Ph.D. in engineering, Kyushu University

Arc-heated wind tunnel

Reentry vehicle

High enthalpy flow

Frontier Technology (Aerospace Engineering, Marine and Maritime Engineering), Aerospace engineering

Bachelor's degree program, School of Engineering

Master's degree program, Graduate School of Engineering

Doctoral (PhD) degree program, Graduate School of Engineering

Apr. 2023, Hokkaido University, Distinguished Researcher
高橋裕介

Mar. 2021, 北海道大学大学院工学研究院, 若手教員奨励賞
高橋裕介

Apr. 2020, 文部科学省, 令和２年度科学技術分野の文部科学大臣表彰 若手科学者賞
大気再突入宇宙機の高速気流 とマルチフィジクスの研究
高橋裕介

Apr. 2018, The Japan Society of Mechanical Engineers, JSME Young Engineers Award
数値流体・電磁場解析による宇宙機の再突入ブラックアウト予測の研究
Yusuke Takahashi

Mar. 2018, 日本機械学会宇宙工学部門, 宇宙賞
展開型エアロシェル実験超小型衛星(EGG) チーム

Oct. 2016, HPCI利用研究課題成果報告会, 平成27年度実施課題における「京」を含むHPCI利用研究課題優秀成果賞
「惑星大気再突入機に対する通信ブラックアウト評価ツールの構築」
高橋裕介

Feb. 2016, 一般財団法人コージェネレーションエネルギー高度利用センター, 平成27年度コージェネ大賞 技術開発部門特別賞
川崎重工業株式会社;北海道大学

Characteristics and modeling of dynamic instability in a thin aeroshell capsule with pitching oscillations in the transonic regime
Hideto Takasawa; Shingo Matsuyama; Yusuke Takahashi; Kazuhiko Yamada
Acta Astronautica, 245, 565, 575, Elsevier BV, Aug. 2026, [Peer-reviewed], [International Magazine]
English, Scientific journal

Simultaneous Mitigation of Communication Blackout and Aerothermal Heating Through Film Cooling
Takashi Miyashita; Yusuke Takahashi; Ciro Salvi; Oliver Hohn; Ali Gülhan
AIAA Journal, 64, 6, 3116, 3126, American Institute of Aeronautics and Astronautics (AIAA), Jun. 2026, [Peer-reviewed], [Last author], ［Internationally co-authored］, [International Magazine]
English, Scientific journal, The advancement of space transportation critically depends on addressing key challenges during atmospheric reentry, notably severe aerodynamic heating and radio frequency communication blackout caused by plasma formation. During reentry, high-velocity flight through the atmosphere induces extreme gas temperatures, which promote gas ionization, generating a plasma sheath that significantly attenuates electromagnetic waves. Therefore, this study investigates the effectiveness of gas film cooling as a simultaneous mitigation method for both aerodynamic heating and communication blackout. Experiments were performed in a large-scale arc-heated wind tunnel, producing high-enthalpy, weakly ionized flows representative of reentry conditions. A test model equipped with a gas injector and an onboard communication antenna was exposed to two freestream conditions: pure argon and an argon–nitrogen mixture. The pure argon flow produced a sufficiently high electron number density to reproduce a communication blackout. The addition of nitrogen reduces the electron number density in the plasma flow, thereby effectively suppressing communication blackout. Under pure argon flow, significant signal attenuation due to plasma was observed. Gas injection led to a measurable reduction in surface temperature and a marked improvement in signal strength. These findings demonstrate that gas injection offers a promising dual-purpose mitigation strategy, enhancing the safety and reliability of future atmospheric reentry missions.

Balloon Flight Demonstration for Deep Space Sample Return Capsule with Thin Aeroshell
Hideto Takasawa; Yoichi Suenaga; Takashi Miyashita; Koshiro Hirata; Kaito Wakabayashi; Yusuke Takahashi; Yasunori Nagata; Kazuhiko Yamada
Journal of Spacecraft and Rockets, 1, 9, American Institute of Aeronautics and Astronautics (AIAA), 31 Aug. 2025, [Peer-reviewed], [Last author]
English, Scientific journal, A thin aeroshell capsule can decelerate from high altitude, which reduces aerodynamic heating, and can land without a parachute due to its low ballistic coefficient during entry, descent, and landing. However, the characteristics of its attitude are unclear, leading to capsule design issues. The Rubber Balloon Experiment for Reentry Capsule with Thin Aeroshell was conducted to confirm the stable flight of a capsule with a thin blunt nose at low speeds and demonstrate a low-cost balloon experiment with few constraints on the balloon launch. The capsule, with a mass of 1.56 kg and a diameter of 0.8 m, was released at an altitude of 25 km using a rubber balloon. The capsule experienced low-attitude oscillation and landed without becoming unstable. In balance with the air drag, the flowfield during flight had a maximum Mach number of 0.15 and Reynolds number of [Formula: see text], which is similar to the flowfield around an actual deep space sample return capsule descending at low speeds. The translational oscillation in the drag direction and rotational oscillations in pitch and yaw were dominant. The experiment suggested that the capsule of deep-space sample return capsule has the potential to undertake a dynamically stable flight in the low-speed region.

Fluid–structure interaction effects on attitude stability of an inflatable aerodecelerator
Yosuke Fujita; Sanjoy Kumar Saha; Yusuke Takahashi; Kazuhiko Yamada
Physics of Fluids, 37, 6, AIP Publishing, 01 Jun. 2025, [Peer-reviewed], [Last author, Corresponding author], [International Magazine]
English, Scientific journal, As a new atmospheric-entry technology, the research and development of atmospheric-entry vehicles with flexible aeroshells has been rapidly expanding. A lightweight and large-area flexible aeroshell enables a low-ballistic coefficient of flight and an efficient aerodynamic deceleration, thereby reducing aerodynamic heating and communication blackouts. Aerodynamic forces deform flexible aeroshells, altering their aerodynamic characteristics. However, the manner in which the attitude characteristics change when the aeroshell undergoes significant shape deformation is not well understood. In this study, the attitude and aerodynamic characteristics of a flexible aeroshell were clarified using wind tunnel tests at a given angle of attack and corresponding fluid–structure interaction (FSI) analysis. The FSI analysis method is based on a partitioned coupling method for large-scale parallel computers that use open-source software. The FSI analytical model reasonably explained the aeroshell deformation and aerodynamic coefficient behavior, and its validity was confirmed by wind tunnel experiments. The shape deformation of the flexible aeroshell weakened its restoring motion, thus exhibiting attitude instability compared with those prior to deformation.

Communication blackout and aerodynamic heating reduction via air film for hypersonic spacecraft
Takashi Miyashita; Yuji Sugihara; Yusuke Takahashi
Journal of Applied Physics, 137, 17, AIP Publishing, 01 May 2025, [Peer-reviewed], [Last author], [International Magazine]
English, Scientific journal, This study investigates the use of gas jet injection to mitigate both radio frequency blackouts and aerodynamic heating experienced by spacecraft during atmospheric reentry. The key concept behind this approach is that the injected gas forms a thin air film layer around the spacecraft. This air film acts as an insulating layer, reducing heat transfer and creating a low-plasma region, allowing electromagnetic waves to propagate through the surrounding plasma of the spacecraft. To assess the effectiveness of this method, a parametric study was conducted using computational fluid dynamics simulations on an actual reentry vehicle. The results indicate that gas injection from the vehicle’s leading edge provides a localized reduction in heat flux, while injection from the sidewall forms a more extensive protective air film along the vehicle surface, significantly reducing heat flux over a broader area. Furthermore, the formation of the air film creates a low-plasma region, facilitating the transmission of electromagnetic waves. These computational findings demonstrate that simultaneous mitigation of both heat flux and radio frequency blackouts is achievable under realistic atmospheric reentry conditions. This air film effect presents a promising solution to these two major challenges, potentially enhancing the flexibility of space transfer missions.

Free flight demonstration for sample return capsule with thin aeroshell using rubber balloon: RERA-4
YOSHIO Tadayuki; YAMAMOTO Haruka; TAKANO Sota; MIYASHITA Ryo; MIKI Takahiro; MIYASHITA Takashi; TAMAI Ryota; TAKASAWA Hideto; SUENAGA Yoichi; TANNO Marie; TAKAHASHI Yusuke; NAGATA Yasunori; YAMADA Kazuhiko
JAXA Research and Development Report, 24, 005, 19, 33, Japan Aerospace Exploration Agency (JAXA), 28 Feb. 2025, [Peer-reviewed], [Last author]
Japanese, Scientific journal

Spatiotemporal mode extraction for fluid–structure interaction using mode decomposition
Yusuke Takahashi
Journal of Sound and Vibration, 118804, 118804, Elsevier BV, Nov. 2024, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal

Mode decomposition to identify oscillation patterns of flexible aeroshell
Sanjoy Kumar Saha; Yusuke Takahashi
Physics of Fluids, 36, 11, AIP Publishing, 01 Nov. 2024, [Peer-reviewed], [Last author]
English, Scientific journal, Flexible aeroshells, featuring deformable membrane surfaces supported by pressurized gas, offer a novel re-entry system for high-altitude deceleration during re-entry. The flexibility of structural components introduces unique challenges in predicting aerodynamic behavior, as deformations can significantly alter the flow field, affecting pressure distribution and potentially causing aerodynamic instabilities. Therefore, coupled analysis is crucial to ensure the performance reliability of inflatable aeroshells. This study investigates the unsteady aerodynamic behavior, considering structural deformation in a two-way partitioned coupled manner in transonic flow. The dominant deformation patterns are identified using dynamic mode decomposition and the greedy compressive sensing algorithm. The findings reveal that the primary deformation pattern combines axial deformation and swing oscillation. The dominant oscillation frequencies remain different from the eigenfrequencies, indicating that the aerodynamic force is the primary driving force of such oscillations. The time evolution of these dominant modes indicates purely oscillatory behavior rather than increasing or decreasing trends. These insights are critical for the design and reliability assessment of inflatable aeroshells in varying aerodynamic environments.

Aerostructural Analysis of a Deployable Aeroshell in Transonic Flow
Sanjoy Kumar Saha; Yusuke Takahashi
AIAA Journal, 1, 16, American Institute of Aeronautics and Astronautics (AIAA), 07 Oct. 2024, [Peer-reviewed], [Last author]
English, Scientific journal, The deployable aeroshell, a contemporary reentry system, utilizes a thin flexible membrane surface sustained by pressurized gas to efficiently decelerate a reentry vehicle at high altitudes while enabling low-ballistic-coefficient flight. When an in-flight aerodynamic force is applied, the membrane structure undergoes large deformation that may affect its performance. Hence, a coupled analysis that considers the feedback effect of structural deformation is essential for accurately predicting the behavior of such reentry vehicles. In this study, a numerical framework for coupled aeroelastic analysis was constructed in a partitioned manner using open-source software to elucidate the combined effect of structural deformation and compressible flow dynamics and characterize the aerodynamic performance of reentry vehicles with inflatable structures. The results revealed that the membrane surface was deformed elastically by the aerodynamic force owing to the large difference in pressure distribution between the front and back of the aeroshell. Fluctuating behavior was observed in the aerodynamic coefficients owing to the small-amplitude oscillation of the capsule. This oscillation was induced by the large wake behind the vehicle. Several wrinkles and concave-shaped depressions formed on the membrane surface, which exhibited a circumferential movement tendency with time.

Atmospheric density estimation in very low Earth orbit based on nanosatellite measurement data using machine learning
Tomoki Sakai; Yusuke Takahashi
Aerospace Science and Technology, 153, 109418, 109418, Elsevier BV, Oct. 2024, [Peer-reviewed], [Last author]
English, Scientific journal

Mitigation of reentry blackout via gas injection in arc-heating facility
Takashi Miyashita; Yuji Sugihara; Yusuke Takahashi; Yasunori Nagata; Hisashi Kihara
Journal of Physics D: Applied Physics, 57, 32, 325206, 325206, IOP Publishing, 20 May 2024, [Peer-reviewed], [Last author]
English, Scientific journal, Abstract

Communication blackouts during atmospheric reentry pose significant challenges to the safety and adaptability of spacecraft missions. This phenomenon, caused by the attenuation of electromagnetic waves by the plasma surrounding the spacecraft, disrupts communication with ground stations or orbiting satellites. Therefore, it is crucial to decrease the plasma density in the vicinity of the spacecraft to ensure an unobstructed electromagnetic wave communication path. This study proposes a methodology that involves the injection of gas from the vehicle’s wall to create an insulating layer near the surface. This thin layer maintains lower temperatures and reduced plasma density, enabling electromagnetic wave propagation without attenuation. Practical experiments were conducted in an arc-heating facility to simulate atmospheric reentry conditions. The results of the experiments provided empirical evidence of the effectiveness of the technique in mitigating communication blackout phenomena. Numerical fluid analysis within the wind tunnel chamber validated the formation of an air film layer near the experimental model owing to the injected gas. Schlieren imaging revealed distinctive jet shapes, which corroborated the findings of the numerical analysis. The wind tunnel tests that simulated atmospheric reentry environments confirmed the formation of an air film layer through gas injection, which substantiates the reduction in communication blackout. These results have the potential to improve communication reliability in space transport.

