京都大学大学院工学研究科化学工学専攻

反応工学研究分野(3講座)

研究業績Publication

査読付き論文 / 総説・解説 / 著書 / 2015年以前

学会発表は こちら

査読付き論文

[2024年]
  1. "Carbon-supported metal nanoparticle catalysts for dehydrogenation of formic acid and hydrogenation of polyols"
    H. Fujitsuka*,
    J. Jpn. Petrol. Inst., 67(2) (2024) 52–60. DOI: 10.1627/jpi.67.52
[2023年]
  1. "Hydrogen and oxygen permeability through PEFC membrane and membrane electrode assembly"
    M. Kageyama, B. Balci, S. Danjo, K. Nakamichi, M. Kawase*
    ECS Trans., 112(4) (2023) 291–303. DOI: 10.1149/11204.0291ecst
  2. "Quantification method of mass transfer resistance in cathode catalyst layer in PEFC"
    H. Ogawa, Y. Okada, M. Kageyama, H. Gyoten, S. Murakami, M. Kawase*
    ECS Trans., 112(4) (2023) 121–133. DOI: 10.1149/11204.0121ecst
  3. "Investigation of the distribution of the mass transport and reaction rates in a fuel cell by the integrated fuel cell system simulator including the dynamics of air, H2, and cooling systems"
    S. Hasegawa, S. Kim, Y. Ikogi, M. Kageyama, M. Kawase*
    ECS Trans., 112(4) (2023) 3–35. DOI: 10.1149/11204.0003ecst
  4. "Vision 2050: Reaction Engineering Roadmap"
    P. Bollini, M. Diwan, P. Gautam, R. L. Hartman, D. A. Hickman*, M. Johnson, M. Kawase, M. Neurock, G. S. Patience, A. Stottlemyer, D. G. Vlachos, B. Wilhite*
    ACS Eng. Au, (2023) in press. DOI: 10.1021/acsengineeringau.3c00023
  5. "Effects of gas macromixing in polymer electrolyte fuel cell"
    Y. Ma, M. Kageyama, M. Kawase*
    J. Electrochem. Soc., 170 (2023) 084506. DOI: 10.1149/1945-7111/aceb8c
  6. "Selective oxidation of allylbenzene to cinnamaldehyde over BiMoOx loaded CoFeMoOx catalysts and kinetic analysis including oxygen transfer of CoFeMoOx support"
    H. Fujitsuka*, M. Doike, F. Saito, R. Imaizumi, T. Sakanushi, T. Tago
    Ind. Eng. Chem. Res., 62(21) (2023) 8232–8243. DOI: 10.1021/acs.iecr.3c00536
  7. "Development of a novel mild depolymerization method of coal by combining oxygen oxidation and formic acid reduction reactions"
    J. Ren, R. Ashida*, M. Kawase, K. Sakai, N. Okuyama
    ACS Omega, 8(2) (2023) 2351–2357. DOI: 10.1021/acsomega.2c07006
[2022年]
  1. "Development of multi-purpose dynamic physical model of fuel cell system"
    S. Hasegawa, S. Matsumoto, Y. Ikogi, T. Takahashi, S. Kim, M. Kageyama, M. Kawase
    Compt. Aided Chem. Eng., 49 (2022) 1909–1914. DOI: 10.1016/B978-0-323-85159-6.50318-3
  2. "Model-based development of fuel cell stack"
    S. Hasegawa, Y. Miyamoto, S. Kim, Y. Ikogi, M. Kageyama, M. Kawase
    Compt. Aided Chem. Eng., 49 (2022) 1123–1128. DOI: 10.1016/B978-0-323-85159-6.50187-1
  3. "Dynamic water transport through the perfluorinated sulfonic-acid membrane"
    M. Kageyama, K. Lu, K. Nakamichi, M. Kawase
    ECS Trans., 109(9) (2022) 327–345. DOI: 10.1149/10909.0327ecst
  4. "Effects of partially narrowed flow channel on performance of polymer electrolyte fuel cell"
    Y. Ma, H. Gyoten, M. Kageyama, M. Kawase
    ECS Trans., 109(9) (2022) 171–197. DOI: 10.1149/10909.0171ecst
  5. "Analysis method of oxygen permeation resistance of ionomer in cathode catalyst layer in PEFC"
    H. Ogawa, M. Kageyama, H. Gyoten, M. Kawase
    ECS Trans., 109(9) (2022) 153–167. DOI: 10.1149/10909.0153ecst
  6. "Modeling of the dynamic behavior of an integrated fuel cell system including fuel cell stack, air system, hydrogen system, and cooling system"
    S. Hasegawa, Y. Ikogi, S. Kim, M. Kageyama, M. Kawase
    ECS Trans., 109(9) (2022) 15–70. DOI: 10.1149/10909.0015ecst
  7. "Development of Silicalite-1-encapsulated Ni catalyst from Ni phyllosilicate for dry reforming of methane"
