研究者業績

嶋田 徹

シマダ トオル  (Toru Shimada)

基本情報

所属
国立研究開発法人宇宙航空研究開発機構 宇宙科学研究所 名誉教授 (名誉教授)
日本大学 理工学部 航空宇宙工学科 特任教授
学位
工学博士(1985年3月 東京大学)
工学修士(1982年3月 東京大学)
工学学士(1980年3月 京都大学)

J-GLOBAL ID
200901053726642200
researchmap会員ID
1000304541

外部リンク

嶋田 徹(しまだ とおる)
宇宙航空研究開発機構 名誉教授

日本大学理工学部航空宇宙学科特任教授
1985年 東京大学大学院工学系研究科航空学専門課程修了・工学博士取得。1985年~2000年まで日産自動車(株)宇宙航空事業部にてロケットの設計解析に従事。2000年 旧文部省宇宙科学研究所(現:宇宙航空研究開発機構)助教授。2007年より同教授。2003年~2007年までM-Vロケットプロジェクト・ファンクションマネージャ。同ロケットの開発と打ち上げに従事。その間、北海道大学、総合研究大学院大学、東京大学で客員助教授を経て、2007年より東京大学大学院 客員教授。専門は宇宙推進流体工学、固体/ハイブリッドロケット内部の燃焼流の研究。低コストで安全なロケットの実現を目指し、2008年 よりハイブリッドロケット研究WGを主宰。2020年 宇宙飛翔工学研究系研究主幹。2021年3月 定年退職。2021年4月 再雇用(専任教授)を経て 2023年3月 退職。2023年4月 宇宙航空研究開発機構 名誉教授。2023年6月 34th International Symposium on Space Technology and Science 組織委員長。2024年4月 日本大学理工学部特任教授。


主要な論文

 18
  • Toru Shimada, Saburo Yuasa, Harunori Nagata, Shigeru Aso, Ichiro Nakagawa, Keisuke Sawada, Keiichi Hori, Masahiro Kanazaki, Kazuhisa Chiba, Takashi Sakurai, Takakazu Morita, Koki Kitagawa, Yutaka Wada, Daisuke Nakata, Mikiro Motoe, Yuki Funami, Kohei Ozawa, Tomoaki Usuki
    CHEMICAL ROCKET PROPULSION: A COMPREHENSIVE SURVEY OF ENERGETIC MATERIALS 545-575 2017年  査読有り
    The demand for the economic and dedicated space launchers for vast amount of lightweight, so-called nano-/microsatellites, is now growing rapidly. There is a strong rationale for the usage of the hybrid propulsion for economic space launch as suggested by the assessment conducted here. A typical concept of development of such an economic three-stage launcher, in which clustering unit hybrid rocket engines are employed, is described with a development scenario. Thanks to the benefits of hybrid rocket propulsion, assuring and safe, economic launcher dedicated to lightweight satellites can be developed with a reasonable amount of quality assurance and quality control actions being taken in all aspects of development such as raw material, production, transportation, storage, and operation. By applying a multi-objective optimization technique for such a launch system, examples of possible launch systems are obtained for a typical mission scenario for the launch of lightweight satellites. Furthermore, some important technologies that contribute strongly to economic space launch by hybrid propulsion are described. They are the behavior of fuel regression rate, the swirling-oxidizerflow- type hybrid rocket, the liquid oxygen vaporization, the multi-section swirl injection, the low-temperature melting point thermoplastic fuel, the thrust and O/F simultaneous control by altering-intensity swirl-oxidizer-flow-type (A-SOFT) hybrid, the numerical simulations of the internal ballistics, and so on.
  • Masaki Adachi, Toru Shimada
    AIAA JOURNAL 53(6) 1578-1589 2015年6月  査読有り
    Numerical analysis on the instability of liquid/dense fluid films under supercritical operating conditions is performed on methane fuel. A numerical code for compressible fluid flows, accommodated for the van der Waals equation of state, is developed in order to deal with supercritical fluid and dense fluid layers and has shown good convergence, even at a very low-Reynolds-number flow typically seen in actual hybrid rocket engines. A linear instability analysis is conducted and shows that an amplification rate has a peak at a certain wave number of initial perturbations. The perturbation becomes unstable as the Reynolds number and chamber pressure increase, and the instability region of the wave number is enlarged when an acceleration body force in the streamwise direction is imposed. A limit cycle of the amplitude of perturbations is observed at low-Reynolds-number flows, and the instability of dense fluid layers leads to the entrainment phenomena at high-Reynolds-number flows. It is deduced that the perturbation with the peak value of the amplification rate dominates in an actual hybrid rocket engine.
