Rchr
J-GLOBAL ID:200901014173506715   Update date: Sep. 24, 2024

Kitada Takanori

キタダ タカノリ | Kitada Takanori
Affiliation and department:
Research field  (1): Nuclear engineering
Research keywords  (2): 原子炉物理 ,  Reactor Physics
Research theme for competitive and other funds  (29):
  • 2012 - もんじゅ特進・三菱重工業(JST)「FBR燃料・炉心設計の特徴を考慮した燃料配置最適設定手法の開発 <再委託>
  • 2012 - もんじゅ特進・福井大 (JST)「太径・中空うペレットに対する評価方法の検証」<再委託>
  • 2011 - 核データ信頼性向上に関する調査・研究
  • 2011 - もんじゅ特進・三菱重工業(JST)「FBR燃料・炉心設計の特徴を考慮した燃料配置最適設定手法の開発 <再委託>
  • 2011 - PWR(加圧水型軽水炉)の未臨界時の中性子源強度シミュレーションに関する研究
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Papers (105):
  • Satoshi Takeda, Takanori Kitada. Bayesian Inference Based on Monte Carlo Technique for Multiplier of Performance Shaping Factor. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part B: Mechanical Engineering. 2024. 10. 4
  • Kouji HIRAIWA, Rei KIMURA, Satoshi WADA, Tsukasa SUGITA, Kenichi YOSHIOKA, Satoshi TAKEDA, Takanori KITADA. Fade-out time shortening on radiotoxicity and decay heat using TRU generation reduction fuel. Mechanical Engineering Journal. 2024. 11. 2. 23-00381
  • Satoshi Takeda, Takanori Kitada. Importance Measure Evaluation Based on Sensitivity Coefficient for Probabilistic Risk Assessment. Reliability Engineering & System Safety. 2023. 109205-109205
  • OKITA Takafumi, TAKEDA Satoshi, HOASHI Eiji, KITADA Takanori. Fundamental design activity of fast reactor with inherent safety characteristics for effective transmutation of minor actinide. Mechanical Engineering Journal. 2023. advpub
  • Yusei Shimamoto, Eiji Hoashi, Takanori Kitada, Satoshi Takeda, Takafumi Okita. Design range of Fast Reactor with Inherent Safety for Effective Transmutation of Minor Actinide: 1. Screening with constraint of negative void reactivity. International Conference on Nuclear Engineering, Proceedings, ICONE. 2023. 2023-May
more...
MISC (86):
  • Education Program of Nuclear Regulation by OJE in Osaka University. 2020. 62. 7. 395-399
  • 北田 孝典, 笠川 美沙紀, 中野 勇輝, 牟田 幹彦. 座談会 僕らは社会と原子力の懸け橋を目指す : 大阪大学大学院工学研究科環境・エネルギー工学専攻 修士1年のみなさん. Energy for the future. 2018. 42. 2. 11-17
  • ISHIZAWA Terushi, KITADA Takanori, NAKAMURA Takao, KAMAYA Masayuki. Fatigue crack initiation and growth model in simulated PWR primary coolant environment. The Proceedings of the Materials and Mechanics Conference. 2016. 2016. 0. OS09-4
  • FUJIKAWA Ryosuke, KITADA Takanori, NAKAMURA Takao, KAMAYA Masayuki. Environmental Effect on Low Cycle Fatigue Crack Growth of SUS316. Maintenology. 2016. 15. 2. 77-77
  • KITADA Takanori. 2B15 Human resource development of nuclear engineering in Osaka university. Proceedings of Annual Conference of Japanese Society for Engineering Education. 2016. 2016. 0. 212-213
more...
Books (1):
  • 独立行政法人日本学術振興会先導的研究開発委員会「原子力は未来技術たりえるか」報告書
    独立行政法人日本学術振興会 2016
Education (4):
  • - 1992 Osaka University
  • - 1992 Osaka University Graduate School, Division of Engineering
  • - 1990 Osaka University School of Engineering
  • - 1990 Osaka University Faculty of Engineering
Professional career (1):
  • 博士(工学) (大阪大学)
Association Membership(s) (1):
日本原子力学会
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