    Y. Zhang, R. Takahashi, K. Kimura, H. Fujitsuka, T. Tago*
    Catal. Surv. Asia, 27 (2023) 56–66. DOI: 10.1007/s10563-022-09379-3
  8. "Selective xylose hydrogenation to xylitol with Cu@C prepared from ion exchange resin under relatively low hydrogen pressure"
    H. Fujitsuka*, R. Kanomata, Y. Yamaguchi, M. Kawase, T. Tago
    Catal. Surv. Asia, 27 (2023) 29–38. DOI: 10.1007/s10563-022-09377-5
  9. "Hydrodeoxygenation of C3–4 polyols to C3–4 diols over carbon-supported bimetallic MgCu@C catalysts prepared from ion exchange resin"
    W. Wang, T. Tago, H. Fujitsuka*
    Catal. Today, 411–412 (2023) 113827. DOI: 10.1016/j.cattod.2022.06.042
[2021年]
  1. "Performance of PEFC under different gas-mixing conditions"
    Y. Ma, M. Kageyama, M. Kawase*
    ECS Trans., 104(8) (2021) 205–220. DOI: 10.1149/10408.0205ecst
  2. "Analysis method of oxygen reduction reaction rate in PEFC using Pt-sputtered catalyst"
    H. Ogawa, M. Kageyama, M. Kawase*
    ECS Trans., 104(8) (2021) 45–58. DOI: 10.1149/10408.0045ecst
  3. "Modeling of fuel cell stack for high-speed computation and implementation to integrated system model"
    S. Hasegawa, M. Kimata, Y. Ikogi, M. Kageyama, S. Kim, M. Kawase
    ECS Trans., 104(8) (2021) 3–26. DOI: 10.1149/10408.0003ecst
  4. "Development of Silicalte-1-encapsulated Ni nanoparticle catalyst from amorphous-silica-coated Ni for dry reforming of methane: Achieving coke formation suppression and high thermal stability"
    H. Fujitsuka, T. Kobayashi, T. Tago*
    J. CO2 Util., 53 (2021) 101707. DOI: 10.1016/j.jcou.2021.101707
  5. "Selective aqueous phase hydrodeoxygenation of erythritol over carbon-supported Cu catalyst prepared from ion-exchange resin"
    W. Wang, K. Nakagawa, T. Yoshikawa, T. Masuda, E. Fumoto, Y. Koyama, H. Fujitsuka*, T. Tago
    Appl. Catal. A: Gen., 619 (2021) 118152. DOI: 10.1016/j.apcata.2021.118152
[2020年]
  1. "High efficiency operation conditions in polymer electrolyte fuel cell system with hydrogen circulation"
    Y. Ma, K. Yamaguchi, M. Kageyama, M. Kawase
    ECS Trans., 98(9) (2020) 291–303. DOI: 10.1149/09809.0291ecst
  2. "Determination method of dimensionless moduli for estimation of PEFC performance"
    M. Kageyama, K. Yamaguchi, D. Heggo, Y. Ma, H. Ogawa, M. Kawase
    ECS Trans., 98(9) (2020) 163–175. DOI: 10.1149/09809.0163ecst
  3. "Development of Pt/zeolite for selective conversion of n-decane and n-dodecane to i-C6-7 and i-C7-9"
    H. Fujitsuka, Y. Yagita, T. Saika, N. Ohshio, Y. Iitsuka, N. Nakajima, T. Tago*
    J. Jpn. Petrol. Inst., 63(5) (2020) 297–307. DOI: 10.1627/jpi.63.297
  4. "Synthesis of Rh nanoparticles encapsulated in ZSM-5 and its application for methanol to olefin over acid sites with simultaneous production of hydrogen over Rh"
    H. Fujitsuka, S. Oshima, Y. Matsumura, T. Tago*
    Catal. Today, 375 (2021) 360–368. DOI: 10.1016/j.cattod.2020.04.007
[2019年]
  1. "Effect of cathode catalyst layer structure on the performance of PEFC"
    D. Heggo, Y. Ma, B. Balci, M. Kageyama, K. Yamaguchi, M. Kawase
    ECS Trans., 92(8) (2019) 165–174. DOI: 10.1149/09208.0165ecst
  2. "Optimization of allyl alcohol production from glycerol over iron based catalyst"
    H. Fujitsuka, K. Terai, M. Hayashi, T. Yoshikawa, T. Masuda, T. Tago*
    J. Jpn. Petrol. Inst., 62(6) (2019) 319–328. DOI: 10.1627/jpi.62.319
  3. "Production of metallurgical coke utilizing low rank coal depolymerized by wet oxidation"
    R. Ashida, A. Hashimoto, M. Kawase, Y. Kubota
    ISIJ Int., 59(8) (2019) 1390–1395. DOI: 10.2355/isijinternational.ISIJINT-2018-833
  4. "Production of metallurgical coke from low rank coal utilizing wet oxidation"