  • Toru SHIMADA, Kazushige KATO, Nobuhiro SEKINO, Nobuyuki TSUBOI, Yoshio SEIKE, Mihoko FUKUNAGA, Yu DAIMON, Hiroshi HASEGAWA, Hiroya ASAKAWA
    TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES, AEROSPACE TECHNOLOGY JAPAN 8(ists27) Pa_29-Pa_37-Pa_37 2010年  査読有り
    In this paper, described is the development of a numerical simulation system, what we call "Advanced Computer Science on SRM Internal Ballistics (ACSSIB)", for the purpose of improvement of performance and reliability of solid rocket motors (SRM). The ACSSIB system is consisting of a casting simulation code of solid propellant slurry, correlation database of local burning-rate of cured propellant in terms of local slurry flow characteristics, and a numerical code for the internal ballistics of SRM, as well as relevant hardware. This paper describes mainly the objectives, the contents of this R&D, and the output of the fiscal year of 2008.
  • Jean-Francois Guery, I-Shih Chang, Toru Shimada, Marilyn Glick, Didier Boury, Eric Robert, John Napior, Robert Wardle, Christian Perut, Max Calabro, Robert Glick, Hiroto Habu, Nobuhiro Sekino, Gilles Vigier, Bruno d'Andrea
    ACTA ASTRONAUTICA 66(1-2) 201-219 2010年1月  査読有り
    For the last 50 years solid propulsion has successfully created a multitude of small launchers and many first stages or boosters for heavy launchers with low risk, high performance. competitive cost, superb storability, and "instant" readiness in many countries. Technical Support for these successes arose from simple designs, very high thrust levels, and low development and operation costs/risks. The first solid propulsion roadmap based on these foundations and rational projections was published in 2000 [A. Davenas, D. Boury, M. Calabro, B. D'Andrea, A. McDonald, Solid propulsion for space applications: a roadmap, in: 51st International Astronautical Congress, paper IAA-00-IAA.3.3.02, October 2000]. Moreover, subsequent information Supports its enabling technologies (high strength composite cases. energetic material processing based on continuous mixing, low density insulation, reduced actuator energy requirements, and advanced detailed simulations) and applications (first stages, strap-on, add-ons, small launchers, and niche space applications). Missions currently devoted to solid propulsion and plans for present and future launchers and exploration mission developments in the USA, Japan, and Europe are sketched and targeted improvements, and potential breakthroughs are discussed. (C) 2009 Elsevier Ltd. All rights reserved.
  • Toru Shimada, Nobuhiro Sekino, Mihoko Fukunaga
    JOURNAL OF PROPULSION AND POWER 25(6) 1300-1310 2009年11月  査読有り
    To understand the mechanism of the generation of large roll torque in an operating solid rocket motor with axially slotted propellant grain and a narrow nozzle-submergence region, fully three-dimensional Navier-Stokes numerical simulations are conducted. Several grain configurations are computed, and it is found that there are at least two groups of quasi-steady-state solutions: one shows large roll torque, and the other shows small roll torque. From the current simulation results, it is observed that large roll torque is generated as a result of the interaction of the circling flow around the nozzle inlet with the slot jet exhausting from the slot end into the aft-end cavity. Although the roll torque evaluated from the computation is one order higher than that observed in real fight, the simulations provide an insight into the qualitative mechanism of real roll-torque generation.
  • Toru Shimada, Hiroshi Hasegawa
    International Journal of Energetic Materials and Chemical Propulsion 8(2) 147-158 2009年  査読有り
    In the case of center-perforated composite solid propellant grains, the radial linear burning rate often depends on web location. In many cases, the burning rate of the propellant in the middle of the web is highest along the radial direction. This distribution of the linear burning rate along the radial direction is called a midweb anomaly or hump effect. This phenomenon was researched in the 1980s in depth with many studies disclosed the mechanisms and causes. Recently, the spatial burning rate variation was measured directly with an ultrasonic device. Many studies have explained that oxidizer ammonium perchlorate (AP) particle orientation affects the magnitude of the linear burning rate. In addition, some studies showed that the burning rate anomaly depends on the burning direction. This phenomenon is practically important for the prediction of pressure-time history of a rocket motor with high accuracy. In this study, the midweb anomaly on a small center-perforated motor was investigated. The formulations of the sample propellants were similar to practical propellants. As a result of the motor firing test, pressure hump effect was measured. The burning rate anomaly along the web was estimated by the pressure hump effect and was dependent on the slurry casting process. In order to determine the directivity of the burning rate, it was measured along the motor.