Static attitude stability of deep space sample return capsule with thin aeroshell
Hideto Takasawa; Tomoya Fujii; Yusuke Takahashi; Takahiro Moriyoshi; Hiroki Takayanagi; Yasunori Nagata; Kazuhiko Yamada
CEAS Space Journal, Springer Science and Business Media LLC, 26 Apr. 2024, [Peer-reviewed], [Last author]
English, Scientific journal

Computational Study on Air Film Approach in Reentry Blackout Mitigation
Takashi Miyashita; Hideto Takasawa; Yusuke Takahashi; Lars Steffens; Ali Gülhan
AIAA Journal, 62, 2, 437, 448, American Institute of Aeronautics and Astronautics (AIAA), Feb. 2024, [Peer-reviewed], [Last author]
English, Scientific journal, Communication blackouts during the atmospheric reentry phase are a significant challenge, as flight data are lost due to interruptions caused by plasma gas generated by aerodynamic heating. This study explores a novel mitigation method using an air film, a thin insulating coolant layer on the surface. The researchers successfully reduced the reentry blackout by employing a gas injection system. Through a coupled approach using computational fluid dynamics and a frequency-dependent finite-difference time-domain method, the plasma flow properties and electromagnetic propagation were analyzed around a test model in a wind tunnel in DLR (German Aerospace Center). The numerical results indicated that the injected nitrogen gas formed an insulating air film layer on the surface. The thin layer advected backward, maintaining a low temperature without ionization, and covered the object in the wake region. The electromagnetic waves propagated and reached a distant area because the electron density was low. It means that the air film layer acted as a propagation window for the telecommunication waves. Thus, communication blackouts will be avoidable because electromagnetic waves can transmit through the air-film layer. It concluded that the air film effect, developed as a thermal protection technique, is a novel mitigation scheme for reentry blackouts.

Free flight demonstrations for sample return capsules with thin aeroshell using rubber balloons: RERA-2 & RERA-3
宮下岳士; 高澤秀人; 玉井亮多; 平田耕志郎; 若林海人; 吉雄忠行; 山本春佳; 丹野茉莉枝; 高橋裕介; 永田靖典; 山田和彦
宇宙航空研究開発機構研究開発報告: 大気球研究報告, JAXA-RR-23-003, 59, 75, Feb. 2024, [Peer-reviewed], [Last author]
Japanese, Scientific journal

Dynamic instability modeling on phase plane for thin aeroshell capsule with pitching motion at transonic speed
Hideto TAKASAWA; Tomoya FUJII; Koshiro HIRATA; Takahiro MORIYOSHI; Yusuke TAKAHASHI; Yasunori NAGATA; Kazuhiko YAMADA
Mechanical Engineering Journal, 11, 3, 24-00053, Japan Society of Mechanical Engineers, 2024, [Peer-reviewed], [Last author]
English, Scientific journal

Numerical investigation of surface catalytic effect on the plasma sheath of a hypersonic re-entry capsule
Yu Minghao; Qiu Zeyang; Yusuke Takahashi
Physics of Fluids, 35, 5, AIP Publishing, 01 May 2023, [Peer-reviewed]
English, Scientific journal, Radio frequency blackout indicates the communication interruption between signal monitoring sites and re-entry vehicles; it is a serious threat to the safety of astronauts and the space exploration missions. In this study, a surface catalytic model coupled with a thermochemical non-equilibrium computational fluid dynamic model is developed to study the catalytic wall effect on the plasma sheath of a hypersonic re-entry vehicle. The mechanism of the surface catalytic effect on the plasma sheath of a re-entry capsule is revealed by a comparative study. The flow-field characteristics simulated under conditions of the full-catalytic and non-catalytic walls are compared and discussed for the hypersonic atmospheric re-entry capsule at different altitudes. The chemical and physical mechanisms behind the surface catalytic effect of the re-entry capsule are analyzed. The experimental data of Radio Attenuation Measurement-C-II are used to validate the numerical model established in the present study. It is found that the numerical results simulated with the fully catalytic wall are more consistent with the experimental data. Near the capsule wall, the mole fractions of the species N, O, N+, and O+ decrease as the catalytic recombination coefficient increases. Because of the surface catalytic effect, the communication black is mitigated due to the reduction of the electron number density in the wake zone of the capsule.

RERA: Rubber balloon Experiment for Reentry capsule with thin Aeroshell
Hideto Takasawa; Yoichi Suenaga; Takahashi Miyashita; Koshiro Hirata; Kaito Wakabayashi; Yusuke Takahashi; Yasunori Nagata; Kazuhiko Yamada
JAXA Research and Development Report, JAXA-RR-22-008, 37, 50, Feb. 2023, [Peer-reviewed], [Last author]
Japanese, Scientific journal

Fluid-structure interaction characteristics of inflatable reentry aeroshell at subsonic speed
Sanjoy Kumar Saha; Junki Tobari; Yusuke Takahashi; Nobuyuki Oshima; Takahiro Moriyoshi; Kazuhiko Yamada; Ryoichi Shibata
Aerospace Science and Technology, 133, 108112, 108112, Elsevier BV, Feb. 2023, [Peer-reviewed], [Last author]
English, Scientific journal

Numerical simulation of thermochemical non-equilibrium flow-field characteristics around a hypersonic atmospheric reentry vehicle
Minghao Yu; Zeyang Qiu; Bowen Zhong; Yusuke Takahashi
Physics of Fluids, 34, 12, 126103, 126103, AIP Publishing, Dec. 2022, [Peer-reviewed], ［Internationally co-authored］
English, Scientific journal, A multi-physics thermochemical non-equilibrium model is established to study the flow characteristics of the plasma sheath around an atmospheric reentry demonstrator. This model includes the tight coupling of Navier–Stokes equations, 54 chemical reactions of air, and a four-temperature model. The processes of dissociation, ionization, and the internal energy exchanges of air components were successfully simulated during aerodynamic heating of the reentry vehicle. The distributions of plasma sheath temperature, the molar fraction of air species, stagnation pressure, surface pressure, and electron number density around the reentry vehicle were obtained at different flight altitudes. Additionally, to validate the numerical model developed in this study, the flow characteristics of the Radio Attenuation Measurement-C-II (RAM-C-II) vehicle are also simulated and then compared with corresponding experimental data. They show good consistency in general. It is found that when the vehicle is at a high flight altitude, there is a strong thermochemical non-equilibrium phenomenon around the vehicle. However, the plasma sheath tends to be in local thermal equilibrium at a low flight altitude. The distance from the shock layer to the stagnation point decreases with a decrease in reentry altitude from 90 to 65 km but increases with a decrease from 65 to 40 km. The electron number density in the shock layer is maximum. The distribution of the electron number density in the wake region differs significantly at different flight altitudes.

Propagation Path of Radio Waves in Nonequilibrium Reentry Plasma Around a Nanosatellite With an Inflatable Aeroshell
Yusuke Takahashi
IEEE Transactions on Aerospace and Electronic Systems, 58, 5, 4070, 4082, Institute of Electrical and Electronics Engineers (IEEE), Oct. 2022, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal

Trajectory reconstruction for nanosatellite in very low Earth orbit using machine learning
Yusuke Takahashi; Masahiro Saito; Nobuyuki Oshima; Kazuhiko Yamada
Acta Astronautica, 194, 301, 308, Elsevier BV, May 2022, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal

Nonequilibrium Shock Layer in Large-Scale Arc-Heated Wind Tunnel
Yusuke Takahashi; Hideto Takasawa; Kazuhiko Yamada; Takayuki Shimoda
Journal of Physics D: Applied Physics, 55, 23, 235205, 235205, IOP Publishing, 02 Mar. 2022, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal,
An arc-heated wind tunnel is one of the most important facilities to reproduce the high-temperature environment during atmospheric entry for plasma studies and spacecraft development. However, the properties of the plasma flow cannot be determined easily, because of the complex physical phenomena, such as arc discharge and supersonic expansion, occurring inside the tunnel. The shock-layer structure should be clarified to evaluate the aerodynamic characteristics, communication conditions, and thermal- protection performance in a high-temperature environment. In this study, shock-layer spectroscopic measurements of a plasma flow in a 1 MW-class arc-heated wind tunnel were performed. The γ-band system spectra of nitric oxide (NO) molecules in the ultraviolet region were measured, and the rotational temperature was determined via spectral fitting through comparison with numerical spectra. The rotational temperature of the NO molecules in the shock layer was 6,620±350 K, whereas that in the free jet was much lower at 770±60 K. This difference is attributed to the increase in translational temperature by flow stagnation across the shock wave, followed by the increase in rotational temperature owing to energy relaxation. A computational science approach revealed the detailed structure of the flow through comparisons with the spectroscopic measurement data. The wind tunnel flow became hypersonic with high temperature and low pressure due to the expansion and acceleration at the nozzle and test chamber. Although the temperature increased across the shock wave, the chemical reaction progressed slowly owing to the low-pressure environment. The rotational temperature in the shock layer increased with the translational temperature; this agrees with the trend of the measurement results. The arc-heated flow was found to be in strong thermo- chemical nonequilibrium in the shock layer. Through this study, a detailed structure of arc-heated flow was revealed and its methodology was also proposed.

Multiphysics Mathematical Modeling and Flow Field Analysis of an Inflatable Membrane Aeroshell in Suborbital Reentry
Minghao Yu; Zeyang Qiu; Bo Lv; Yusuke Takahash
Mathematics, 10, 5, 832, 846, 2022, [Peer-reviewed]
English, Scientific journal

Experimental demonstration and mechanism of mitigating reentry blackout via surface catalysis effects
Hideto Takasawa; Yusuke Takahashi; Nobuyuki Oshima; Hisashi Kihara
Journal of Physics D: Applied Physics, 54, 22, 225201, 225201, 08 Mar. 2021, [Peer-reviewed], [Last author]
English, Scientific journal

Fluid-Structure Interaction Analysis for Martian Exploration Parafoil with Deployable Structure by Coupling Library Precice
K. Ishida; J. Tobari; Y. Takahashi; N. Oshima; R. Shibata
14th WCCM-ECCOMAS Congress, CIMNE, 2021, [Peer-reviewed]
International conference proceedings

Flow Enthalpy of Nonequilibrium Plasma in 1 MW Arc-Heated Wind Tunnel
Yusuke Takahashi; Naoya Enoki; Taiki Koike; Mayuko Tanaka; Kazuhiko Yamada; Takayuki Shimoda
AIAA Journal, 59, 1, 263, 275, Jan. 2021, [Peer-reviewed], [Lead author, Corresponding author]
English, Scientific journal

Aerodynamic instability of an inflatable aeroshell in suborbital re-entry
Yusuke Takahashi; Tatsushi Ohashi; Nobuyuki Oshima; Yasunori Nagata; Kazuhiko Yamada
Physics of Fluids, 32, 7, 075114, 075114, 01 Jul. 2020, [Peer-reviewed], [Lead author, Corresponding author]
English, Scientific journal

Surface catalysis effects on mitigation of radio frequency blackout in orbital reentry
Yusuke Takahashi, Naoya Enoki, Hideto Takasawa, Nobuyuki Oshima,
Journal of Physics D: Applied Physics, 53, 23, 235203, 235203, Apr. 2020, [Peer-reviewed], [Lead author, Corresponding author]
English, Scientific journal

Aerodynamics of inflatable nano-satellite “EGG” in low earth orbit and reentry duration
Naoya Enoki; Yusuke Takahashi; Nobuyuki Oshima; Kazuhiko Yamada; Kojiro Suzuki
AIP Conference Proceedings, 2132, 100002, 05 Aug. 2019, [Peer-reviewed], [Corresponding author], [International Magazine]
English, International conference proceedings