    R. Ashida, A. Hashimoto, M. Kawase, Y. Kubota
    ISIJ Int., 59(8) (2019) 1386–1389. DOI: 10.2355/isijinternational.ISIJINT-2018-812
  5. "Hydrogen production from formic acid using Pd/C, Pt/C, and Ni/C catalysts prepared from ion-exchange resins"
    H. Fujitsuka*, K. Nakagawa, S. Hanprerakriengkrai, H. Nakagawa, T. Tago
    J. Chem. Eng. Jpn., 52(5) (2019) 423–429. DOI: 10.1252/jcej.18we251
  6. "Synthesis of Birdcage-type zeolite encapsulating ultrafine Pt nanoparticles and its application in dry reforming of methane"
    T. Kobayashi, T. Furuya,H. Fujitsuka, T. Tago*
    Chem. Eng. J., 377 (2019) 120203. DOI: 10.1016/j.cej.2018.10.140
  7. "Preparation of carbon supported Pt-Ni alloy nanoparticle catalyst with high metal loading using cation exchange resin and its application for hydrogen production"
    S. Hanprerakriengkrai, H. Fujitsuka*, K. Nakagawa, H. Nakagawa, T. Tago*
    Chem. Eng. J., 377 (2019) 120276. DOI: 10.1016/j.cej.2018.10.213
[2018年]
  1. "Effects of Pt and ionomer ratios on the structure of catalyst layer: A theoretical model for polymer electrolyte fuel cells"
    H. Ishikawa, Y. Sugawara, G. Inoue, M. Kawase
    J. Power Sources, 374 (2018) 196–204. DOI: 10.1016/j.jpowsour.2017.11.026
  2. "Production of monocyclic phenols by the liquid-phase hydrogenolysis of benzofuran and dibenzyl ether using in situ hydrogen production from methanol"
    H. Fujitsuka, M. Tamura, T. Tago*
    Catal. Today, 303 (2018) 213–218. DOI: 10.1016/j.cattod.2017.08.018
[2017年]
  1. "Simulation of optimization and utilization for LiB with multi-element network"
    K, Lin, G. Inoue, M. Kawase
    ECS. Trans., 80(10) (2017) 251–258. DOI: 10.1149/08010.0251ecst
  2. "Electrode designs of lithium ion batteries utilizing the simulation of porous structures"
    K, Ikeshita, G. Inoue, M. Kawase
    ECS. Trans., 75(20) (2017) 165–172. DOI: 10.1149/07520.0165ecst
  3. "Extension of the chemical percolation devolatilization model for predicting formation of tar compounds as soot precursor in coal gasification"
    S. Umemoto, S. Kajitani, K. Miura, H. Watanabe, M. Kawase
    Fuel Process. Technol., 159 (2017) 256–265. DOI: 10.1016/j.fuproc.2017.01.037
  4. "Electrochemical reaction engineering of polymer electrolyte fuel cell"
    M. Kawase, K. Sato, R. Mitsui, H. Asonuma, M. Kageyama, K. Yamaguchi, G. Inoue
    AIChE J., 63(1) (2017) 249–256. DOI: 10.1002/aic.15545
[2016年]
  1. "Theoretical examination of effective oxygen diffusion coefficient and electrical conductivity of polymer electrolyte fuel cell porous components"
    G. Inoue, K. Yokoyama, J. Ooyama, T. Terao, T. Tokunaga, N. Kubo, M. Kawase
    J. Power Sources, 327 (2016) 610–621. DOI: 10.1016/j.jpowsour.2016.07.107
  2. "Reaction and mass transport simulation of polymer electrolyte fuel cell for the analysis of the key factors affecting the output performance in the catalyst layer"
    R. Kotoi, G. Inoue, M. Kawase
    ESC Trans., 75(14) (2016) 385–392. DOI: 10.1149/07514.0385ecst
  3. "Dimensionless Model Analysis of PEFC Cathode"
    M. Kawase, K. Yamaguchi, M. Kageyama, K. Sato, G. Inoue
    ECS Trans. 75(14) (2016) 147–156. DOI: 10.1149/07514.0147ecst
  4. "Effect of porous structure of catalyst layer on effective oxygen diffusion coefficient in polymer electrolyte fuel cell"
    G. Inoue, M. Kawase
    J. Power Sources, 327 (2016) 1–10. DOI: 10.1016/j.jpowsour.2016.07.037
  5. "Proposal of a new soot quantification method and investigation of soot formation behavior in coal gasification"
    S. Umemoto, S. Kajitani, S. Hara, M. Kawase
    Fuel, 167 (2016) 280–287. DOI: 10.1016/j.fuel.2015.11.074
  2015年以前はこちら → 研究業績(~2015年)