  • Toru Shimada, Masahisa Hanzawa, Takakazu Morita, Takashi Kato, Takashi Yoshikawa, Yasuhiko Wada
    AIAA JOURNAL 46(4) 947-957 2008年4月  査読有り
    The acoustic combustion instability of a solid rocket motor is investigated by computational fluid dynamics and compared with theoretical results. The quasi-one-dimensional Enter equations for the unsteady flow inside the combustion chamber and the equation for the thermal conduction inside the solid propellant are simultaneously solved with a quasi-steady flame model near the burning surface. The Runge-Kutta discontinuous Galerkin method is used as the platform for the flow simulation, and a numerical accuracy study is carried out. The conventional second-order finite volume method is verified to give accurate results by comparison with the third-order Runge-Kutta discontinuous Galerkin method. The growth rate versus the nozzle entrance Mach number for the attenuation case shows good agreement with the linear theory. For the growing case, it is shown that agreement is good for small Mach numbers. The results of the stability limit show good agreement with the theory for low Mach numbers. For higher Mach numbers, the stability-limit curve of the present simulation shows a dependency on the imaginary part of the response function. Extension to the axisymmetric problem is straightforward, and preliminary results are obtained.
  • Toru Shimada, Hiroto Habu, Yoshio Seike, Seiji Ooya, Hideo Miyachi, Masaaki Ishikawa
    FLOW MEASUREMENT AND INSTRUMENTATION 18(5-6) 235-240 2007年10月  査読有り
    Simulated solid propellant slurry containing lead sphere tracers is experimentally cast into a double-circular cylindrical container. During the casting, the temperature and the pressure environment has been mimicked to an actual composite solid propellant casting of solid rocket motors. X-rays are projected on to the slurry flow from two directions and penetration images are recorded by a flat-panel detector and an X-ray image intensifier. By suppressing the mutual interference of the X-rays, the two-directional X-ray photography has been successfully conducted. Using the time series data of the X-ray images from the two directions, the identification of each tracer particle in space and time has been done and their three-dimensional paths have been computed. From these procedures, the flow field or the velocity field inside the slurry flow, which is usually invisible, has been estimated. (c) 2007 Elsevier Ltd. All fights reserved.
  • Toru Shimada, Masurni Sekiguchi, Nobuhiro Sekino
    AIAA JOURNAL 45(6) 1324-1332 2007年6月  査読有り
    Three-dimensional, single-phase (equilibrium two-phase) flows inside a solid rocket motor at three burn-back grain configurations are studied by computational fluid dynamics analyses of the Reynolds-averaged Navier-Stokes equations. The major concern is the relationship between th flowfield and the circumferentially periodic erosion pattern arising in the inlet region of the nozzle, which will be of help for better understanding of the surface recession mechanism. Obtained results for the first two cases show that, because the mass flux of the slot phase is notably large compared with that of the fin phase, a remarkable interphase gap in the amount of convection heating appears either in the throat or the exit cone. The peak heating rate appears, commonly to all cases, azimuthally in the slot phase and axially at the expansion ratio of about 0.9 upstream of the throat. The flow which comes out of a slot into a fin base region spreads toward the fin central part under the influence of the pressure gradient in the circumferential direction and forms a vortical flow tube of opposite rotation mutually with the flow which swirls out of the next slot. At the fin phase, because the proportionality relation is accepted between the total mass recession per unit area and the total convective heat mass transfer per unit area, there is little mechanical erosion, and corrosion is considered to be dominant. On the other band, in the slot phase, surface recession which cannot be explained only by corrosion in a nozzle inlet nose exists. This surface recession has a very high possibility of having occurred by abrasion by the aluminum/alumina particles contained in the How which comes out of the axial slot of grain and collides with the thermal protection system surface. It is expected that the periodic erosion pattern which synchronized with axial slots observed after the static-firing test is the result of such a mechanism ruling. In both the throat and the exit cone, it is thought irrespective of a phase that the effect of mechanical erosion is very small and corrosion or a so-called "chemical attack" is the dominant mechanism of surface recession.