Aerothermodynamic Analysis for Deformed Membrane of Inflatable Aeroshell in Orbital Reentry Mission
Yusuke Takahashi; Taiki Koike; Nobuyuki Oshima; Kazuhiko Yamada
Aerospace Science and Technology, 92, 858, 868, 2019, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal

Drag Behavior of an Inflatable Reentry Vehicle in the Transonic Regime
Yusuke Takahashi; Manabu Matsunaga; Nobuyuki Oshima; Kazuhiko Yamada
Journal of Spacecraft and Rockets, 56, 2, 577, 585, 2019, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal

Spectroscopic Measurement of Air Plasma Flow Generated by 10 kW Class ICP Heater
Mayuko Tanaka; Kazuhiko Yamada; Yusuke Takahashi; Yu Minghao; Asei Tezuka
Journal of the Japan Society for Aeronautical and Space Sciences, 67, 2, 42, 48, 2019, [Peer-reviewed]
Japanese, Scientific journal

Experimental Estimation of Rear-side Heat Flux of Hayabusa Sample Return Capsule
Yasuhisa FUKUDA; Takahiro ARAYA; Yusuke TAKAHASHI; Kazuhiko YAMADA; Jun KOYANAGI
Koku-Uchu-Gijyutsu (Aerospace Technology Japan, the Japan Society for Aeronautical and Space Sciences), 18, 127, 131, 2019, [Peer-reviewed]
Japanese, Scientific journal

Aerodynamic heating of inflatable aeroshell in orbital reentry
Yusuke Takahashi; Kazuhiko Yamada
Acta Astronautica, 152, 437, 448, Nov. 2018, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal

Aerodynamic instability of flare-type membrane inflatable vehicle in suborbital reentry demonstration
Tatsushi Ohashi; Yusuke Takahashi; Hiroshi Terashima; Nobuyuki Oshima
Journal of Fluid Science and Technology, 13, 3, JFST0020, JFST0020, Oct. 2018, [Peer-reviewed], [Last author, Corresponding author]
English, Scientific journal

Aerodynamic-heating analysis of sample-return capsule in future trojan-asteroid exploration
Yusuke Takahashi; Kazuhiko Yamada
Journal of Thermophysics and Heat Transfer, 32, 3, 547, 559, American Institute of Aeronautics and Astronautics Inc., 2018, [Peer-reviewed], [Lead author, Last author, Corresponding author]
English, Scientific journal

Reentry blackout prediction for atmospheric reentry demonstrator mission considering uncertainty in chemical reaction rate model
Minseok Jung; Hisashi Kihara; Ken-Ichi Abe; Yusuke Takahashi
Physics of Plasmas, 25, 1, 013507, American Institute of Physics Inc., 01 Jan. 2018, [Peer-reviewed]
English, Scientific journal

Aerodynamic Heating Analysis for Inflatable Reentry Vehicle
高橋裕介; 松永学; 大島伸行; 山田和彦
日本航空宇宙学会誌, 65, 12, 370, 376, Dec. 2017, [Peer-reviewed]
Japanese, Scientific journal

Plasma flow modeling for Huels-type arc heater with turbulent diffusion
Yusuke Takahashi; Burkard Esser; Lars Steffens; Ali Guelhan
PHYSICS OF PLASMAS, 24, 12, 123509, Dec. 2017, [Peer-reviewed], [Lead author, Corresponding author], ［Internationally co-authored］
English, Scientific journal

Methods for Determining Nozzle-Throat-Erosion History in Hybrid Rockets
Landon Kamps; Yuji Saito; Ryosuke Kawabata; Masashi Wakita; Tsuyoshi Totani; Yusuke Takahashi; Harunori Nagata
Journal of Propulsion and Power, 33, 6, 1369, 1377, American Institute of Aeronautics and Astronautics, Nov. 2017, [Peer-reviewed]
English, Scientific journal

Research, Development and Flight Demonstrations of Deployable Membrane Aeroshell for Atmospheric Entry System
YAMADA Kazuhiko; SUZUKI Kojiro; ABE Takashi; AKITA Daisuke; IMAMURA Osamu; NAGATA Yasunori; TAKAHASHI Yusuke
Aeronautical and Space Sciences Japan, 65, 11, 333, 340, THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES, Nov. 2017, [Peer-reviewed]
Japanese,

展開型柔軟エアロシェルは，将来の革新的な大気圏突入システムとして期待されている．我々のグループでは，カプセル形状の本体の周りに取り付けられる円錐形状の薄膜フレアと，その外周に取り付けられたガス圧で展開し形状を維持するインフレータブルリングで構成される，薄膜フレア型の展開型柔軟エアロシェルに注目して研究開発を進めてきた．本技術に対する我々の研究開発活動の特徴は，大気球実験，観測ロケット実験，国際宇宙ステーション/「きぼう」からの超小型衛星の放出機会など，各種フライト機会を利用し，その都度，フライト実験機を開発し，実際に飛行させることで，各要素技術のフライト環境での実証や大気圏突入システムとしての機能検証を行ってきた点にある．本稿では，展開型大気圏突入機の研究開発の紹介とともに，我々がこれまでに行ってきた各種フライト試験の概要について紹介する．

Aerodecelerator Performance of Flare-Type Membrane Inflatable Vehicle in Suborbital Reentry
Yusuke Takahashi; Dongheun Ha; Nobuyuki Oshima; Kazuhiko Yamada; Takashi Abe; Kojiro Suzuki
JOURNAL OF SPACECRAFT AND ROCKETS, 54, 5, 993, 1004, Sep. 2017, [Peer-reviewed]
English, Scientific journal

Numerical simulation of plasma flows and radio-frequency blackout in atmospheric reentry demonstrator mission
Minseok Jung; Minseok Jung; Hisashi Kihara; Hisashi Kihara; Ken Ichi Abe; Ken Ichi Abe; Yusuke Takahashi
47th AIAA Fluid Dynamics Conference, 2017, 01 Jan. 2017, [Peer-reviewed]

LARGE-EDDY SIMULATION WITH A NEW FLAMELET MODEL FOR PARTIALLY PREMIXED COMBUSTION IN A GAS-TURBINE COMBUSTOR
Keisuke Tanaka; Tomonari Sato; Nobuyuki Oshima; Jiun Kim; Yusuke Takahashi; Yasunori Iwai
PROCEEDINGS OF THE ASME POWER CONFERENCE JOINT WITH ICOPE-17, 2017, VOL 1, 2017
English, International conference proceedings

Flow-field differences and electromagnetic-field properties of air and N-2 inductively coupled plasmas
Minghao Yu; Kazuhiko Yamada; Yusuke Takahashi; Kai Liu; Tong Zhao
PHYSICS OF PLASMAS, 23, 12, 123523, Dec. 2016, [Peer-reviewed]
English, Scientific journal

Numerical analysis on the effect of angle of attack on evaluating radio-frequency blackout in atmospheric reentry
Minseok Jung; Hisashi Kihara; Ken-ichi Abe; Yusuke Takahashi
JOURNAL OF THE KOREAN PHYSICAL SOCIETY, 68, 11, 1295, 1306, Jun. 2016, [Peer-reviewed]
English, Scientific journal

Analysis of Radio Frequency Blackout for a Blunt-Body Capsule in Atmospheric Reentry Missions
Yusuke Takahashi; Reo Nakasato; Nobuyuki Oshima
Aerospace, 3, 1, 2, 2, Jan. 2016, [Peer-reviewed]
English, Scientific journal

Advanced validation of CFD-FDTD combined method using highly applicable solver for reentry blackout prediction
Yusuke Takahashi
JOURNAL OF PHYSICS D-APPLIED PHYSICS, 49, 1, 015201, Jan. 2016, [Peer-reviewed]
English, Scientific journal

Aerodynamic Heating Around Flare-Type Membrane Inflatable Vehicle in Suborbital Reentry Demonstration Flight
Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe; Kojiro Suzuki
JOURNAL OF SPACECRAFT AND ROCKETS, 52, 6, 1530, 1541, Nov. 2015, [Peer-reviewed]
English, Scientific journal

Thermochemical Nonequilibriu.m 2D Modeling of Nitrogen Inductively Coupled Plasma Flow
Yu Minghao; Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe; Kazuhiko Yamada; Takashi Abe; Satoshi Miyatani
PLASMA SCIENCE & TECHNOLOGY, 17, 9, 749, 760, Sep. 2015, [Peer-reviewed]
English, Scientific journal

Computation and analysis of the electron transport properties for nitrogen and air inductively-coupled plasmas
Minghao Yu; Hisashi Kihara; Ken-ichi Abe; Yusuke Takahashi
JOURNAL OF THE KOREAN PHYSICAL SOCIETY, 66, 12, 1833, 1840, Jun. 2015, [Peer-reviewed]
English, Scientific journal

Accuracy verification of the turbulent flame les model by a methane/air burner flame
Murase Kagenobu; Oshima Nobuyuki; Takahashi Yusuke
ASME/JSME/KSME 2015 Joint Fluids Engineering Conference, AJKFluids 2015, 1A, American Society of Mechanical Engineers, 2015
English, International conference proceedings

Numerical study of plasma flow around a reentry vehicle during atmospheric reentry with an unstructured grid solver
Reo Nakasato; Yusuke Takahashi; Nobuyuki Oshima
ASME/JSME/KSME 2015 Joint Fluids Engineering Conference, AJKFluids 2015, 1A, American Society of Mechanical Engineers, 2015
English, International conference proceedings

Aerodynamic Simulation of Inflatable Re-Entry Vehicle Performance in Low Speed Wind Tunnel
Dongheun HA; Yusuke TAKAHASHI; Kazuhiko YAMADA; Takashi ABE
Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan, 12, ists29, Po_2_57, Po_2_62, THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES, Dec. 2014, [Peer-reviewed]
English, Scientific journal, An inflatable re-entry vehicle is a candidate for future re-entry systems. Owing to the large area and configuration of the vehicle, it can afford a few advantages during the re-entry, descent, and landing approach, such as a decrease of aerodynamic heating and soft landing without requiring a parachute system. To investigate aerodynamic characteristics of inflatable reentry vehicle at low-Mach-number flight, wind tunnel tests were performed in JAXA Low-Speed-Wind tunnel. In this research, we investigated aerodynamic characteristics of 2 types of inflatable reentry vehicle, SMAAC and TITANS, at a low-Mach-number by using numerical simulation. Through the flow field simulation, it was indicated that the computed result of drag coefficient shows reasonable agreement with the experimental one. In the case of TITANS, the computed results showed good agreements compared with experimental results though it was confirmed that a blockage effect was observed.

