Adopted Joint Researches
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Adopted Joint Researches for 2020
| Research Title / Applicant (University or Institute) 2020S3-* |
RIAM advisor | ||
|---|---|---|---|
| 1 |
A new approach for estimating the marine debris abundance using Unmanned Aerial Vehicles in conjunction with machine learning
Se Songploy (Chulalongkorn University, Thailand) |
ISOBE Atsuhiko |
|
| 2 |
Plastic material flow analysis in Thailand
SASAKI So (Chuo University, Japan) |
ISOBE Atsuhiko |
|
| 3 |
Japan-Thailand Marine Microplastics Survey “formation of a center of excellence for marine plastic pollution studies in the Southeast Asian Seas” in the Thailand Bay in 2019
ARAKAWA Hisayuki (Tokyo University of Marine Science and Technology, Japan) |
ISOBE Atsuhiko |
|
| 4 |
Investigation on potential source of microplastics in Thailand and Myanmar
Sujaree BUREEKUL (Chulalongkorn University, Thailand) |
ISOBE Atsuhiko |
|
| 5 |
Preparatory setup international cooperation base on marine microplastics in southern Thailand
TANAKA Shuhei (Kyoto University, Japan) |
ISOBE Atsuhiko |
|
| Research Title / Applicant(University or Institute) / RIAM Attendant | |||
|---|---|---|---|
| 20 EA-1 | Dynamical mechanisms of stratospheric control on the tropical troposphere and ocean | ||
|
UEYAMA Rei
(NASA Ames Research Institute, U.S.A) |
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| EGUCHI Nawo | |||
| 20 EA-2 | Turbulent mixing in the Kuroshio Current off Taiwan | ||
|
JAN Sen
(Institute of Oceanography, National Taiwan University, Taiwan) |
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| ENDOH Takahiro | |||
| Research Title / Applicant(University or Institute) / RIAM Attendant | |||
|---|---|---|---|
| 20 NU-1 | Numerical simulation of EC and EBW in QUEST | ||
|
BERTELLI Nicola
(Princeton University, U.S.A) |
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| IDEI Hiroshi | |||
| 20 NU-2 | Plasma start-up and sustainment in spherical tokamak configuration by RF | ||
|
SHEVCHENKO Vladimir
(Tokamak Energy Ltd., United Kingdom) |
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| IDEI Hiroshi | |||
| 20 NU-3 | High power mm wave transmission line technology for advanced fusion devices | ||
|
LECHTE Carsten Hanno
(University of Stuttgart, Germany) |
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| IDEI Hiroshi | |||
| 20 NU-4 | Development of Core-SOL-Divertor model for simulating tokamak plasmas with impurities | ||
|
WISITSORASAK Apiwat
(King Mongkut’s University of Technology Thonburi, Thailand) |
|||
| KASUYA Naohiro | |||
| 20 NU-5 | Design of a Permanent CHI injector coil for QUEST | ||
|
RAMAN Roger
(University of Washington, USA) |
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| HANADA Kazuaki | |||
| 20 NU-6 | Joint study of long pulse high beta discharges and related egde turbulence transport in steady state operation (SSO) plasmas on QUEST and EAST | ||
|
GAO Xiang
(Institute of Plasma Physics, Chinese Academy of Sciences(ASIPP), China) |
|||
| HANADA Kazuaki | |||
| 20 NU-7 | Soft x-ray spectra in inboard poloidal field null (IPN) configuration and relevant physical research on QUEST | ||
|
JIE Yinxian
(Institute of Plasma Physics, Chinese Academy of Sciences(ASIPP), China) |
|||
| HANADA Kazuaki | |||
| 20 NU-8 | Joint study of calorimetric measurement of heat load and power balance estimation in steady state operation (SSO) plasmas on QUEST and EAST | ||
|
LIU Haiqing
(Institute of Plasma Physics, Chinese Academy of Sciences (ASIPP) , China) | |||
| HANADA Kazuaki | |||
| 20 NU-9 | Improved EFIT code of the plasma equilibrium reconstruction for physical study on QUEST | ||
|
QIAN Jinping
(Institute of Plasma Physics, Chinese Academy of Sciences(ASIPP), China) | |||
| HANADA Kazuaki | |||
| 20 NU-10 | Development of mm-wave fast switch system to stabilize neoclassical tearing mode in tokamaks | ||
|
BROEKENS Kristiaan Albert
(TNO Optomechatronics, The Netherlands) | |||
| IDEI Hiroshi | |||
| 20 NU-11 | Identification of chemical compositions of nano-sized oxide particles in high performance ODS ferritic steels for application to accident tolerant fuel cladding | ||
|
DOU Peng
(School of Materials Science and Engineering, Chongqing University, China) | |||
| WATANABE Hideo | |||
| Research Title / Applicant(University or Institute) / RIAM Attendant | |||
|---|---|---|---|
| 20 RE-1 | Initialization of collaboration in the theoretical modeling of growth of III-nitride in molecular beam epitaxy | ||
|
MUZIOL Grzegorz
(Institute of High Pressure Physics PAS, Poland) | |||
| KANGAWA Yoshihiro | |||
| 20 RE-2 | Analysis of Multi-Rotor System Wind Turbines | ||
|
ISMAIEL Amr Mohamed Metwally
(Future University in Egypt, Egypt) | |||
| YOSHIDA Shigeo | |||
| 20 RE-3 | Joint study on the next generation of high-reliable and controllable power semiconductor device technologies | ||
|
EKKANATH MADATHIL Sankara Narayanan
(University of Sheffield, United Kingdom) | |||
| SAITO Wataru | |||
| 20 RE-4 | Renewable Energy Dynamics | ||
|
MANICKAM Srinivasan
(SSN Institutions, India) | |||
| KAKIMOTO Kouichi | |||
| 20 RE-5 | Predictions of Viscous Damping of Floating Structure Based on Computational Fluid Dynamics Method | ||
|
GAO Junliang
(Jiangsu University of Science and Technology, China) | |||
| LIU Yingyi | |||
| 20 RE-7 | Downwind Turbine Technologies, Model Development and Verification | ||
|
HOENING Leo
(Fraunhofer IWES, Germany) | |||
| YOSHIDA Shigeo | |||
| 20 RE-8 | A Machine Learning based Software-In-the-Loop method to Predict dynamic responses of floating wind turbine | ||
|
HU Zhiqiang
(Newcastle University, United Kingdom) | |||
| HU Changhong | |||
| 20 RE-9 | Novel computational and experimental approaches to the analysis of complicated fluid-structure interactions | ||
|
WAN Decheng
(Shanghai Jiao Tong University(SJTU), China) | |||
| HU Changhong | |||
| 20 RE-10 | Flexible energy harvesting system | ||
|
JEON Insu
(Chonnam National University, Korea) | |||
| TODO Mitsugu | |||
