Rchr
J-GLOBAL ID:200901021082476615   Update date: Nov. 19, 2024

Otomo Junichiro

オオトモ ジュンイチロウ | Otomo Junichiro
Affiliation and department:
Institute of Science Tokyo Department of Transdisciplinary Science and Engineering, School of Environment and Society

About Institute of Science Tokyo Department of Transdisciplinary Science and Engineering, School of Environment and Society


Job title: Professor
Homepage URL  (1): http://www.tse.ens.titech.ac.jp/~otomolab/index.html
Research field  (1): Chemical reaction and process system engineering
Research keywords  (5): Reaction engineering ,  Solid state ionics ,  Energy system ,  Energy conversion device ,  Chemical engineering
Research theme for competitive and other funds  (10):
  • 2021 - 2025 電気化学的促進効果による窒素・炭素循環利用プロセスの構築と電気化学反応装置の開発
  • 2017 - 2021 Dynamically structural control and development of energy-storing type fuel cells based on ionic electronic transport
  • 2018 - 2019 化学ループ法による水素生成・二酸化炭素分離システムの開発
  • 2016 - 2018 化学ループ法による水素生成・二酸化炭素分離システムの開発
  • 2013 - 2017 Development of fast hydrogen production/storage system using interfacial ionic transport
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Papers (132):
  • Julián A. Ortiz-Corrales, Junichiro Otomo. Simulating transport of charged defects in BaZr0.8Y0.2O3-δ| BaZr0.1Ce0.7Y0.1Yb0.1O3-δ bilayer electrolytes using a Nernst-Planck- Poisson model. Solid State Ionics. 2024. 417. 116680-116680
  • Moe Okazaki, Junichiro Otomo. Ceria-iron electrocatalysts for ammonia electrosynthesis using protonic ceramic electrolysis cells. Solid State Ionics. 2024. 414. 116649-116649
  • Shun Yamate, Junichiro Otomo. Design of cost-effective and highly efficient systems for protonic ceramic fuel cells based on techno-economic analysis. Energy Conversion and Management. 2024. 301. 118016-118016
  • Julián A. Ortiz-Corrales, Hiroki Matsuo, Junichiro Otomo. Design and Fabrication of Protonic Ceramic Fuel Cells Based on BaZr0.8Y0.2O3-δ|BaZr0.1Ce0.7Y0.1Yb0.1O3-δ bilayer electrolyte. Journal of The Electrochemical Society. 2023. 170. 12. 124520-124520
  • Moe Okazaki, Junichiro Otomo. Electrode-Supported Protonic Ceramic Electrolysis Cells for Electrochemically Promoted Ammonia Synthesis at Intermediate Temperatures. ACS Omega. 2023. 8. 43. 40299-40308
more...
MISC (47):
  • Design and Techno-Economic Analysis of Fuel Cell and Water Electrolysis Systems using Cost Engineering. 2022. 22. 1. 56-64
  • SOFC Systems (Vol. 9): Techno-Economic Assessment of Hydrogen Energy Conversion/Storage Systems, Proposal Paper for Policy Making and Governmental Action toward Low Carbon Societies. 2022. LCS-FY2021-PP-11. 1-13
  • 菊地隆司, 久保田純, 大友順一郎, 里川重夫. 特集 カーボンニュートラルに向けた電解技術 「アンモニア電解合成」. 触媒. 2021. 63. 6. 367-373
  • Evaluations of Energy Conversion and Utilization Technologies for Hydrogen Economy, Proposal Paper for Policy Making and Governmental Action toward Low Carbon Societies. SOFC Systems (Vol. 8). 2021. LCS-FY2020-PP-02. pp1-15
  • 大友順一郎, 小城 元, 松尾 拓紀. 特集:プロトン伝導体の基礎研究開発状況 ランタン-タングステン系プロトン伝導体の輸送特性と高効率プロトン伝導性セラミック燃料電池の設計. 燃料電池. 2020. Vol.19. No.4. pp38-44
more...
Patents (6):
  • アンモニア電解合成用電解質-電極接合体
  • メタン製造装置、メタン製造方法、二酸化炭素回収装置、および、二酸化 炭素回収方法
  • 混合伝導体層を有する固体酸化物燃料電池
  • 触媒組成物、水素製造装置、および、水素製造方法
  • 高活性酸素キャリア材料の製造方法
more...
Books (11):
  • グリーンアンモニア合成・利用の新展開 : 社会実装に向けた製造技術から燃焼、水素キャリアとしての活用まで
    エヌ・ティー・エス 2023 ISBN:9784860438081
  • アンモニアの低温・低圧合成と新しい利用技術 : 燃焼・混焼技術、水素キャリア
    技術情報協会 2023 ISBN:9784861049538
  • 進化する燃料電池・二次電池 : 反応・構造・製造技術の基礎と未来社会を支える電池技術
    化学工学会関東支部,三恵社 (発売) 2019 ISBN:9784864879965
  • Strategy for Technology Development: Proposal
    2019
  • 電気化学・インピーダンス測定のデータ解析手法と事例集
    技術情報協会 2018 ISBN:9784861047305
more...
Lectures and oral presentations  (385):
  • Electrochemical Evaluation and Techno-Economic Analysis of Protonic Ceramic Fuel Cells with Bilayer Electrolyte
    (2024)
  • Structural Stability and Reaction Kinetic Analysis of Calcium Ferrite as an Oxygen Carrier in Chemical Looping Combustion
    (2024)
  • Effect of reducing gas and oxygen partial pressure on hydrogen formation reaction with chemical looping method
    (2024)
  • Solid state ionics and reaction systems for carbon neutrality
    (2024)
  • Effect of bilayer electrolyte thickness on protonic ceramic fuel cell performance
    (2024)
more...
Education (3):
  • - 1999 東京大学(大学院(博士))
  • - 1999 The University of Tokyo
  • - 1999 The University of Tokyo Graduate School, Division of Engineering Department of Chemical system Engineering
Professional career (1):
  • 博士(工学) (東京大学)
Work history (12):
  • 2021/01 - 現在 Tokyo Institute of Technology Department of Transdisciplinary Science and Engineering, School of Environment and Society Professor
  • 2007/01 - 2020/12 The University of Tokyo Graduate School of Frontier Sciences Associate professor
  • 2003 - 2006 Kogakuin University Faculty of Engineering, Department of Environmental Chemical Engineering
  • 2003 - 2006 Department of Environmental Chemical Engineering, Faculty of Engineering, Kogakuin University, Assistant Professor
  • 2006 - - 工学院大学工学部 環境化学工学科 助教授
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Committee career (3):
  • 2009/06 - 化学工学会エネルギー部会 幹事
  • 2008/04 - 化学工学会 リエゾン委員
  • 2005/04 - 2005/12 日本化学会 化工誌編集委員(2005年度)
Association Membership(s) (6):
American Institute of Chemical Engineers(AIChE) ,  International Society of Electrochemistry(ISE) ,  THE ELECTROCHEMICAL SOCIETY(ECS) ,  化学工学会 ,  日本化学会 ,  電気化学会
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