Prediction Performance of Blackout and Plasma Attenuation in Atmospheric Reentry Demonstrator Mission
Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe
JOURNAL OF SPACECRAFT AND ROCKETS, 51, 6, 1954, 1964, Nov. 2014, [Peer-reviewed]
English, Scientific journal

Numerical Investigation of Flow Fields in Inductively Coupled Plasma Wind Tunnels
Yu Minghao; Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe; Kazuhiko Yamada; Takashi Abe
PLASMA SCIENCE & TECHNOLOGY, 16, 10, 930, 940, Oct. 2014, [Peer-reviewed]
English, Scientific journal

Improvement of a Three-Band Radiation Model for Application to Chemical Nonequilibrium Flows
Naoya Hirata; Masataka Yamada; Hisashi Kihara; Ken-ichi Abe; Yusuke Takahashi
Journal of Thermophysics and Heat Trasnfer,, 28, 4, 709, 803, Oct. 2014, [Peer-reviewed]
English, Scientific journal

Examination of Radio Frequency Blackout for an Inflatable Vehicle During Atmospheric Reentry
Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe
JOURNAL OF SPACECRAFT AND ROCKETS, 51, 2, 430, 441, Mar. 2014, [Peer-reviewed]
English, Scientific journal

Advanced Validation of Nonequilibrium Plasma Flow Simulation for Arc-Heated Wind Tunnels
Yusuke Takahashi; Takashi Abe; Hiroki Takayanagi; Masahito Mizuno; Hisashi Kihara; Ken-ichi Abe
JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER, 28, 1, 9, 17, Jan. 2014, [Peer-reviewed]
English, Scientific journal

Numerical simulation of flow field around an inatable vehicle during a reentry demonstration flight
Dongheun Ha; Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe
32nd AIAA Applied Aerodynamics Conference, American Institute of Aeronautics and Astronautics Inc., 2014
English, International conference proceedings

LARGE-EDDY SIMULATION OF TRANSIENT BEHAVIOR IN A COMBUSTION FIELD FOR GAS-TURBINE ENGINE
Yusuke Takahashi; Nobuyuki Oshima; Yasunori Iwai
11TH WORLD CONGRESS ON COMPUTATIONAL MECHANICS; 5TH EUROPEAN CONFERENCE ON COMPUTATIONAL MECHANICS; 6TH EUROPEAN CONFERENCE ON COMPUTATIONAL FLUID DYNAMICS, VOLS V - VI, 5792, 5803, 2014
English, International conference proceedings

Numerical Simulation of Nonequilibrium Inductive Plasma Flow Coupled with Electromagnetic Field Calculation
Minghao Yu; Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe; Kazuhiko Yamada; Takashi Abe
PROCEEDINGS OF THE 29TH INTERNATIONAL SYMPOSIUM ON RAREFIED GAS DYNAMICS, 1628, 1124, 1131, 2014, [Peer-reviewed]
English, International conference proceedings

Numerical prediction of test flow conditions for low density high enthalpy flow in an expansion tube facility
Takanori Akahori; Katsumi Hiraoka; Yusuke Takahashi; Yasunori Nagata; Kazuhiko Yamada; Takashi Abe
51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition 2013, American Institute of Aeronautics and Astronautics Inc., 2013
English, International conference proceedings

Aerodynamic heating around an inflatable vehicle during a reentry demonstration flight by a sounding rocket
Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe; Kojiro Suzuki
AIAA Aerodynamic Decelerator Systems (ADS) Conference 2013, 2013, [Peer-reviewed]
English, International conference proceedings

Improvement of Potential Drop Predictions for Plasma Wind Tunnels by Cathode Sheath
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER, 26, 3, 540, 544, Jul. 2012, [Peer-reviewed]
English, Scientific journal

Nonequilibrium plasma flow properties in arc-heated wind tunnels
Yusuke Takahashi; Yusuke Takahashi; Takashi Abe; Takashi Abe; Hiroki Takayanagi; Hiroki Takayanagi; Masahito Mizuno; Masahito Mizuno; Hisashi Kihara; Hisashi Kihara; Ken Ichi Abe; Ken Ichi Abe
50th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition, 20 Jun. 2012, [Peer-reviewed]

Numerical study of pyrolysis gas flow and heat transfer inside an ablator
N. Hirata; S. Nozawa; Y. Takahashi; H. Kihara; K. Abe
Computational Thermal Sciences, 4, 3, 225, 242, 2012, [Peer-reviewed]
English, Scientific journal

Radio frequency blackout possibility for an inflatable reentry vehicle
Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe
42nd AIAA Fluid Dynamics Conference and Exhibit 2012, American Institute of Aeronautics and Astronautics Inc., 2012
English, International conference proceedings

Turbulence and radiation behaviours in large-scale arc heaters
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
JOURNAL OF PHYSICS D-APPLIED PHYSICS, 44, 8, 085203, Mar. 2011, [Peer-reviewed], [Lead author, Corresponding author]
English, Scientific journal

Numerical simulation of flow fields in large-scale segmented-type arc heaters
Yusuke Takahashi; Hisashi Kihara; Ken Ichi Abe
27th Congress of the International Council of the Aeronautical Sciences 2010, ICAS 2010, 2, 1470, 1479, 01 Dec. 2010, [Peer-reviewed]

The effects of radiative heat transfer in arc-heated nonequilibrium flow simulation
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
JOURNAL OF PHYSICS D-APPLIED PHYSICS, 43, 18, 185201, May 2010, [Peer-reviewed], [Lead author, Corresponding author]
English, Scientific journal

Numerical Investigation of Nonequilibrium Plasma Flows in Constrictor- and Segmented-Type Arc Heaters
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER, 24, 1, 31, 39, Jan. 2010, [Peer-reviewed], [Lead author, Corresponding author]
English, Scientific journal

Numerical Investigation of Thermochemical Nonequililbrium Flow Field in a 20kW Arc Heater Coupled with Electric Field Calculation
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
RAREFIED GAS DYNAMICS, 1084, 883, 888, 2009
English, International conference proceedings

Demonstration of deployable aeroshell "Jettison" during the reentry flight (RATS-J)
YAMADA, Kazuhiko; NAGATA, Yasunori; TAKAHASHI, Yusuke; TAKAYANAGI, Hiroki; NAKAO, Tatsuro; HAMORI, Hitoshi; MORIYOSHI, Takahiro; ISHIMURA, Kosei; SUZUKI, Kojiro, Proceedings of Sounding Rocket Symposium 2023, Feb. 2024
誤記: 羽森, 仁
レポート番号: Ⅲ-2, 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS), Japanese

Overview Report of Free Flight Test of Hayabusa using Scientific Balloon in Australia Hayabusa-Type Larger Sample Return Capsule
YAMADA, Kazuhiko; ONO, Ryosuke; YAGI, Yuma; NAKAO, Tatsuro; TAKAYANAGI, Hiroki; SUGIMOTO, Ryo; MARU, Yusuke; OZAWA, Takashi; NAGATA, Yasunori; IMAI, Shun; KUBOTA, Sota; NAGAI, Hiroki; TAKAHASHI, Yusuke, Balloon Symposium: 2023, 01 Oct. 2023
レポート番号: isas23-sbs-004, 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS), Japanese

Coupling Analysis with Dynamic Mode Decomposition for Reentry Capsule with Thin Aeroshell
高澤秀人; 高橋裕介; 永田靖典; 山田和彦, 宇宙科学技術連合講演会講演集(CD-ROM), 67th, 2023

はやぶさ型カプセルの遷音速・低速域における空力安定性評価—Evaluation of aerodynamic stability in the transonic and low speed range of Hayabusa-type SRC
山田, 和彦; 髙栁, 大樹; 中尾, 達郎; 小野, 稜介; 八木, 邑磨; 丸, 祐介; 小澤, 宇志; 永井, 大樹; 高橋, 裕介; 永田, 靖典; 今井, 駿; YAMADA, Kazuhiko; TAKAYANAGI, Hiroki; NAKAO, Tatsuro; ONO, Ryosuke; YAGI, Yuma; MARU, Yusuke; OZAWA, Takashi; NAGAI, Hiroki; TAKAHASHI, Yusuke; NAGATA, Yasunori; IMAI, Shun, 大気球シンポジウム: 2022年度 = Balloon Symposium: 2022, Nov. 2022
大気球シンポジウム 2022年度（2022年11月7-8日. ハイブリッド開催（JAXA相模原キャンパス& オンライン))
Balloon Symposium 2022 (November 7-8, 2022. Hybrid(in-person & online) Conference (Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency (JAXA)(ISAS)), Sagamihara, Kanagawa Japan
著者人数: 11名
資料番号: SA6000177011
レポート番号: isas22-sbs-011, 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS), Japanese

流体運動連成解析を用いた遷音速域における薄殻型再突入カプセルの空力不安定性—Aerodynamic Instability of Thin Shell Type Reentry Capsule at Transonic Speed Using Coupled Analysis of Unsteady Flow with Pitching Motion
高澤 秀人; 藤井 智也; 平田 耕志郎; 森吉 貴大; 高橋 裕介; 永田 靖典; 山田 和彦, 計算工学講演会論文集 = Proceedings of the Conference on Computational Engineering and Science / 日本計算工学会 編, 27, 217, 222, Jun. 2022
東京 : 日本計算工学会, Japanese

Aerodynamic Instability of Thin Shell Type Reentry Capsule at Transonic Speed Using Coupled Analysis of Unsteady Flow with Pitching Motion
高澤秀人; 藤井智也; 平田耕志郎; 森吉貴大; 高橋裕介; 永田靖典; 山田和彦, 計算工学講演会論文集(CD-ROM), 27, 2022

Aerodynamic Instability of Thin Shell Type Reentry Capsule Using Coupled Analysis of Unsteady Flow with Pitching Motion
高澤秀人; 藤井智也; 平田耕志郎; 森吉貴大; 高橋裕介; 永田靖典; 山田和彦, 宇宙科学技術連合講演会講演集(CD-ROM), 66th, 2022

遷音速風洞実験における柔軟構造エアロシェルのFSI挙動—Fluid Structure Interaction Behavior of Inflatable Aeroshell in Transonic Wind Tunnel Experiments
戸張, 純希; 若林, 海人; 高橋, 裕介; 森吉, 貴大; 山田, 和彦; TOBARI, Junki; WAKABAYASHI, Kaito; TAKAHASHI, Yusuke; MORIYOSHI, Takahiro; YAMADA, Kazuhiko, 令和3年度宇宙航行の力学シンポジウム = Symposium on Flight Mechanics and Astrodynamics: 2021, Dec. 2021
令和3年度宇宙航行の力学シンポジウム（2021年12月20日-21日. オンライン開催)
Symposium on Flight Mechanics and Astrodynamics: 2021 (December 20-21, 2021. Online Meeting)
資料番号: SA6000174024, 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS), Japanese

Fluid-Structure Interaction Analysis for Spacecraft in Atmospheric Reentry using Open-source Software
高橋裕介; 戸帳純希; 石田国宏; 大島伸行; 柴田良一, 計算工学講演会論文集(CD-ROM), 26, 2021

Numerical Study on Mitigation of Reentry Blackout by Effects of Air Film
宮下岳士; 高澤秀人; 高橋裕介; 大島伸行; STEFFENS Lars; ESSER Burkard; GUELHAN Ali, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 53rd-39th, 2021

Study on Aerodynamic Instability Mitigation for Hayabusa-type Reentry Capsule using Proper Orthogonal Decomposition
鶴本徹; 高橋裕介; 寺島洋史; 大島伸行, 衝撃波シンポジウム講演論文集(CD-ROM), 2019, 2020

Overview and Development Status of Nano-Satellite BEAK
山田和彦; 鈴木宏二郎; 今村宰; 秋田大輔; 永田靖典; 荘司泰弘; 高橋裕介; 森吉貴大, 宇宙科学技術連合講演会講演集(CD-ROM), 63rd, 2019

Study on Aerodynamic Simulation for Martian Exploration Parafoil
石田国宏; 大橋達志; 高橋裕介; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 51st-37th, 2019

Numerical Analysis of Mitigation of Reentry Blackout in Arc-Heated Wind Tunnel
高澤秀人; 高橋裕介; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 51st-37th, 2019

The Relationship between Wake Flow of the HAYABUSA Type Reentry Capsule and Aerodynamic Stability
鶴本徹; 高橋裕介; 寺島洋史; 大島伸行, 宇宙科学技術連合講演会講演集(CD-ROM), 63rd, 2019

はやぶさ型再突入カプセルまわりの流れ場とカプセル表面圧力の関係
鶴本徹; 高橋裕介; 寺島洋史; 大島伸行, 数値流体力学シンポジウム講演論文集(CD-ROM), 33rd, 2019

1MWアーク加熱風洞における通信ブラックアウト低減化の数値シミュレーション
高澤秀人; 高橋裕介; 大島伸行; 木原尚, 数値流体力学シンポジウム講演論文集(CD-ROM), 33rd, 2019

超低軌道における膜面展開型超小型衛星のポストフライト解析
齊藤雅弘; 高橋裕介; 寺島洋史; 大島伸行, 数値流体力学シンポジウム講演論文集(CD-ROM), 33rd, 2019

運動連成解析を用いた火星探査パラフォイルの空力特性に関する研究
石田国宏; 大橋達志; 高橋裕介; 大島伸行, 数値流体力学シンポジウム講演論文集(CD-ROM), 33rd, 2019

高温衝撃風洞を用いたはやぶさカプセル周りの密度場可視化計測
内部銀二; 嶋村耕平; 藤原侑介; 原島葵; 高橋裕介; 山田和彦; 丹野英幸; 小室智幸, 衝撃波シンポジウム講演論文集(CD-ROM), 2018, ROMBUNNO.2A2‐1, 2019
Japanese

Wake Behavior of HAYABUSA Type Reentry Capsule at Subsonic Speed
高橋裕介; 大橋達志; 丸祐介; 山田和彦, 宇宙科学技術連合講演会講演集(CD-ROM), 62nd, 2018