このページの先頭へ

総説・解説

  1. "燃料電池システムシミュレーターFC-DynaMoの開発"
    長谷川 茂樹, 井漕 好博, 金 尚弘, 影山 美帆, 河瀬 元明
    水素エネルギーシステム/水素エネルギー協会 編, 48(2), 133–137 (2023)
  2. "バードケージ型ゼオライトの調製とメタンドライリフォーミング反応への応用"
    藤墳 大裕, 小林 昂仁, 多湖 輝興
    ゼオライト, 36(4), 106–114 (2019)
 2015年以前はこちら → 研究業績(~2015年)

このページの先頭へ

著書

  1. 「触媒総合事典」
    河瀬 元明
    "6-14反応器の設計と選択", pp. 266–267,
    "6-15工業触媒反応器の分類", pp. 268–269, 触媒学会編((株)朝倉書店) (2023年)
  2. 「カーボンニュートラルを目指す最新の触媒技術」
    多湖 輝興,藤墳 大裕(共著)
    "第I編 合成ガス 第1章 Ni微粒子内包ゼオライト触媒によるメタンのドライリフォーミング", pp. 3–14. シーエムシー・リサーチ(2022年)
  3. 「世界水素ビジネス 社会実装編」
    河瀬 元明
    "長寿命化・高性能化達成のための設計シミュレータの開発",
    長谷川 茂樹
    "モデルベース FC システム開発用シミュレータの開発", 日経BP 総合研究所 クリーンテックラボ 調査・編集 (2021年)
  4. 「現代化学光学 増補版」
    河瀬 元明
    "反応操作",pp. 261–331. 産業図書(株)(2021年)
  5. 「触媒の劣化対策、長寿命化」
    多湖 輝興,藤墳 大裕(共著)
    "第6章 第6節 高いコーキング耐性を有するメタンドライリフォーミング用触媒", pp. 289–298. 技術情報協会(2020年)
  6. 「最新 実用真空技術総覧」
    河瀬 元明
    "第2部 真空応用システム,第3編 真空応用システム,第6章 化学気相成長法(CVD), 第6節 表面コーティングプロセス 6.6 ガスバリアコーティング", pp. 673–674,
    "第2部 真空応用システム,第3編 真空応用システム,第6章 化学気相成長法(CVD), 第6節 表面コーティングプロセス 1.1 熱CVDの原理と応用",pp. 605–610. (株)エヌ・ティー・エス(2019年)
 2015年以前はこちら → 研究業績(~2015年)

このページの先頭へ