shun, Nakamichi Shinya, Ikusawa Yoshihisa, Nakamura Hiroki, Kobayashi Keita, Ozawa Takayuki, Maeda Koji, Sasaki Shinji, et al. Materials science and fuel technologies of uranium and plutonium mixed oxide. Materials Science and Fuel Technologies of Uranium and Plutonium mixed Oxide. 2022. 171
Ikeuchi Hirotomo, Koyama Shinichi, Osaka Masahiko, Takano Masahide, Nakamura Satoshi, Onozawa Atsushi, Sasaki Shinji, Onishi Takashi, Maeda Koji, Kirishima Akira*, et al. Development of technologies for enhanced analysis accuracy of fuel debris; Summary results of the 2020 fiscal year (Subsidy program for the project of decommissioning and contaminated water management). JAEA-Technology 2022-021. 2022. 224
Nakayoshi Akira, Mitsugi Takeshi, Sasaki Shinji, Maeda Koji. Analysis of deposits inside the reactor at Fukushima Daiichi Nuclear Power Station in JFY 2017-2018; The Subsidy programs "Project of Decommissioning and Contaminated Water Management in the FY2016 Supplementary Budget, (Development of Technologies for Grasping and Analyzing Properties of Fuel Debris). JAEA-Data/Code 2021-011. 2022. 279

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Lectures and oral presentations (98)：

None
(日本原子力学会2025年秋の大会)
None
(日本原子力学会2025年秋の大会)
Study on core disruptive accidents of metal-fueled sodium-cooled fast reactors, 4; Plan of the measurement for eutectic reaction rate between U-Pu-Zr alloys and stainless steel
(日本原子力学会2025年秋の大会)
Analysis of fuel debris obtained from inside the pedestal of Unit 2 of Fukushima Daiichi Nuclear Power Station, 11; Nuclide analysis of fuel debris dissolved by nitric acid
(日本原子力学会2025年秋の大会)
Analysis of fuel debris obtained from inside the pedestal of Unit 2 of Fukushima Daiichi Nuclear Power Station, 5; Characterization of isotope ratios of nuclides and microstructure in fuel debris by SIMS and TEM
(日本原子力学会2025年秋の大会)

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