Aerodynamic Simulation for HAYABUSA Type Reentry Capsule in Transonic Regime
鶴本徹; 高橋裕介; 寺島洋史; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 50th-36th, 2018

Dynamics of shock wave and separation region over a forced oscillating airfoil in the transonic flow regime
榎並聖也; 寺島洋史; 高橋裕介; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 50th-36th, 2018

Aerodynamic Instability Analysis of HAYABUSA Type Reentry Capsule
鶴本徹; 高橋裕介; 寺島洋史; 大島伸行, 宇宙科学技術連合講演会講演集(CD-ROM), 62nd, 2018

柔軟構造再突入機の空力加熱について
高橋裕介; 小池太輝; 大島伸行, 日本機械学会年次大会講演論文集(CD-ROM), 2018, 2018

Aerodynamic Instability Analysis of HAYABUSA Type Reentry Capsule
鶴本徹; 高橋裕介; 寺島洋史; 大島伸行, 日本機械学会流体工学部門講演会講演論文集(CD-ROM), 96th, 2018

Aerodynamic stability of flare-type thin-membrane inflatable aeroshell in suborbital reentry
大橋達志; 高橋裕介; 寺島洋史; 大島伸行, 日本機械学会流体工学部門講演会講演論文集(CD-ROM), 96th, 2018

Mitigation of Radio Frequency Blackout during Atmospheric Reentry using Surface Catalytic Effect
榎尚也; 高橋裕介; 大島伸行, 日本機械学会流体工学部門講演会講演論文集(CD-ROM), 96th, 2018

Outline of EGG mission (Re-Entry Nano-Satellite with Gossamer Aeroshell and GPS/Iridium)
今村宰; 森吉貴大; 松丸和誉; 金丸拓樹; 荒谷貴洋; 山田和彦; 鈴木宏二郎; 秋田大輔; 永田康典; 莊司泰弘; 高橋裕介; 渡邊保真; 安部隆士, 宇宙科学技術連合講演会講演集(CD-ROM), 61st, 2017

Development and Operational quick report of Nanosatellite EGG (re-Entry Satellite with Gossamer aeroshell and GPS/Iridium)
山田和彦; 森吉貴大; 松丸和誉; 金丸拓樹; 荒谷貴洋; 鈴木宏二郎; 今村宰; 秋田大輔; 永田靖典; 莊司泰弘; 高橋裕介; 渡邊保真; 安部隆士, 宇宙科学技術連合講演会講演集(CD-ROM), 61st, 2017

観測ロケットを用いた柔軟構造体の再突入試験における空力不安定性解析
大橋達志; 松永学; 高橋裕介; 寺島洋史; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 49th-35th, 2017

柔軟構造体に対する再突入ブラックアウトの数値解析
榎尚也; 松永学; 高橋裕介; 寺島洋史; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 49th-35th, 2017

大気圏再突入用柔軟構造エアロシェルの空力加熱解析
小池太輝; 高橋裕介; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 49th-35th, 2017

Aerodynamic Analysis of Reflection Chamber Airfoil in Low-density Environment
大橋達志; 高橋裕介; 大島伸行; 山田和彦, 宇宙科学技術連合講演会講演集(CD-ROM), 61st, 2017

Aerodynamic Simulation for Nano-Satellite “EGG” during Atmospheric Reentry
高橋裕介; 榎尚也; 大島伸行; 山田和彦; 鈴木宏二郎, 宇宙科学技術連合講演会講演集(CD-ROM), 61st, 2017

衝撃波はく離を伴う遷音速強制振動翼周りの非定常流れ場構造と空力予測について
榎並聖也; 寺島洋史; 高橋裕介; 大島伸行, 数値流体力学シンポジウム講演論文集(CD-ROM), 31st, 2017

Analysis Model of Aerodynamic Heating Prediction for Inflatable Reentry Vehicle in Hypersonic Flow Region
高橋 裕介; 松永 学; 山田 和彦, 年会講演会講演集, 47, 8p, 14 Apr. 2016
日本航空宇宙学会, Japanese

パラフォイル型飛翔体における翼特性が飛行安定性に及ぼす効果に関する研究—The Effect of the Airfoil Characteristics on Flight Stability for the Parafoil-Type Vehicle
森吉 貴大; 前川 啓; 金丸 拓樹; 山田 和彦; 原田 大樹; 高橋 裕介; 安部 隆士, 年会講演会 = JSASS annual meeting, 47, 7p, Apr. 2016
[東京] : 日本航空宇宙学会, Japanese

パラフォイル型飛翔体における翼特性が飛行安定性に及ぼす効果に関する研究
森吉貴大; 前川啓; 金丸拓樹; 山田和彦; 原田大樹; 高橋裕介; 安部隆士, 日本航空宇宙学会年会講演会講演集(CD-ROM), 47th, 2016

Plasma Flow and Electromagnetic Waves Analysis around ESA ARD during Atmospheric Reentry
中里玲王; 高橋裕介; 大島伸行, 宇宙航空研究開発機構特別資料 JAXA-SP-, 15-013, 2016

ISAS1MWアーク加熱風洞におけるアーク加熱気流について
高橋裕介; 松永学; 山田和彦; 下田孝幸, 衝撃波シンポジウム講演論文集(CD-ROM), 2015, 2016

ICOPE-15-1124 Numerical Investigation of Turbulent Combustion Flow in Industrial Combustor with Flamelet Approach
Sasaki Tenshi; Takahashi Yusuke; Oshima Nobuyuki; Iwai Yasunori, Proceedings of the International Conference on Power Engineering : ICOPE, 2015, 12, "ICOPE, 15-1124-1"-"ICOPE-15-1124-11", 30 Nov. 2015
In this paper, an industrial gas-turbine combustor was numerically investigated by applying large-eddy simulation for turbulent model and 2-scalar flamelet approach for combustion model. In the combustion model, the structures of premixed and non-premixed flame are expressed by conservative scalar and levelset function respectively. These two concepts are coupled for partial premixed combustion field. Flow field properties inside the flame (temperature, density, laminar flame speed) are determined by "flamelet data". The flamelet data is mainly divided in "premixed-like flamelet data" and "diffusion-like flamelet data" in this study. The premixed-like flamelet data is based on chemical equilibrium assumption and is evaluated by 0-dimensional chemical reaction calculation. On the other hand, the diffusion-like flamelet data is based on laminar flamelet assumption and is evaluated by 1-dimensional counter flow combustion calculation. In this study, for the diffusion-like combustion field in the industrial combustor, diffusion-like flamelet data was newly applied. The predicted gas temperature showed a little higher value than the temperature calculated by using the premixed-like flamelet data. However, the predicted temperatures underestimated measured one. Therefore, in this case, it was cleared that difference of flamelet data is insignificant for improving analysis accuracy., The Japan Society of Mechanical Engineers, English

大気球突入機用柔軟エアロシェル開発における大気球実験
山田 和彦; 安部 隆士; 鈴木 宏二郎; 今村 宰; 秋田 大輔; 永田 靖典; 高橋 裕介; MAAC研究開発グループ; Yamada Kazuhiko; Abe Takashi; Suzuki Kojiro; Imamura Osamu; Akita Diasuke; Nagata Yasunori; Takahashi Yusuke; MAAC Research Group, 大気球シンポジウム: 平成27年度 = Balloon Symposium: 2015, Nov. 2015
大気球シンポジウム 平成27年度（2015年11月5-6日. 宇宙航空研究開発機構宇宙科学研究所 (JAXA)(ISAS)）, 相模原市, 神奈川県資料番号: SA6000044004レポート番号: isas15-sbs-004, 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS), Japanese

Rarefied Gas Dynamics Simulation for Membrane Inflatable Small Satellite "EGG" at Ultra Low Orbit
高橋 裕介; 山田 和彦; 鈴木 宏二郎, 宇宙科学技術連合講演会講演集, 59, 5p, 07 Oct. 2015
日本航空宇宙学会, Japanese

Aerodynamic simulation of Closed-Canopy-Type Parafoil for Martian Exploration Mission at High Angle of Attack
原田 大樹; 高橋 裕介; 大島 伸行, 宇宙科学技術連合講演会講演集, 59, 6p, 07 Oct. 2015
日本航空宇宙学会, Japanese

S1910201 Aerodynamic Simulation of Inflatable Reentry Vehicle in Transonic Wind Tunnel
MATSUNAGA Manabu; HA Dongheun; TAKAHASHI Yusuke; OSHIMA Nobuyuki; YAMADA Kazuhiko, Mechanical Engineering Congress, Japan, 2015, "S1910201, 1"-"S1910201-5", 13 Sep. 2015
A reentry flight experiment of a new type reentry vehicle was carried out using JAXA S-310-41 sounding rocket. The vehicle was equipped a thin membrane aeroshell deployed by an inflatable torus structure and demonstrated deceleration at high altitude. Before the flight experiment, a wind tunnel test was conducted to obtain aerodynamic characteristics. It was found that drag coefficient data measured in the flight experiment and wind tunnel test shows different tendency in transonic region. In the present study, flow field simulations around the wind tunnel model focused on sting effect were conducted. In the flow field simulations, the drag coefficient of wind tunnel test and calculation showed good agreement, and it was clarified that major reason of drag coefficient difference is existence of sting. It is difficult to obtain drag coefficient of inflatable reentry vehicle without sting using wind tunnel in transonic region. It is useful to use numerical method., The Japan Society of Mechanical Engineers, Japanese

Validation of High-Enthalpy Flow Prediction around ESA ARD during Atmospheric Reentry with an Unstructured Grid Solver
中里玲王; 高橋裕介; 大島伸行; 溝渕泰寛; 村上桂一, 宇宙航空研究開発機構特別資料 JAXA-SP-, 14-010, 2015

大気圏再突入時におけるESA ARD周りのプラズマ流・電磁波解析
中里玲王; 高橋裕介; 大島伸行, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 47th-33rd, 2015

Characterization of JAXA/ISAS Arc Wind Tunnel Facility
下田孝幸; 山田和彦; 高橋裕介, 宇宙航空研究開発機構特別資料 JAXA-SP-, 14-010, 2015

Study on aerodynamic characteristics of a martian close-canopy-type parafoil at low Reynolds number
原田 大樹; 高橋 裕介; 大島 伸行, 宇宙科学技術連合講演会講演集, 58, 5p, 12 Nov. 2014
日本航空宇宙学会, Japanese

大型柔軟エアロシェルによる大気突入回収システムの実証試験
山田 和彦; 安部 隆士; 鈴木 宏二郎; 今村 宰; 秋田 大輔; 永田 靖典; 高橋 裕介; Yamada Kazuhiko; Abe Takashi; Suzuki Kojiro; Imamura Osamu; Akita Diasuke; Nagata Yasunori; Takahashi Yusuke, 大気球シンポジウム: 平成26年度 = Balloon Symposium: 2014, Nov. 2014
大気球シンポジウム 平成26年度（2014年11月6-7日. 宇宙航空研究開発機構宇宙科学研究所 (JAXA)(ISAS)）, 相模原市, 神奈川県資料番号: SA6000021009レポート番号: isas14-sbs-009, 宇宙航空研究開発機構宇宙科学研究所（JAXA)(ISAS), Japanese

ISSからの放出衛星（EGG）の搭載機器の動作および運用確認試験
今村 宰; 山田 和彦; 鈴木 宏二郎; 安部 隆士; 秋田 大輔; 永田 靖典; 高橋 裕介; Imamura Osamu; Yamada Kazuhiko; Suzuki Kojiro; Abe Takashi; Akita Diasuke; Nagata Yasunori; Takahashi Yusuke, 大気球シンポジウム: 平成26年度 = Balloon Symposium: 2014, Nov. 2014
大気球シンポジウム 平成26年度（2014年11月6-7日. 宇宙航空研究開発機構宇宙科学研究所 (JAXA)(ISAS)）, 相模原市, 神奈川県資料番号: SA6000021010レポート番号: isas14-sbs-010, 宇宙航空研究開発機構宇宙科学研究所（JAXA)(ISAS), Japanese