MISC

 254
  • 野村, 浩司, 菅沼, 祐介, 田辺, 光昭, 齊藤, 允教, 髙橋, 晶世, 髙橋, 賢一, 森上, 修, 三上, 真人, 後藤, 芳正, 山村, 宜之, 野倉. 正樹, 山本, 信, EIGENBROD, Christian, 石川, 毅彦, 菊池, 政雄, 嶋田, 徹, 稲富, 裕光
    宇宙環境利用シンポジウム 第38回: 令和五年度 2024年1月  
    レポート番号: G-5
  • 田辺, 光昭, 齊藤, 允教, 菅沼, 祐介, 野村, 浩司, 髙橋, 晶世, 髙橋, 賢一, 森上, 修, 三上, 真人, 後藤, 芳正, 山村, 宜之, 野倉, 正樹, 山本, 信, EIGENBROD, Christian, 石川, 毅彦, 菊池, 政雄, 嶋田, 徹, 稲富, 裕光, TANABE, Mitsuaki, SAITO, Masanori, SUGANUMA, Yusuke, NOMURA, Hiroshi, TAKAHASHI, Akiyo, TAKAHASHI, Kenichi, MORIUE, Osamu, MIKAMI, Masato, GOTO, Yoshimasa, YAMAMURA, Yoshiyuki, NOKURA, Masaki, YAMAMOTO, Shin, ISHIKAWA, TAKEHIKO, KIKUCHI, Masao, SHIMADA, Toru, INATOMI, Yuko
    宇宙環境利用シンポジウム 第37回: 令和四年度 = Space Utilization Research, Vol. 37 2022: Proceedings of The Thirty-seventh Space Utilization Symposium 2023年1月  
    第37回宇宙環境利用シンポジウム (2023年1月17日-18日. オンライン開催) Space Utilization Research (January 17-18, 2023. Online Meeting) 著者人数: 17名 資料番号: SA6000180008 G-2
  • Toru Shimada, Carmine Carmicino, Arif Karabeyoglu
    Aerospace 9(5) 2022年5月  
  • Genya Naka, Toru Shimada
    AIAA Scitech 2021 Forum 1-11 2021年  
    A numerical set up has been developed to predict the axial distribution and time history of fuel regression rates. The numerical approach is based on a quasi-one-dimensional CFD strategy, which is coupled with chemical equilibrium combustion; the wax-fuel regression rate has been simulated with the liquefying fuel theory developed by Karabeyoglu. Local radiation heat transfer from both the hot gas combustion molecules and soot particles is considered. To investigate the effect of radiative and convective heat transfer further, following two model are introduced. Three-dimensional soot radiation model is introduced in our numerical model. The effect that radiation enhances the blocking effect is introduced. It is shown that, when radiation heating of the fuel and blocking effect are taken into account, the calculated fuel regression rates exhibit values and axial profiles close to the ones observed experimentally.
  • Maxime Sicat, Toru Shimada, Carmine Carmicino
    AIAA Propulsion and Energy Forum, 2021 2021年  
    A new ballistic data reconstruction technique for hybrid rockets is derived to address the common issue of multiple solutions. Instead of making the classic assumption of constant efficiency, a constant post-combustion speed of sound is instead chosen, which is found to eliminate the multiple-solution region of oxidizer-to-fuel ratio. The method is time-resolved in oxidizer-to-fuel ratio and efficiency, and requires only oxidizer flow pressure data. The reconstruction method is then applied to a test firing previously studied with another method, showing good restitution of the oxidizer-to-fuel ratio history. The efficiency values however are found to be non-physical. A more complex version of the method, using acoustic analysis to achieve a time-resolved post-combustion chamber speed of sound is then presented.
  • Genya Naka, Jérôme Messineo, Koki Kitagawa, Carmine Carmicino, Toru Shimada
    AIAA Propulsion and Energy 2020 Forum 1-30 2020年  
    A numerical set up has been developed to predict the axial distribution and time history of fuel regression rates with the aim of comparing numerical results with the experimental data. The numerical approach is based on a quasi-one-dimensional CFD strategy, which is coupled with chemical equilibrium combustion; the wax-fuel regression rate has been simulated with the liquefying fuel theory developed by Karabeyoglu. In this model, local radiation heat transfer from both the hot gas combustion molecules (CO, CO2, and H2O) and soot particles is considered. It is shown that, when radiation heating of the fuel is taken into account, the calculated fuel regression rates exhibit values and axial profiles close to the ones observed experimentally.
  • 齊藤 允教, 大野 友利恵, 菅沼 祐介, 髙橋 晶世, 三上 真人, 嶋田 徹, 菊池 政雄, 石川 毅彦, 稲富 裕光, 髙橋 賢一, Eigenbrod Christian, 森上 修, 野村 浩司, 田辺 光昭, Saito Masanori, Ohno Yurie, Suganuma Yusuke, Takahashi Akiyo, Mikami Masato, Shimada Toru, Kikuchi Masao, Ishikawa Takehiko, Inatomi Yuko, Takahashi Kenichi, Eigenbrod Christian, Moriue Osamu, Nomura Hiroshi, Tanabe Mitsuaki
    宇宙環境利用シンポジウム 第34回: 令和元年度 = Space Utilization Research, Vol. 34 2019: Proceedings of The Thirty-fourth Space Utilization Symposium (34) 2020年1月  
    第34回宇宙環境利用シンポジウム (2020年1月21日-22日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)), 相模原市, 神奈川県著者人数: 14名資料番号: SA6000145023
  • 佐藤英一, 嶋田徹, 本江幹朗, 松野友樹, カリティケヤン ゴウタム, 高橋晶世
    宇宙航空研究開発機構特別資料 JAXA-SP-(Web) (18-007) 198‐202 (WEB ONLY) 2019年2月15日  
  • Shigeru Aso, Shohei Saiga, Atsushi Shirahama, Yasuhiro Tan, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 2019-October 2019年  
    In order to improve the regression rate, Multi-Section Swirl Injection Method had been proposed. A new method, aft oxidizer injection with Multi-Section Swirl Injection Method (Aft counter-swirl oxidizer injection), has been proposed. To confirm the effectiveness of the new concept, the combustion experiments have been conducted by comparing A-SOFT with Multi-Section Swirl Injection Method (A-SOFT type). In A-SOFT type, it is suggested that the regression rate decreased as the ratio of axial flow increased. In aft counter-swirl oxidizer injection, it is suggested that aft injected oxidizer does not affect regression rate. Also it is suggested that the oxidizer mass fraction of aft injection for maximum c* efficiency depends on the total oxidizer mass flow rate. In order to confirm the feasibility of aft counter-swirl oxidizer injection, a flight engine has been newly designed and built and a flight test has been successfully conducted.
