Kyushu University Academic Staff Educational and Research Activities Database
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Takashi Kanemaru Last modified date:2019.06.24

Associate Professor / Ship and Marine Dynamics Laboratory
Department of Marine Systems Engineering
Faculty of Engineering


Graduate School
Undergraduate School


E-Mail
Homepage
http://www.nams.kyushu-u.ac.jp/e/
KYUSHU UNIVERSITY Department of Marine Systems and Engineering .
Academic Degree
Dr. Eng.
Field of Specialization
Marine Hydrodynamics
Total Priod of education and research career in the foreign country
00years03months
Outline Activities
My major is the research of ship propulsion using a numerical calculation method based on propeller theory. Recent themes are as follows.
1 Calculation of pressure fluctuation on ship stern induced by cavitating propeller
2 Calculation of propulsive performance considering interaction between propeller and rudder
3 Development of energy saving rudder
4 Numerical analysis of tidal current turbine
Research
Research Interests
  • Numerical analysis of contra-rotating tidal current turbine performance using panel method
    keyword : tidal current turbine, panel method, wake alignment
    2016.08~2020.03.
  • Practical Calculation Method of Propeller Cavitation and Pressure Fluctuation on Ship Stern Using a Panel Method
    keyword : Pressure Fluctuation on Ship Stern
    2017.04.
  • Study on Hydrodynamics Performance of Energy Saving Rudder in Propeller Slipstream
    keyword : Interaction between propeller and rudder
    2015.04.
  • Numerical Analysis of Rudder Performance in Propeller Slipstream with Wake Alignment
    keyword : Interaction between propeller and rudder
    2013.04.
  • Calculation of Steady and Unsteady Cavitation on a Marine Propeller Using a Simple Surface Panel Method
    keyword : Propeller Sheet Cavitation
    2007.04.
Academic Activities
Papers
1. Takashi Kanemaru, Daijiro Arakawa, Yuki Sawada, Koichiro Shiraishi, Jun Ando, A Practical Calculation Method of Pressure Fluctuation Induced by Cavitating Propeller Using a Simple Surface Panel Method “SQCM”, Sixth International Symposium on Marine Propulsors(smp'19), 216-223, 2019.05.
2. Takashi Kanemaru, Akira yoshitake, Jun Ando, DEVELOPMENT OF NEW TYPE ENERGY SAVING RUDDER, The 13th International Conference on Hydrodynamics, 321-330, 2018.09.
3. Takashi Kanemaru, Akira yoshitake, Jun Ando, Development of New Type Low Drag Rudders in Propeller Slipstream, Fifth International Symposium on Marine Propulsors(smp'17), 127-134, 2017.06.
4. Takashi Kanemaru, Tomohiro Ryu, Akira yoshitake, Jun Ando, Calculation of propeller and rudder interaction using simplified propeller theory considering blade loading distribution exactly, 13th International Symposium on Practical Design of Ships and Other Floating Structures (PRADS’2016), 2016.09.
5. Takashi Kanemaru, Jun Ando, Numerical Analysis of Tip Cavitation on Marine Propeller with Wake Alignment Using a Simple Surface Panel Method “SQCM”, 9th International symposium on cavitation CAV2015, 10.1088/1742-6596/656/1/012184, 2015.12.
6. Takashi Kanemaru, Jun Ando, Numerical Analysis of Tip Vortex Cavitation on Marine Propeller Using a Simple Surface Panel Method “SQCM”, Fourth International Symposium on Marine Propulsors smp’15, 3, 505-512, 2015.05.
7. Takashi Kanemaru, Jun Ando, Numerical analysis of cavitating propeller and pressure fluctuation on ship stern using a simple surface panel method “SQCM” , Journal of Marine Science and Technology, 10.1007/s00773-012-0208-8, Vol.18, No.3, 294-309, 2013.09.
8. Takashi Kanemaru, Tomohiro Ryu, Akira Yoshitake, Jun Ando, Kuniharu Nakatake, The Modeling of Hub Vortex for Numerical Analysis of Marine Propeller Using a Simple Surface Panel Method “SQCM”, Proc. of The 3rd International Symposium on Marine Propulsor, 365-372, 2013.05.
9. Takashi KANEMARU and Jun ANDO, Numerical Analysis of Pressure Fluctuation on Ship Stern Induced by Cavitating Propeller Using a Surface Panel Method "SQCM", Proc. of The 2nd International Symposium on Marine Propulsor, 2011.06.
10. Takashi KANEMARU and Jun ANDO, Numerical Analysis of Steady and Unsteady Sheet Cavitation on a Marine Propeller Using a Simple Surface Panel Method “SQCM”, Proc. of The 1st International Symposium on Marine Propulsor, 2009.06.
11. Takashi KANEMARU and Jun ANDO, Numerical Analysis of Steady Sheet Cavitation on a Marine Propeller Using a Simple Surface Panel Method “SQCM”, Proc. of The 3rd Pan Asian Association of Marine Engineering Societies and Advanced Maritime Engineering Conference 2008, 2008.10.
Presentations
1. Takashi Kanemaru, Daijiro Arakawa, Yuki Sawada, Koichiro Shiraishi, Jun Ando, A Practical Calculation Method of Pressure Fluctuation Induced by Cavitating Propeller Using a Simple Surface Panel Method “SQCM”, 6th International Symposium on Marine Propulsors (smp'19), 2019.05.
2. Takashi Kanemaru, Akira Yoshitake, Jun Ando, DEVELOPMENT OF NEW TYPE ENERGY SAVING RUDDER, The 13th International Conference on Hydrodynamics, 2018.08.
3. Takashi Kanemaru, akira yoshitake, Jun Ando, Development of New Type Low Drag Rudders in Propeller Slipstream, 5th International Symposium on Marine Propulsors (smp'17), 2017.07.
4. Takashi Kanemaru, akira yoshitake, Jun Ando, Tomohiro Ryu, Calculation of propeller and rudder interaction using simplified propeller theory considering blade loading distribution exactly, 13th International Symposium on Practical Design of Ships and Other Floating Structures (PRADS’2016), 2016.09.
5. Takashi Kanemaru, Jun Ando, Numerical Analysis of Tip Cavitation on Marine Propeller with Wake Alignment Using a Simple Surface Panel Method “SQCM”, 9TH INTERNATIONAL SYNPOSIUM ON CAVITATION CAV2015, 2015.12.
6. Takashi Kanemaru, Jun Ando, Numerical Analysis of Tip Vortex Cavitation on Marine Propeller Using a Simple Surface Panel Method “SQCM”, Fourth International Symposium on Marine Propulsors (smp'15), 2015.05.
7. Takashi Kanemaru, Tomohiro Ryu, akira yoshitake, Jun Ando, Kuniharu Nakatake, The Modeling of Hub Vortex for Numerical Analysis of Marine Propeller Using a Simple Surface Panel Method “SQCM”, The Third International Symposium on Marine Propulsors, 2013.05.
Membership in Academic Society
  • The Japan Society of Naval Architects and Ocean Engineers
Educational
Educational Activities
Ship hydrostatic calculation and stability,
Practice and training of numerical calculation 2,
Programming training,
Natural science synthesis experiment,
Advanced Ship Resistance and Propulsion II,