S1910104 Prediction Performance of Plasma Flow and RF Blackout around a Reentry Vehicle with an Angle of Attack
TAKAHASHI Yusuke; RAURELL Daniel Sors; OSHIMA Nobuyuki, Mechanical Engineering Congress, Japan, 2014, "S1910104, 1"-"S1910104-5", 07 Sep. 2014
Numerical prediction model of plasma flow and electromagnetic waves around a reentry vehicle was validated based on experimental results of the radio attenuation measurement program (RAM-CII). Through the plasma flow simulations, the detailed distributions of the flow-field properties in the shock layer and wake region were successfully obtained by three-dimensional unstructured grid solver (FaSTAR) to consider angle of attack of the vehicle. The flow-field solver installed real gas effect models and could treat thermochemically nonequilibrium flow. Moreover, the distribution of the electron number density around the vehicle was clarified. A frequency-dependent finite-difference time-domain (FD2TD) method was used for simulations of electromagnetic waves. In the simulation, the physical properties were obtained from the results of the plasma flow calculation. In the present study, electromagnetic wave behaviors in an ionized gas region around the reentry vehicle were investigated in detail. Prediction performance of the combined model was evaluated with profile of the electron number density near the vehicle surface and a signal loss measured in communication between the vehicle and ground station., The Japan Society of Mechanical Engineers, Japanese

ISSから放出される柔軟構造エアロシェルを有する再突入機の開発
奥田謙太朗; 森吉貴大; 土井翔平; 宮谷聡; 山田和彦; 鈴木宏二郎; 安部隆士; 永田靖典; 今村宰; 秋田大輔; 高橋裕介, 宇宙科学技術連合講演会講演集(CD-ROM), 58th, 2014

大気圏突入時におけるESA ARD周りの高エンタルピー流に関する非構造格子解析モデルの検証
中里玲王; 高橋裕介; 大島伸行; 溝渕泰寛; 村上桂一, 流体力学講演会/航空宇宙数値シミュレーション技術シンポジウム講演集(CD-ROM), 46th-32nd, 2014

大気再突入機の通信ブラックアウト予測モデルの検証
高橋裕介; JHA Abhinav Kumar; 大島伸行; 山田和彦, 宇宙科学技術連合講演会講演集(CD-ROM), 58th, 2014

メタン空気バーナー火炎を対象とした乱流燃焼モデルの精度検証
村瀬景信; 大島伸行; 高橋裕介, 燃焼シンポジウム講演論文集, 52nd, 2014

実機燃焼器における乱流燃焼場のLES/Flameletアプローチ
高橋裕介; 大島伸行; 岩井保憲, 数値流体力学シンポジウム講演論文集(CD-ROM), 28th, 2014

JAXA相模原アーク風洞の特性評価
下田孝幸; 山田和彦; 高橋裕介, 宇宙科学技術連合講演会講演集(CD-ROM), 58th, 2014

柔軟エアロシェルの地球再突入実証ミッション提案
山田 和彦; 安部 隆士; 永田 靖典; 高橋 裕介; 秋田 大輔; 今村 宰; 鈴木 宏二郎; 柔軟構造大気突入機(MAAC)研究グループ; Yamada Kazuhiko; Abe Takashi; Nagata Yasunori; Takahashi Yusuke; Akita Daisuke; Imamura Osamu; Suzuki Kojiro, 宇宙航行の力学シンポジウム: 平成24年度 = Symposium on Flight Mechanics and Astrodynamics: 2012, 136, 139, Dec. 2013
平成24年度宇宙航行の力学シンポジウム（2012年12月13日-14日. 宇宙航空研究開発機構宇宙科学研究所）, 相模原市, 神奈川県資料番号: SA6000010033, 宇宙航空研究開発機構宇宙科学研究所（JAXA)（ISAS), Japanese

膨張波管を用いた高エンタルピー流れにおける電磁シールド効果の検証
服部盛正; 嶋津悠介; 手塚亜聖; 高橋裕介; 永田靖典; 上野一磨; 山田和彦; 安部隆士, 衝撃波シンポジウム講演論文集, 2012, 117, 120, 13 Mar. 2013
Japanese

G201 Thermal Response Analysis of a Light-weight Ablator in Superorbital Reentry Environment
HIRATA Naoya; NOZAWA Sohei; TAKAHASHI Yusuke; YAMADA Masataka; KIHARA Hisashi; ABE Ken-ichi, Fluids engineering conference ..., 2012, 467, 468, 16 Nov. 2012
Thermal response analysis of a light-weight ablator coupled with radiating flow-field analysiswas carried out. Pyrolysis-gas flow inside the light-weight ablator, which has relatively high porosity, should show characteristics different from that inside a traditional heavy ablator. Moreover, the effect of pyrolysis-gas flow is considered to be large in the lightweight ablator. Therefore, in the thermal response analysis, the pyrolysis-gas flow inside the ablator was calculated in detail. For the calculation condition, the flight environment of Hayabusa capsule was used. The results showed multi-dimensional aspects for the pyrolysis-gas flow and thus the detailed analysis such as used in this paper is essential for the analysis of a light-weight ablator., The Japan Society of Mechanical Engineers, Japanese

The Scale Effect of the Interaction between a High-Enthalpy Flow and a Magnetized Body
Hattori Morimasa; Makino Hitoshi; Nagata Yasunori; Takahashi Yusuke; Yamada Kazuhiko; Abe Takashi, 宇宙航空研究開発機構特別資料: 第43回流体力学講演会: 航空宇宙数値シミュレーション技術シンポジウム2011論文集 = JAXA Special Publication: Proceedings of 43rd Fluid Dynamics Conference / Aerospace Numerical Simulation Symposium 2011, 11, 107, 112, 30 Mar. 2012
43rd Fluid Dynamics Conference / Aerospace Numerical Simulation Symposium 2011 (July 7-8, 2011. Waseda University, International Conference Center), Tokyo JapanFor a high-enthalpy flow, it has been suggested that shock layer formed by the body in a weakly-ionized flow is enhanced as a result of the interaction between a magnetic field applied to the body and the flow. According to the theory, the scale effect of the interaction is organized by the interaction parameter defined by the ratio of the magnetic force to inertial force of the flow, which includes not only the intensity of the applied magnetic field but also the flow parameters such as density. In this study, the scale effect of the interaction is investigated experimentally, by varying not only the intensity of the applied magnetic field but also other parameters. For this purpose, the high-enthalpy flow generated in the expansion tube is employed. It was confirmed that the influence on the shock layer by the interaction is almost proportional to the interaction parameter as the theory suggests.Physical characteristics: Original contains color illustrations, Japan Aerospace Exploration Agency (JAXA), Japanese

1715 Performance of Reynolds-Averaged Turbulence Models for Predicting Flow Fields in Large-Scale Arc-Heated Wind Tunnels
TAKAHASHI Yusuke; KIHARA Hisashi; ABE Ken-ichi, Fluids engineering conference ..., 2010, 507, 508, 29 Oct. 2010
Turbulent plasma flow in a large-scale arc heater was numerically investigated and the distributions of the arc-heated flow-field properties were successfully obtained. The turbulent flow field was described by the Navier-Stokes equations with a multi-temperature model, tightly coupled with the electric-field and radiation-field calculations. As for radiation and turbulence models, an accurate and low-cost radiation model and a low-Reynolds number two-equation turbulence model were introduced into the flow-field simulation. It was confirmed that the plasma flow inside the arc-heating facilities was in a state of high nonequilibrium in the expansion section and the arc discharge plays a critical role in the heating section. It was quantitatively clarified that the radiation and turbulence phenomena were very important mechanisms to transfer heat and momentum from high-temperature flow near the core to cold gas region near the facility wall., The Japan Society of Mechanical Engineers, Japanese

Encyclopedia of Plasma Technology
Yusuke Takahashi, Arc-Heated Wind Tunnel
CRC Press, Taylor & Francis Group, Feb. 2017, 146650059X, 1728, English, [Contributor]

Study on Mitigation of Reentry Blackout by Surface Catalysis Effects in Arc-Heated Wind Tunnel
Hideto Takasawa; Yusuke Takahashi; Nobuyuki Oshima; Hisashi Kihara
Aerospace Europe Conference 2020,, Feb. 2020, English, Oral presentation
25 Feb. 2020 - 28 Feb. 2020, Bordeaux, France

再突入ブラックアウト低減化に向けた数値的研究
高橋裕介
日本学術会議第9回計算力学シンポジウム, 11 Dec. 2019, Japanese, Invited oral presentation
11 Dec. 2019 - 11 Dec. 2019, [Invited]

Numerical Analysis of Aerodynamic Instability for HAYABUSA Type Reentry Capsule
Toru TSURUMOTO; Yusuke TAKAHASHI; Hiroshi TERASHIMA; Nobuyuki OSHIMA
8TH EUROPEAN CONFERENCE FOR AERONAUTICS AND SPACE SCIENCES (EUCASS), 01 Jul. 2019, English, Oral presentation
01 Jul. 2019 - 04 Jul. 2019, Madrid, Spain

Aerodynamics of Inflatable Nano-Satellite “EGG” in Low Earth Orbit and Reentry Duration
Naoya Enoki; Yusuke Takahashi; Nobuyuki Oshima; Kazuhiko Yamada; Kojiro Suzuki
31st Internal Symposium on Rarefied Gas Dynamics, 23 Jul. 2018, English, Oral presentation
[International presentation]

大気再突入時における宇宙機の空力・空力加熱について
高橋裕介; 小池太輝
北海道大学-JAXA連携企画講演会・HASTIC学術技術講演会, 07 Mar. 2018, Japanese, Invited oral presentation
07 Mar. 2018 - 07 Mar. 2018, [Invited]

Aerodynamic heating prediction of flare-type membrane inflatable reentry vehicle from low earth orbit
Taiki Koike; Yusuke Takahashi; Nobuyuki Oshima; Kazuhiko Yamada
AIAA Atmospheric Flight Mechanics Conference, 2018, 2018, American Institute of Aeronautics and Astronautics Inc, AIAA, English
2018 - 2018, Aerodynamic heating around a flare-type membrane inflatable vehicle during Earth atmospheric reentry was investigated using numerical simulation approach. This vehicle, which is mainly composed of the capsule, membrane aeroshell and inflatable torus, has been developed by the Membrane Aeroshell for Atmospheric-entry Capsule (MAAC) group as a one of the innovative reentry systems. Analysis solver for reentry flows around the vehicle was RG-FaSTAR, which is a branch version of JAXA fast aerodynamic routine (FaSTAR). In addition, structure analysis solver also was used for membrane deformation in a loosely-coupled manner with the flow field. In the present research, the effects of angle of attack (AoA) and membrane aeroshell deformation on aerodynamic heating were investigated. The numerical results showed that heat flux distribution drastically varies with the increase in AoA because of changes of flow field, and heat flux value at the stagnation point for case of AoA of 40 degree was 3.09 times as high as that for 0 degree. Moreover, the deformed shapes for case of AoA of 0 and 40 degrees were calculated in the way which the pressure distributions obtained using initial (undeformed) shape were given as the aerodynamic force. The difference of heat fluxes between the deformed and initial shapes on the head capsule part was remarkable as 188.8% for case of AoA of 0 degree. On the other hand, it was indicated that membrane deformation for case of AoA of 40 degree insignificantly affects the peak heat flux value on the inflatable torus such as the case of the AoA of 0 degree.