  • Shohei Saiga, Atsushi Shirahama, Shigeru Aso, Yasuhiro Tani, Toru Shimada
    AIAA Scitech 2019 Forum 2019年  
    In order to improve the regression rate, Multi-Section Swirl Injection Method had been proposed. A new method, aft oxidizer injection with Multi-Section Swirl Injection Method (Aft counter-swirl oxidizer injection), has been proposed. To confirm the effectiveness of the new concept, the combustion experiments have been conducted by comparing A-SOFT with Multi-Section Swirl Injection Method (A-SOFT type). In A-SOFT type, it is suggested that the regression rate decreased as the ratio of axial flow increased. In aft counter-swirl oxidizer injection, it is suggested that aft injected oxidizer did not affect regression rate. In order to confirm the feasibility of aft counter-swirl oxidizer injection, a flight engine has been built and a flight test was successfully conducted. In this method, it is suggested that the oxidizer mass fraction of aft injection for maximum efficiency depends on the total oxidizer mass flow rate.
  • Akiyo Takahashi, Koki Kitagawa, Toru Shimada
    AIAA Propulsion and Energy Forum and Exposition, 2019 2019年  
    For the purpose of constructing a reliable and reasonable evaluation method of the safety of hybrid rockets, the evaluation of the safety distance for blast wave is conducted. Physical phenomena leading to the blast of hybrid rocket propellants are extracted and modeled recognizing fuel fragmentation and dust explosion as key phenomena which cause blast waves. In order to evaluate the amount of fuel dust, of the particle size less than or equal to 500 μm, a particular correlation is used. The correlation between dust mass fraction and the ratio of the applied energy to the absorbed energy by the fuel is represented by utilizing existing experimental data. Also indefinite parameters, four energy efficiencies during the explosion processes, are identified by reproduction of existing experimental data of blast pressure measurement tests. It is found that, by using the adjusted model parameters, the present model can reproduce the existing safety distance data of hybrid rocket propellant blast for various impact velocities. The correlation about dust mass is valid for various fuels and, with this, it is also implied that the evaluation model for blast is applicable to various situations.
  • 髙橋 晶世, 齊藤 允教, 菅沼 祐介, 三上 真人, 嶋田 徹, 菊池 政雄, 石川 毅彦, 稲富 裕光, Christian Eigenbrod, 森上 修, 髙橋 賢一, 野村 浩司, 田辺 光昭, Takahashi Akiyo, Saito Masanori, Suganuma Yusuke, Mikami Masato, Shimada Toru, Kikuchi Masao, Ishikawa Takehiko, Inatomi Yuko, Eigenbrod Christian, Moriue Osamu, Takahashi Kenichi, Nomura Hiroshi, Tanabe Mitsuaki
    宇宙環境利用シンポジウム 第33回: 平成30年度 = Space Utilization Research, Vol. 33 2018: Proceedings of The Thirty-third Space Utilization Symposium (33) 2019年1月  
    第33回宇宙環境利用シンポジウム (2019年1月24日-25日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)), 相模原市, 神奈川県著者人数: 13名資料番号: SA6000132019レポート番号: E-02
  • Shigeru Aso, Yasuhiro Tani
    2018 AIAA Aerospace Sciences Meeting 2018年1月8日  
    A new method with multi-section swirl injection method is proposed in order to improve fuel regression rate of hybrid rocket engine. The new method is to introduce swirling flow through injector ports, which are placed at several cross-sections along the fuel grain. In the present study, combustion tests for several grain types have been conducted to clarify influences of difference in the number and direction of swirl on the regression rate. Visualization of combustion chamber of hybrid rocket engines has been conducted and swirling turbulent flow has been observed. Also, throttling of hybrid rocket engine has been conducted successfully. To realize Multi-Section Swirl Injection Method for real flight, two-module type flight engine with swirl injection has been proposed and applied to flight experiment. Hybrid rocket engine with multi-section swirl injection method has been successfully tested under 2G acceleration environment.
