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Role of the Effective Prandtl Number on the Solar Convective Amplitude and Stratification, and Angular Momentum Transport

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JAXA Supercomputer System Annual Report April 2017-March 2018 Report Number: R17EACA30 Subject Category: JSS2 Inter-University Research PDF Responsible Representative: Yuto Bekki, The University of Tokyo Contact Information: Yuto Bekki bekki@mps.mpg.de Members: Yuto Bekki, Takaaki Yokoyama, Hideyuki Hotta Abstract We have investigated a possible physical process to alleviate the huge discrepancy of the large-scale solar convective velocity between numerical simulations and local helioseismic observations (convective conundrum). It was shown for the first time that, if the solar convection is essentially magnetized・・・<<read more>>

Research on Airframe Noise Reduction Design in the FQUROH Project

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JAXA Supercomputer System Annual Report April 2017-March 2018 Report Number: R17EA2801 Subject Category: Aeronautical Technology PDF Responsible Representative: Kazuomi Yamamoto, FQUROH Project Team, Aeronautical Technology Directorate Contact Information: Kazuomi Yamamoto yamamoto.kazuomi@jaxa.jp Members: Kazuomi Yamamoto, Yasushi Ito, Takehisa Takaishi, Mitsuhiro Murayama, Ryotaro Sakai, Tohru Hirai, Kentaro Tanaka, Kazuhisa Amemiya, Gen Nakano, Takashi Ishida Abstract This research is being carried out as part of the FQUROH project aimed at raising the technical maturity level of the noise reduction technology for high-lift devices・・・<<read more>>

Research on Particle-based Fluid Simulation Method for Improvement of Design and Development in Aeronautics

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JAXA Supercomputer System Annual Report April 2017-March 2018 Report Number: R17EA1907 Subject Category: Aeronautical Technology PDF Responsible Representative: Takashi Aoyama, Numerical Simulation Research Unit, Aeronautical Technology Directorate Contact Information: Kenichi Kubota kubota.kenichi@jaxa.jp Members: Kenichi Kubota, Takashi Takahashi, Hiroki Tsujimura Abstract In this project, a numerical code using particle method, which is known to be a meshless method to simulate fluid governed by Navier-Stokes equation, is being developed, and we investigate applicability of particle methods to aeronautics, especially the improvement in・・・<<read more>>

Research and development of applied fundamental technology

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JAXA Supercomputer System Annual Report April 2017-March 2018 Report Number: R17EA3201 Subject Category: Aeronautical Technology PDF Responsible Representative: Takeshi Ito, Aeronautical Technology Directorate, Next Generation Aeronautical Innovation Hub Center Contact Information: Atsushi Hashimoto hashimoto.atsushi@jaxa.jp Members: Hamidreza Kheirandish, Keiji Ueshima, Atsushi Hashimoto, Takashi Ishida, Hideaki Sugawara, Takahiro Yamamoto, Manabu Hisida, Shigeru Kuchiishi, Rika Yamada Abstract In this research, we develop a common fundamental aerodynamic analysis tool by extending FaSTAR-code to be able to handle fluid-structure interaction problems aimed for establishing the・・・<<read more>>

Research of coupled analysis of motion and aerodynamics

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JAXA Supercomputer System Annual Report April 2017-March 2018 Report Number: R17EA3210 Subject Category: Aeronautical Technology PDF Responsible Representative: Takeshi Ito, Aeronautical Technology Directorate, Next Generation Aeronautical Innovation Hub Center Contact Information: Takashi Ishida ishida.takashi@jaxa.jp Members: Atsushi Hashimoto, Takashi Ishida, Hideaki Sugawara, Keiji Ueshima, Minoru Yoshimoto, Takuya Ogura, Shinsuke Nishimura, Yukinori Morita, Kazuhiro Imai, Shigeru Kuchiishi Abstract In this research, we have extended FaSTAR-code to be able to handle coupled analysis of motion and aerodynamics and conducted a store-separation analysis for・・・<<read more>>