Aerodynamic Heating Prediction of Flare-type Membrane Inflatable Reentry Vehicle from Low Earth Orbit
Taiki Koike; Yusuke Takahashi; Nobuyuki Oshima; Kazuhiko Yamada
2018 AIAA Atmospheric Flight Mechanics Conference, AIAA SciTech Forum, Jan. 2018, English, Oral presentation
[International presentation]

Aerodynamic Instability of Flare-type Membrane Inflatable Vehicle in Suborbital Reentry Demonstration
Tatsushi OHASHI; Manabu MATSUNAGA; Yusuke TAKAHASHI; Hiroshi TERASHIMA; Nobuyuki OSHIMA
The Ninth JSME-KSME Thermal and Fluids Engineering Conference (TFEC9), 27 Oct. 2017, English, Oral presentation
[International presentation]

Prediction of electromagnetic waves around an inflatable reentry vehicle in an atmospheric reentry mission
Naoya ENOKI; Manabu MATSUNAGA; Yusuke TAKAHASHI; Hiroshi TERASHIMA; Nobuyuki OSHIMA; Kazuhiko YAMADA; Kojiro SUZUKI
The Ninth JSME-KSME Thermal and Fluids Engineering Conference (TFEC9), 27 Oct. 2017, English, Oral presentation
[International presentation]

Large-Eddy Simulation with a New Flamelet Model for Partially Premixed Combustion in a Gas-Turbine Combustor
Keisuke Tanaka; Tomonari Sato; Nobuyuki Oshima; Jiun Kim; Yusuke Takahashi; Yasunori Iwai
the ASME 2017 Power and Energy Conference, 26 Jun. 2017, English, Oral presentation
[International presentation]

Numerical Simulation of Plasma Flows and Radio-Frequency Blackout in Atmospheric Reentry Demonstrator Mission
Minseok Jung; Hisashi Kihara; Ken-ichi Abe; Yusuke Takahashi
47th AIAA Fluid Dynamics Conference, AIAA AVIATION Forum, 05 Jun. 2017, English, Oral presentation
[International presentation]

Aerodynamic Heating Prediction of an Inflatable Reentry Vehicle in a Hypersonic Wind Tunnel
Manabu Matsunaga; Yusuke Takahashi; Nobuyuki Oshima; Kazuhiko Yamada
55th AIAA Aerospace Sciences Meeting, 09 Jan. 2017, English, Oral presentation
[International presentation]

Aerodynamic heating prediction of an inflatable reentry vehicle in a hypersonic wind tunnel
Manabu Matsunaga; Yusuke Takahashi; Nobuyuki Oshima; Kazuhiko Yamada
AIAA SciTech Forum - 55th AIAA Aerospace Sciences Meeting, 2017, American Institute of Aeronautics and Astronautics Inc., English
2017 - 2017, Aerodynamic heating around an inflatable reentry vehicle was investigated using hypersonic wind tunnel and numerical approach. The inflatable reentry vehicle is mainly composed of the capsule, membrane aeroshell (rigid in the wind tunnel), and inflatable torus. Basic configuration of the reentry vehicle (HWT-MAAC) is a scaled-down model of SMAAC, which was used in demonstration mission with JAXA / ISAS S-310-41 sounding rocket. Spherical cap of the SMAAC model was replaced by blunt top. Freestream condition of Mach number of 10, reservoir pressure of 2.5 MPa, and reservoir temperature of 950 K was used in the hypersonic wind tunnel test. Heat flux distribution on the surface and density gradient around the HWT-MAAC were measured by infrared thermography and Schliren photograph techniques, respectively. It was found that heat flux distribution widely varies according to angle of attack of the vehicle and a recirculation region near the membrane aeroshell section of the vehicle can appear at high angle of attack. Flow field was also numerically simulated with computational fluid dynamics approach. Analysis solver used here in was RG-FaSTAR, which is a version of JAXA fast aerodynamic routine (FaSTAR). Structures of shock layer and expansion region around HWT-MAAC was discussed through the analysis approach and the wind tunnel results.

NUMERICAL INVESTIGATION OF ABLATION EFFECT ON AERODYNAMIC HEATING FOR HIGH VELOCITY REENTRY CAPSULE
Manabu Matsunaga; Takahiro Sasaki; Yusuke Takahashi; Nobuyuki Oshima
The 27th International Symposium on Transport Phenomena (ISTP27), 20 Sep. 2016, English, Oral presentation
[International presentation]

NUMERICAL ANALYSIS OF RADIO FREQUENCY BLACKOUT FOR ATMOSPHERIC REENTRY VEHICLE USING CFD-CEM COMBINED METHOD
Yusuke Takahashi; Reo Nakasato; Nobuyuki Oshima
VII European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS Congress 2016), 05 Jun. 2016, English, Oral presentation
Crete Island, Greece, [International presentation]

Numerical analysis of radio frequency blackout for atmospheric reentry vehicle using CFD-CEM combined method
Yusuke Takahashi; Reo Nakasato; Nobuyuki Oshima
ECCOMAS Congress 2016 - Proceedings of the 7th European Congress on Computational Methods in Applied Sciences and Engineering, 2016, National Technical University of Athens, English
2016 - 2016, Numerical simulations of electromagnetic waves around the atmospheric reentry demonstrator (ARD) of the European Space Agency (ESA) in an atmospheric reentry mission were conducted with a combined method of computational fluid dynamics (CFD) and computational electromagnetics (CEM). During the reentry mission, radio frequency blackout and plasma attenuation of radio waves in communications with a data-relay satellite were observed. Cut-off of waves propagation was caused by highly dense plasma formed by a strong shock wave formed in front of the vehicle due to orbital speed. In this study, the physical properties of the plasma flow in the shock layer and wake region of the ESA ARD were obtained using a high-enthalpy flow solver applicable unstructured grids. Moreover, electromagnetic waves were calculated using a frequency-dependent finite-difference time-domain method using the plasma properties. The present analysis model was validated based on experimental flight data of ESA ARD. Comparisons of the measured and predicted results showed good agreements. Attenuation and reflection by reentry plasma were clarified in detail using the present model. It was suggested that the analysis model could be an effective tool for investigating radio frequency blackout and plasma attenuation in radio wave communication. Behaviors of plasma and electromagnetic waves around ESA ARD for several altitudes were investigated using the proposed model in detail.

Development of Analysis Tools for Space Vehicle in Atmospheric Reentry Mission
Yusuke Takahashi; Nobuyuki Oshima
Korea-Japan CFD Workshop 2015, 16 Dec. 2015, English, Invited oral presentation
[Invited], [International presentation]

Numerical Investigation of Turbulent Combustion Flow in Industrial Combustor with Flamelet Approach
Tenshi Sasaki; Yusuke Takahashi; Nobuyuki Oshima; Yasunori Iwai
International Conference on Power Engineering-15 (ICOPE-15), 30 Nov. 2015, English, Oral presentation
Yokohama, Japan, [International presentation]

Accuracy Verification of the Turbulent Flame LES Model by a Methane/Air Burner Flame
Kagenobu Murase; Nobuyuki Oshima; Yusuke Takahashi
ASME-JSME-KSME Joint Fluids Engineering Conference 2015, 26 Jul. 2015, English, Oral presentation
Seoul, Korea, [International presentation]

Aerodynamic Simulation of Closed-Canopy-Type Parafoil for Martian Exploration Mission
Daiki Harada; Yusuke Takahashi; Nobuyuki Oshima; Kazuhiko Yamada
ASME-JSME-KSME Joint Fluids Engineering Conference 2015, 26 Jul. 2015, English, Oral presentation
Seoul, Korea, [International presentation]

Numerical Study of Plasma Flow around a Reentry Vehicle during Atmospheric Reentry with an Unstructured Grid Solver
Reo Nakasato; Yusuke Takahashi; Nobuyuki Oshima
ASME-JSME-KSME Joint Fluids Engineering Conference 2015, 26 Jul. 2015, English, Oral presentation
Seoul, Korea, [International presentation]

Large-Eddy Simulation of Transient Behavior in a Combustion Field for Gas-Turbine Engine
Yusuke Takahashi; Nobuyuki Oshima; Yasunori Iwai
ytakahashi@eng.hokudai.ac.jp, 20 Jul. 2014, English, Oral presentation
[International presentation]

Numerical Simulation of Flow Field around an Inflatable Vehicle during a Reentry Demonstration Flight
Dongheun Ha; Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe
AIAA-2014-3283, 16 Jun. 2014, English, Oral presentation
[International presentation]

Numerical Investigation of Flow Fields in Inductively Coupled Plasma Wind Tunnel
Minghao Yu; Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe; Kazuhiko Yamada; Takashi Abe
4th Asian Symposium on Computational Heat Transfer and Fluid Flow, 03 Jun. 2013, English, Oral presentation
[International presentation]

Aerodynamic Simulation of an Inflatable Re-Entry Vehicle Performance in Low Speed Wind Tunnel
Dongheun Ha; Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe
29th International Symposium on Space Technology and Science, 02 Jun. 2013, English, Oral presentation
[Domestic Conference]

Aerodynamic Heating around an Inflatable Vehicle during a Reentry Demonstration Flight by a Sounding Rocket
Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe; Kojiro Suzuki
AIAA-2013-1303, 25 Mar. 2013, English, Oral presentation
[International presentation]

Numerical Evaluation of Nonequilibrium Plasma Flow in 1kW Class Arc Thruster
Minghao YU; Yusuke TAKAHASHI; Ken-ichi ABE; Hisashi KIHARA
5th International Symposium on Advanced Plasma Science and its Applications for Nitrides and Nanomaterials, 28 Jan. 2013, English, Poster presentation
[International presentation]

Numerical Prediction of Test Flow Conditions for Low Density High Enthalpy Flow in an Expansion Tube Facility
Takanori Akahori; Katsumi Haraoka; Yusuke Takahashi; Yasunori Nagata; Kazuhiko Yamada; Takashi Abe
AIAA-2013-1005, 07 Jan. 2013, English, Oral presentation
[International presentation]

Validation of the Scale Effect for the Electrodynamic Interaction of a Magnetized Body in a Weakly-ionized Flow
Morimasa Hattori; Aseu Tezuka; Hitoshi Makino; Yasunori Nagata; Yusuke Takahashi; Takashi Abe
AIAA-2012-2738, 25 Jun. 2012, English, Oral presentation
[International presentation]

Radio Frequency Blackout Possibility for an Inflatable Reentry Vehicle
Yusuke Takahashi; Kazuhiko Yamada; Takashi Abe
AIAA-2012-3110, 25 Jun. 2012, English, Oral presentation
[International presentation]

Nonequilibrium Plasma Flow Properties in Arc-Heated Wind Tunnels
Yusuke Takahashi; Takashi Abe; Hiroki Takayanagi; Masahito Mizuno; Hisashi Kihara; Ken-ichi Abe
AIAA-2012-1240, 09 Jan. 2012, English, Oral presentation
[International presentation]

Numerical Study of Pyrolysis Gas Flow and Heat Transfer inside an Ablator
Naoya Hirata; Sohei Nozawa; Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
the Asian Symposium on Computational Heat Transfer and Fluid Flow, Sep. 2011, English
[International presentation]

Numerical Simulation of Flow Field and Heat Transfer around HAYABUSA Reentry Capsule
Masataka Yamada; Yohei Matsuda; Naoya Hirata; Sohei Nozawa; Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
the 28th International Symposium on Space Technology and Science, 05 Jun. 2011, English, Oral presentation
[International presentation]

Numerical Simulation of Flow Fields in Large-Scale Segmented-Type Arc Heaters
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
27th Congress of the International Council of the Aeronautical Sciences, 19 Sep. 2010, English, Oral presentation
[International presentation]

Numerical Investigation of Thermal Response of Ablator Exposed to Thermochemical Nonequilibrium Flow’
Tadashi Kanzaka; Sohey Nozawa; Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
The 6th Asian-Pacific Conference on Aerospace Technology and Science, 15 Nov. 2009, English, Oral presentation
[International presentation]

Numerical Investigation of Thermochemical Nonequilibrium Flow Field in a 20kW Arc Heater Coupled with Electric Field Calculation
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
26th International Symposium on Rarefied Gas Dynamics, 21 Jul. 2008, English, Oral presentation
[International presentation]

Numerical Simulation of Plasma Flows in a 20kW Arc-Heated Wind Tunnel Using Multi-Temperature Model
Yusuke Takahashi; Hisashi Kihara; Ken-ichi Abe
Third Asian-Pacific Congress on Computational Mechanics in conjunction with Eleventh International Conference on Enhancement and Promotion of Computational Methods in Engineering and Science (APCOM’07-EPMESC XI), 03 Dec. 2007, English, Oral presentation
[International presentation]

流体工学特論, 2024年, 修士課程, 工学院

大学院共通授業科目（一般科目）：自然科学・応用科学, 2024年, 修士課程, 大学院共通科目

大気突入機設計特論, 2024年, 修士課程, 工学院

宇宙探査工学特論, 2024年, 修士課程, 工学院

流体工学特論, 2024年, 博士後期課程, 工学院

大気突入機設計特論, 2024年, 博士後期課程, 工学院

宇宙探査工学特論, 2024年, 博士後期課程, 工学院

計測工学実験, 2024年, 学士課程, 工学部

機械工学概論, 2024年, 学士課程, 工学部

Fluid-structure interaction in dynamic attitude instability of inflatable aeroshells
Grants-in-Aid for Scientific Research
01 Apr. 2024 - 31 Mar. 2028
高橋 裕介; 山田 和彦; 永田 靖典
Japan Society for the Promotion of Science, Grant-in-Aid for Scientific Research (B), Hokkaido University, 24K01072