  • A. S.O. Shigeru, Yasuhiro Tani, Shohei Saiga, Ryohei Arakawa, Atsushi Shirahama, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 2018-October 2018年  
    The new method of Multi-Section Swirl Injection Method, which generates swirling flows at some cross-sections in combustion chamber and increase fuel regression rate, has been propose. The method is quite powerful to increase fuel regression rate by 3 to 8 times compared with that of conventional method. However, in this method O/F shift occurs during combustion because inner radius of fuel increases and mass flow rate increases. In order to overcome this O/F shift, mass flow control of oxidizer should be controlled during combustion. Various injection methods have been investigated to keep optimum O/F during combustion. Vaporization of LOX for multi-section swirl injection method have been successfully conducted.
  • Goutham Karthikeyan, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 2018-October 2018年  
    A computational model has been developed for the purpose of simulation of hybrid intrinsic combustion instability widely reported in axial-injection type hybrid rocket motors. For transient simulation, a steady state numerical solution is first reached and then a boundary layer delay in the heat feedback from the flame to the regressing surface is modelled into the system during the unsteady time-dependent simulation. It is observed that under the presence of this boundary layer delay, the system becomes unstable and the pressure oscillations grow from an oscillating linear region into a nonlinear limit cycle region. The explicit time delay for the movement of the unburnt fuel from the regressing surface to the flame region is further modelled. The system was found to be very sensitive to the blowing parameter exponent. This paper highlights the results of numerical experiments obtained with the above-mentioned methodology. The limitations of the developed model to predict experimental results are highlighted and improvements suggestd.
  • Kohei Ozawa, Toru Shimada
    Journal of Fluid Science and Technology 13(4) ROMBUNNO.OS8‐13 2018年  
    The characteristics of several O/F control methods for hybrid rocket propulsion have been discussed and theoretically analyzed from the physical properties of propellants and fuel regression behavior. In this research, comparisons have been made among different oxidizer injection methods of Altering-intensity Swirling Oxidizer Flow Type (A-SOFT), Aft-chamber Oxidizer Injection Method (AOIM), and Swirling-AOIM for the throttle range with a constant O/F, design restrictions of the fuel grain, penalties on the adoption of the methods, and suitable scales of the engine. Theoretical analysis on regression rates has revealed that A-SOFT has upper and lower limits of throttle while maintaining a constant O/F whereas AOIM does not have any lower limit, and Swirling-AOIM covers both the throttle ranges. The designing restriction of the fuel grain derived from the regression rate behavior has indicated that A-SOFT using paraffin and oxygen has a potential to maintain 50- 100% throttle range over a burn. The penalties for the adoption of these O/F control methods have also been discussed from the aspects of the increase in the complexity of the system, structural mass, and pressure drop at the injector for the methods using gaseous injection. The pressure drop has quantitatively been evaluated by relating the available swirl strength with the cross-sectional area and gaseous oxidizer mass flux at the injector. This analysis has revealed 5 times difference in the available swirl strength between the gaseous oxygen and the decomposed gas of 90% hydrogen peroxide. The sizing of the 1st stage of the satellite launcher has revealed that A-SOFT and Swirling-AOIM are suitable for small-scale engines with a propellant mass of 100-102 [ton] using paraffin and liquid oxygen whereas AOIM and Swirling-AOIM are suitable for engines with paraffin and 90% hydrogen peroxide.
  • 高橋晶世, 北川幸樹, 嶋田徹
    宇宙科学技術連合講演会講演集(CD-ROM) 62nd ROMBUNNO.1N08 2018年  
  • 雜賀翔平, 白濱厚志, 麻生茂, 谷泰寛, 荒川稜平, 嶋田徹
    宇宙科学技術連合講演会講演集(CD-ROM) 62nd ROMBUNNO.1N09 2018年  
  • 嶋田徹
    宇宙科学技術連合講演会講演集(CD-ROM) 62nd ROMBUNNO.2S08 2018年  
  • 高橋晶世, 嶋田徹, 高橋晶世, 嶋田徹
    日本機械学会年次大会講演論文集(CD-ROM) 2017 ROMBUNNO.G1700304 2017年9月2日  
  • 長谷川宏, 福永美保子, 北川幸樹, 嶋田徹
    火薬学会年会講演要旨集 2017 156‐159 2017年5月25日  
  • Shigeru Aso, Yasuhiro Tani, Masato Yamashita, Kazuya Komori, Tomohiro Yamasaki, Shohei Saiga, Ryohei Arakawa, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 13 8624-8628 2017年  
    A new hybrid rocket combustion method which can improve the fuel regression rate more than that of conventional method. The new method is named as Multi-Section Swirl Injection Method, which generates swirling flows at some cross-sections in combustion chamber. Combustion experiments with carefully tuned oxygen injections to keep each O/F at optimum value has been successfully conducted. Also throttling experiments, vaporization experiments of liquid oxygen, flight experiments with multi-section swirl injection method have been successfully. The results shows proposed method of vaporization of liquid oxygen is useful and also hybrid rocket engine with Multi-Section Swirl Injection Method can operate with acceleration environment.
