KOMORI Mochimitsu

写真a

Title

Professor

Laboratory

1-1 Sensui-cho, Tobata-ku, Kitakyushu-shi, Fukuoka

Research Fields, Keywords

E-mail

E-mail address

Undergraduate Education 【 display / non-display

  • 1982.03   Osaka University   Faculty of Engineering Science   Graduated   JAPAN

Post Graduate Education 【 display / non-display

  • 1984.03  Osaka University  Graduate School, Division of Engineering Science  Master's Course  Completed  JAPAN

Degree 【 display / non-display

  • Kyushu University -  Doctor of Engineering  1994.09

Biography in Kyutech 【 display / non-display

  • 2019.04
    -
    Now

    Kyushu Institute of TechnologyFaculty of Engineering   Department of Electrical Engineering and Electronics   Professor  

  • 2015.04
    -
    2016.03

    Kyushu Institute of TechnologyFaculty of Engineering  

  • 2011.10
    -
    2012.09

    Kyushu Institute of TechnologySchool of Engineering  

  • 2010.04
    -
    2011.03

    Kyushu Institute of TechnologySchool of Engineering  

  • 2009.04
    -
    2010.03

    Kyushu Institute of TechnologyFaculty of Engineering  

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Academic Society Memberships 【 display / non-display

  • 1998.04
    -
    Now
     

    The Japan Society of Mechanical Engineers  JAPAN

  • 1998.04
    -
    Now
     

    The Institute of Electrical and Engineers of Japan  JAPAN

  • 2002.04
    -
    Now
     

    The Japan Society of Applied Electromagnetics and Mechanics  JAPAN

  • 2011.04
    -
    Now
     

    IEEE  UNITED STATES

  • 2019.06
     
     
     

    Asian Control Conference (ASCC)  JAPAN

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Specialized Field (scientific research fund) 【 display / non-display

  • Superconducting mechatronics, Magnetic levitation mechatronics

  • Actuator, Motor, Superconducting mechatronics, Magnetic levitation mechatronics

 

Publications (Article) 【 display / non-display

  • Proposal of magnetically levitated mover using high Tc SC Coils

    Komori M., Tanabe Y., Asami K.I., Sakai N.

    IEEE Transactions on Applied Superconductivity    30 ( 4 )   2020.06  [Refereed]

     View Summary

    © 2002-2011 IEEE. Levitation techniques using high critical temperature (Tc) superconductors are based on pinning forces between high Tc superconductors and permanent magnets (PMs). In this paper, new type of magnetically levitated mover based on repulsion forces by induced current between high Tc superconducting (SC) coils and PMs is proposed. Induced current in SC coil is different from that in normal copper coil. Thus, the static and dynamic characteristics of both the SC coil and the levitated mover are discussed.

    DOI Scopus

  • Dynamic Characteristics in the Horizontal Direction for New Type SMB Using SC Bulk and SC Coil

    Komori M., Wada A., Asami K.I., Sakai N.

    IEEE Transactions on Applied Superconductivity    30 ( 4 )   2020.06  [Refereed]

     View Summary

    © 2002-2011 IEEE. Superconducting magnetic bearings (SMBs) are usually composed of superconducting (SC) bulk and permanent magnet (PM). These SMBs are based on pinning forces between SC bulk and PM. In this paper, new type SMBs composed of SC bulk, SC coil and PM are proposed. In order to compare SMB Type-I with Type-II, impulse responses in the horizontal direction are performed. Then, natural damped vibration curves for impulse responses are observed. The damping coefficient for the SMB Type-II is very larger than the Type-I. The damping coefficient depends on the position of SC coil.

    DOI Scopus

  • Dynamic Characteristics in The Horizontal Direction for New Type SMB Using SC Bulk and SC Coil

    M. Komori, A. Wada, K. Asami, N. Sakai

    ( IEEE (USA) )    1 - 1   2019.09  [Refereed]

    Canada  Vancouver  2019.09  -  2019.09

  • Proposal of Magnetically Levitated Mover Using High Tc SC Coils

    M. Komori, Y. Tanabe, K. Asami, N. Sakai

    ( IEEE (USA) )    1 - 1   2019.09  [Refereed]

    Canada  Vancouver  2019.09  -  2019.09

  • One-Axis Controlled Superconducting Magnetic Levitation System Using Persistent Current

      29 ( 5 )   2019.08  [Refereed]

     View Summary

    © 2002-2011 IEEE. Superconducting technique is applied to a superconducting magnetic levitation system. The levitation system is composed of a superconducting coil, a copper coil, a levitated object, a photo sensor, a proportional, integral and derivative (PID) controller, and power amplifiers. Persistent current in superconducting coil and control current in copper coil are used for levitating object and controlling object, respectively. In this paper, two different types of one-axis controlled superconducting magnetic levitation system using persistent current at a distance 43 mm are performed.

    DOI Scopus

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Publications (Books) 【 display / non-display

  • 機械工学事典(電子版)

    小森望充,上野哲,長真啓,成田正敬 ( Contributor )

    日本機械学会(機械力学・計測制御部門)  2019.12

     View Summary

    下記専門用語を加筆修正し、内容について解説した。
    セルフベアリングモータ(ベアリングレスモータ) self-bearing motor (bearingless motor), セルフベアリングモータ(ベアリングレスモータ) self-bearing motor (bearingless motor), 受動安定 passive stabilization, 負ばね negative spring, ゼロパワー制御 zero power control, 超電導磁気軸受 superconductor magnetic bearing, セルフセンシング self-sensing

Conference Prsentations (Oral, Poster) 【 display / non-display

  • 高温超電導軸受を用いた高速タービンロータ

    小森望充, 原啓城, 浅海賢一, 坂井伸朗

    日本機械学会関西支部講演会  2020.03  -  2020.03  日本機械学会

  • 液体窒素中と室温中におけるアキシャル型セルフベアリングモータ駆動の検討

    加藤博久, 小森望充, 浅海賢一, 坂井伸朗

    「運動と振動の制御」シンポジウム  (高知市・高知城ホール)  2019.12  -  2019.12  日本機械学会

  • 低温下における位置センシングの検討とセルフベアリングモータへの応用

    加藤博久, 小森望充, 浅海賢一, 坂井伸朗, 行武善造

    電気学会・計測研究会  (佐賀大学)  2019.11  -  2019.11  電気学会

  • 超電導コイルによる浮上体の水平浮上の基礎的検討

    原優希, 小森望充, 浅海賢一, 坂井伸朗, 行武善造

    電気学会・計測研究会  (佐賀大学)  2019.11  -  2019.11  電気学会

  • 高温超電導軸受の高速タービンロータへの適用と試作

    小森望充, 原啓城, 浅海賢一, 坂井伸朗

    MAGDAコンファレンス in 大分 (MAGDA 2019)  2019.10  -  2019.10  日本AEM学会

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Honors and Awards 【 display / non-display

  • Best Presentation Award (Oral Session)

    2017.09.08     JAPAN

    Winner: Mochimitsu Komori, Haruka Sagara, Ken-ichi Asami, Nobuo Sakai

 

Activities of Academic societies and Committees 【 display / non-display

  • 2019.12
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    2020.05

    IEEE International Magnetic Conference (INTERMAG)   Program Committee

  • 2019.10
     
     

    MAGDA Conference  

  • 2019.09
     
     

    MAGDA Conference  

  • 2019.08
     
     

    The Japan Society of Mechanical Engineers  

  • 2019.08
     
     

    The Japan Society of Mechanical Engineers  

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