Study on the drag modulation aerocapture by a jettison of the inflatable and flexible aeroshell and flight demonstration using a sounding rocket.
Grants-in-Aid for Scientific Research
01 Apr. 2023 - 31 Mar. 2027
山田 和彦; 永田 靖典; 高橋 裕介; 中尾 達郎; 高柳 大樹; 佐藤 泰貴
Japan Society for the Promotion of Science, Grant-in-Aid for Scientific Research (A), Japan Aerospace EXploration Agency, 23H00212

植物空力予測のためのデジタルプラットフォームの構築
2025年度 学際大規模情報基盤共同利用・共同研究拠点(JHPCN)公募型共同研究課題
Apr. 2025 - Mar. 2026
高橋裕介; 武田量; 中島大賢; 友部遼; 前田将輝
一般財団法人 高度情報科学技術研究機構, 北海道大学, jh250024

植物空力予測のためのデジタルプラットフォームの構築
2024年度 学際大規模情報基盤共同利用・共同研究拠点(JHPCN)公募型共同研究課題
Apr. 2024 - Mar. 2025
高橋裕介; 武田量; 中島大賢; 友部遼; 前田将輝; Sanjoy Kumar Saha
一般財団法人 高度情報科学技術研究機構, 北海道大学, jh240047

流体-構造連成解析を基にした大動脈解離シミュレーション手法の発展
2024年度 学際大規模情報基盤共同利用・共同研究拠点(JHPCN)公募型共同研究課題
Apr. 2024 - Mar. 2025
武田量; 佐々木克彦; 大島伸行; 横山博一; 黒田明慈; 柴田良一; 高橋裕介; 髙嶋英厳; 李辰宇
一般財団法人 高度情報科学技術研究機構, 北海道大学, jh240082

Research on Advanced Applications of Deployable Aeroshell Technology to Realize Ultra-Small Planetary Probes
Grants-in-Aid for Scientific Research
01 Apr. 2020 - 31 Mar. 2023
山田 和彦; 永田 靖典; 高橋 裕介; 佐藤 泰貴
本研究課題は、新しい大気圏突入技術として注目されている展開型柔軟エアロシェル技術をさらに進化させて、新たな応用範囲を切り開くことを目的としている。特に、１）大気圏突入中に展開エアロシェルを切り離すことで、探査機を惑星周回軌道投入を実現できる抗力変調型のエアロキャプチャ技術と、２）超軽量で、シンプルかつロバストな展開型エアロシェルが実現できる可能性があるSMA（形状記憶合金）型の展開エアロシェル技術に取り組んでいる。
2021年度の最も重要な成果は2021年12月に実施した極超音速風洞試験である。上記の1),2)の両テーマともに、2020年度に実施した極超音速風洞試験の結果を踏まえて改良した模型や試験システムを用いて、JAXA調布のΦ1.27m極超音速風洞にて風洞試験を実施した。1)の抗力変調型のエアロキャプチャに関しては、６分力測定、及び、画像計測系を改善し、エアロシェル分離時の挙動をより詳細に測定することに成功した。また、エアロシェルサイズを変更した実験を行い、2020年度の成果と併せて、エアロシェル形状の影響についても知見を取得できた。2)のSMA型エアロシェルについては、2020年度の試験時の課題であったフラッタ現象は、模型を改良することで回避でき、極超音速気流中での空力加熱によるSMA型エアロシェルの完全受動展開実験に成功した。展開中の流れ場の可視化、６分力測定、温度履歴の測定を実施し、模型形状と展開挙動の関係や空力特性を取得することができた。
それと平行して、抗力変調型エアロキャプチャに関しては、火星以外の天体（金星）への適用について、軌道解析による評価を行った。また、FSI(Fluid-structure Interaction)解析による柔軟エアロシェルと高速流体の連成解析ツールの構築も進め、これらの現象をより深く理解するための準備を整えた。
Japan Society for the Promotion of Science, Grant-in-Aid for Scientific Research (B), Japan Aerospace EXploration Agency, 20H02360

Evaluation of Aortic Dissections and Treatment Methods using Numerical Simulation
FY 2022 Joint Usage/Research Center for Interdisciplinary Large-scale Information Infrastructures (JHPCN)
Apr. 2022 - Mar. 2023
武田量; 佐々木克彦; 大島伸行; 横山博一; 黒田明慈; 柴田良一; 高橋裕介; 髙嶋英厳; 李辰宇
Research Organization for Information Science and Technology, Hokkaido University, jh220026

大型プラズマ風洞を用いた再突入ブラックアウト低減化研究の深化と加速
科学研究費助成事業
2018 - 2022
高橋 裕介
大気再突入時に高温プラズマに包まれた宇宙機が、地上局やデータ中継衛星との通信途絶現象（通信ブラックアウト）に陥ることがある。通信ブラックアウト低減化は着地着水点の高精度予測や再突入中のデータ送受信の上で重要な課題である。これまで磁場印加や、柔軟構造再突入機、テラヘルツ波など様々な低減化手法が提案されている。いま課題実施者の研究グループでは、表面触媒性を用いた宇宙機後流プラズマ密度低下を利用することによる新しい通信ブラックアウト低減を提案している。ここでは表面効果による通信ブラックアウト低減化メカニズムおよび低減化技術の指針を見出すことを目的とする。
再突入機近傍のプラズマ諸量分布や電磁波挙動の正確な予測が難しく、通信ブラックアウト低減に繋がる知見の探索が困難な状況であった。この問題を緩和するために、再突入時における宇宙機近傍の電磁波挙動を明らかにすることは有効である。本課題実施者は、これまでプラズマ流解析・電磁波解析ソフトウェアを開発し、再突入時における宇宙機近傍の電磁波解析を明らかにしてきた。ここではそれをコア技術として、大型風洞による低減化実証と合わせて研究を推進する。
昨年度に引き続き本年度でもドイツ航空宇宙センター（DLR）に滞在し通信ブラックアウト低減化研究を実施する予定だったが、新型コロナウイルス感染症拡大防止方策に伴う海外移動制限から今年度も残念ながら断念した。一方でDLR研究者との議論は継続しつつ、現所属機関（北海道大学）において遂行可能な低減化研究の実施を行った。それはJAXAプラズマ風洞における実証試験とスーパーコンピューター富岳などを用いた大規模数値計算である。主にはこれら２つのアプローチを用いて従来課題の低減化手法の研究を行うとともに、新しい低減化技術の実験的・数値的実証も実施した。
日本学術振興会, 国際共同研究加速基金(国際共同研究強化), 北海道大学, 17KK0123

Study on Reduction of Reentry Blackout by Surface Catalysis Effect
Grants-in-Aid for Scientific Research
01 Apr. 2017 - 31 Mar. 2020
Takahashi Yusuke
The radio frequency (RF) blackout for telecommunications between a reentry vehicle and a ground station hinders the accurate prediction of landing sites and increases the recovery cost. A mitigation method of RF blackout has been demanded. In this study, I proposed and demonstrated the new mitigation method using the surface catalysis effects with numerical simulation approach and wind tunnel experiments. The communication situation in reentry plasma was experimentally reproduced by 1 MW arc-heated wind tunnel, which generates high-temperature flows on the ground. Comparative tests were performed by two test models with high and low catalysis material of surfaces. The results indicated that the test model having high catalysis improves the communication situation, that is, mitigation of RF blackout. In addition, the mechanism to mitigating the RF blackout was clarified by the use of numerical analysis.
Japan Society for the Promotion of Science, Grant-in-Aid for Young Scientists (B), Hokkaido University, 17K14871

Study on behavior of a spacecraft with membrane aeroshell in super low earth orbit and flight demonstration using a nanosatellite.
Grants-in-Aid for Scientific Research
01 Apr. 2015 - 31 Mar. 2018
YAMADA Kazuhiko; SUZUKI Kojiro; IMAMURA Osamu; AKITA Daisuke; ISHIMURA Kosei; NAKASHINO Kyoichi
In this study, the behavior of a spacecraft with low-mass and large membrane aeroshell in super low earth orbit is measured in real flight using the nanosatellite EGG. The group of attitude sensors including inertial sensor, optical sensor and faraday cup sensors which can be installed in nanosatellite EGG was developed. In EGG’s flight operation, we acquired a lot of valuable flight data related to attitude motion and orbit change of a spacecraft with a membrane aeroshell. For example, an orbit change history of EGG by the aerodynamic force acting on the membrane aeroshell in rarefied flow was observed continually. These flight data are expected to be useful for the development of an important technology for nano-satellite, that is, an orbit collapse technology to prevent from becoming space debris.
Japan Society for the Promotion of Science, Grant-in-Aid for Scientific Research (B), Japan Aerospace EXploration Agency, 15H04205

A Study on Radio Frequency Blackout of Planetary Atmospheric Reentry Vehicle
Grants-in-Aid for Scientific Research
01 Apr. 2014 - 31 Mar. 2016
Takahashi Yusuke
An analysis model of plasma flow and electromagnetic waves around a reentry vehicle for radio frequency blackout prediction was developed. The plasma flow properties in the shock layer and wake region were obtained using a newly developed unstructured grid solver that incorporated real gas effect models and could treat thermochemically nonequilibrium flow. To predict the electromagnetic waves in plasma layer, a frequency-dependent finite-difference time-domain method was used. The combined model was validated based on experimental results in atmospheric reentry missions. The prediction performance of the combined model was evaluated with profiles and peak values of the electron number density. The signal losses measured during communication were directly compared with the predicted results. Based on the study, it is suggested that the analysis model could be an effective tool for investigating radio frequency blackout and plasma attenuation in radio wave communication.
Japan Society for the Promotion of Science, Grant-in-Aid for Young Scientists (B), Hokkaido University, 26820366

A study of plasma flow field around dielectric barrier discharge plasma actuator for high velocity flow condition
Grants-in-Aid for Scientific Research
2011 - 2012
TAKAHASHI Yusuke
Final goal of the present research is to develop a high-performance plasma actuator which is applicable for a condition of high-velocity flow. In the present study, to describe plasma flow behavior and potential drop by cathode sheath, numerical simulation models of plasma flow generated by dielectric barrier discharge plasma actuator and plasma near an electrode has been suggested and developed.
Japan Society for the Promotion of Science, Grant-in-Aid for Research Activity Start-up, 23860077

アーク加熱風洞を用いた高性能アブレータ開発に関する基礎研究
科学研究費助成事業
2009 - 2011
高橋 裕介
本研究の目的を,再突入時の高温環境を模擬できるアーク加熱風洞を用いてアブレータ内部現象の定量的な調査を進めるとともに,軽量で耐熱性に優れるアブレータ材料とその形状モデルの指針を見出すことに設定し,本年度における研究を実施した.これまでの成果として,九州大学20kWアーク加熱風洞の加熱部における幅射熱輸送の役割について数値解析を用いて定量的に明らかにした.さらに,JAXA 750kWアーク加熱風洞や,NASA20 MW Aerodynamic Heating Facility,NASA60 MW Interaction Heating Facilityなど,多様な大型アーク加熱風洞に対して,加熱部における乱流・幅射熱輸送の挙動を数値的に調査し,その挙動を明らかにする成果を上げた.ただし,本解析モデルを用いた解析結果は,実験直に比べてアーク電圧を過少予測する傾向にあることがわかった.その理由のひとつとして,電極近傍におけるシースを考慮していなかったことが挙げられる.したがって,アーク加熱風洞の電極近傍におけるシースモデルを提案し,電圧降下及びアーク電圧の評価を行った.
また,軽量アブレータが20kW及び750kWアーク加熱気流にさらされる条件下において,内部の熱分解ガス流動を考慮した内部熱応答解析モデルおよび周囲の高温気体との連成解析モデルの構築を行い,アブレータ熱応答解析モデルの高精度化を行った.解析結果と実験結果は良好な一致を示し,より高精度なアブレータ熱応答解析コードが開発された.
本研究を通して開発されたアーク加熱気流解析コード及びアブレータ熱応答解析コードによって,多様な風洞気流の諸量分布を提供することや,アブレータ内部の現象を定量的に調査することが可能になった.したがって,アーク加熱風洞を用いた様々な耐熱材料試験や開発を進める上で,これらは有効なツールになると考えられる.
日本学術振興会, 特別研究員奨励費, 九州大学, 09J01898

Apr. 2021 - Apr. 2021
Reviewer Awards (Plasma Science and Technology 2020)
https://publishingsupport.iopscience.iop.org/questions/plasma-science-and-technology-2020-reviewer-awards/