  • Goutham Karthikeyan, Toru Shimada
    53rd AIAA/SAE/ASEE Joint Propulsion Conference, 2017 2017年  
    A computational model of a hybrid rocket motor has been developed for the purpose of simulation of internal ballistics and transient behavior such as combustion instabilities. The numerical model consists of four sub-components: i) a quasi 1D gas dynamics model using Euler equations for flowfield simulation ii) a chemical model using CEA iii) an analytical heat feedback model for transfer of heat from flame to solid fuel surface iv) a 1D thermal conduction model inside the solid fuel. In the unsteady time-dependent simulation, it is seen that upon the application of a temporal boundary layer delay of the wall heat flux to the changes in the regression rate, an unstable region ensues. At first an oscillating periodic increase in the regression rate and chamber pressure is observed (linear regime), which then proceeds into a non-linear limit cycle. A positive DC shift in the chamber pressure is also observed. The reason for DC shift is explained with an analogy to a simple non-linear oscillating system. The frequencies of different natural modes (including the intrinsic hybrid oscillation mode) predicted by the model are found to be in good agreement with theoretical prediction. The effect of finite time needed for the unburnt fuel to move from the regressing surface to the flame region is also additionally modelled using a time delay to the heat of combustion. This results in increased amplitude of oscillations and a higher DC shift. Parametric analyses have been carried out with different boundary layer delays. It is found that the value of DC shift, frequency shift and also rms amplitude is directly proportional to the magnitude of the boundary layer delay.
  • Kazuhisa Chiba, Masahiro Kanazaki, Toru Shimada
    19th AIAA Non-Deterministic Approaches Conference, 2017 2017年  
    The primary objective of this study is to reveal the effect of oxidizer mass flow control for extinction-reignition, which is one of the useful points of hybrid rocket, for extending downrange and duration in the lower thermosphere. Swirling-flow oxidizer is furnished with solid fuel; we adopt polypropylene for solid fuel and liquid oxygen for oxidizer. A multidisciplinary design optimization was implemented by using a hybrid evolutionary computation; data mining was carried out by using a scatter plot matrix to efficiently perceive the entire design space. It has been consequently revealed that simple control of oxidizer mass flow can fulfill extending both of downrange and duration. But they cannot be simultaneously achieved because we need the different design strategies between extending downrange and prolonging duration. Furthermore, intimate design strategies for the objectives have been indicated via the visualizations of trajectory data and of data mining result.
  • Kohei Ozawa, Kohei Ozawa, Toru Shimada, Toru Shimada
    53rd AIAA/SAE/ASEE Joint Propulsion Conference, 2017 2017年1月1日  
    Impacts of various types of O/F shifts on flight performances of a single stage sounding rocket with a scale of S-520 sounding rocket series were comprehensively evaluated by flight simulations of O/F controlled and uncontrolled hybrid rockets. Before the simulation, sources of O/F shifts and factors affected by O/F shifts were classified and discussed in order to clarify the respective sets of simulations. O/F shifts along with the median fuel regression rate behaviors, systematic errors of the behaviors, and random errors of fuel regression rates were statistically modelled using multiple regression theroy. Shifts of thermodynamic states of productive gases after combustion, shifts of c∗efficiency, and nozzle throat erosion were modelled as factors affected by O/F shifts. Operations of propulsion systems were assumed to include throttling. In the presence of O/F shifts along with a median regression rate equation, shifts of thermodynamic states of productive gases were the dominant factor causing performance losses of O/F uncontrolled rockets. In the presence of systematic or random errors of fuel regression rates, residuals of propellants were the other dominant factor to decrease flight performances. Especially in the random error cases, as a result of 3000 times of flight performances, the guaranteed highest altitude of the O/F controlled rocket was 5.2% higher than that of uncontrolled rocket within ±3σ. This result shows that the O/F controlled hybrid rockets have about 2.6% higher acceleration than the O/F uncontrolled rockets. Accuracy of acceleration of the O/F controlled hybrid rocket was 10 times higher than that of the O/F uncontrolled hybrid rocket. These results indicate that the significance of O/F shifts elimination of hybrid rockets from both the aspects of expectancy and accuracy of flight performances.
  • 川端洋, 坂野文菜, 和田豊, 小澤晃平, 嶋田徹, 加藤信治, 堀恵一, 長瀬亮
    航空原動機・宇宙推進講演会講演論文集(CD-ROM) 57th ROMBUNNO.2B03 2017年  
  • 嶋田徹, 高野忠
    宇宙科学技術連合講演会講演集(CD-ROM) 61st ROMBUNNO.2C17 2017年  
  • 雜賀翔平, 荒川稜平, 麻生茂, 谷泰寛, 嶋田徹
    日本航空宇宙学会西部支部講演会講演集(CD-ROM) 2017 ROMBUNNO.JSASS‐2017‐S026 2017年  
  • 嶋田徹, 北川幸樹, 本江幹朗
    宇宙航空研究開発機構特別資料 JAXA-SP-(Web) (16-003) 113‐114 (WEB ONLY) 2016年9月30日  
  • Goutham Karthikeyan, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 2016年  
    Combustion instabilities in the low frequency spectrum (ILFI) are now a well-known recurring phenomena in axial-injected hybrid rocket motors. The characteristic time period of oscillation of ILFI is typically of the order of a few tenths of a second. This incidentally can lie in a similar scale to the time scale of throttling resulting in a potential for the two processes to couple, leading to changes in regression rate. As throttling is an important feature in hybrids, especially considering that in the future, the upper stages of a rocket may be hybrid-based; it is in our special interest to analyze the features of this instability during throttling. The numerical model developed consists of: 1. Gas dynamics model using Quasi-1D Euler equations solver which simulates the flowfield inside the combustion chamber. 2. A combustion model modelled after NASA CEA. 3. An analytical model (Karabeyoglu's) to simulate the heat feedback from flame to the solid fuel. 4. Thermal conduction model to simulate the heat flow into the solid fuel. The regression rate is calculated by solving the unsteady energy balance equation at the fuel regressing surface. Initially, the efficacy of the numerical model to accurately predict space-time averaged regression rates is ascertained by comparison of results of our steady state solutions against experimental data in literature. As the next step, the presence of instabilities is investigated through a time-dependent simulation. Since in hybrids, the regression rate is coupled to the mass flux, mass flux perturbations are added at different frequencies, to a fixed mean oxidizer inflow and the subsequent effect on the regression rate at a given axial position inside the combustion chamber is monitored. As the next step, further complexity is added to the system by the addition of explicit time delays experienced by the heat flux to the changes in the oxidizer mass flux and regression rate. This essentially results in the capture of boundary layer delays experienced by the system which otherwise would not be captured by our Eulerian flowfield. As the final step, the model is now tested in the same way as described above - by the addition of small mass flux perturbations around the mean value of oxidizer inflow - however with just one difference - the mean value of the oxidizer is also being changed now as per the throttling ratio and throttle time. Changes to the regression rates are monitored and conclusions reached.
  • Toru Shimada, Tomoaki Usuki
    Proceedings of the International Astronautical Congress, IAC 2016年  
    Results of conceptual study on technology demonstration in flight of a newly proposed hybrid rocket (HR) being enabled mixture-ratio-controlled throttling (MRCT) are described in this paper. The proposed system, named Altering-intensity Swirling-Oxidizer-Flow-Type (A-SOFT) hybrid rocket[1], is essentially-non-explosive and equipped with an MRCT technology. By performing a multi-objective optimization of A-SOFT HR, it has been shown that MRCT is remarkably effective for expanding mission applicability of a sounding rocket[2]. The A-SOFT is realized by independently modulating axial and tangential oxidizer mass flow rates so that both thrust and mixture ratio (O/F) are simultaneously controlled. In most cases, during throttling of a hybrid rocket, O/F varies in accordance with the (1-n)-th power of the oxidizer mass flow rate, where n is usually in the range of 0.5-0.8. So, the propulsion performance deteriorates remarkably in throttling down at lower-than-optimum O/F, or in throttling up at larger-than-optimum O/F, since the specific impulse is usually an upward-convex function of O/F[3]. From launch-system-wise viewpoints, one of the most serious problems caused by O/F shift is the resulting propellant residue[4]. So, MRCT is one of the most-important key technologies for the achievement of high-energy mission, such as a satellite launch, of hybrid rockets in space transportation. Mission requirements for the technology demonstration of MRCT of a hybrid rocket in flight, are to demonstrate 1) capability of designing a compact thrust chamber employing a method of high fuel regression rate, 2) capability of lowering propellant residual and of wide-range thrust control with MRCT technology, and 3) capability of re-ignition in space. During the flight demonstration, for a feedback control of both two quantities being assured, real-time on-board measurements of the fuel web-thickness and of the combustion pressure have to be done.
  • Akiyo Takahashi, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 2016年  
    In order to handle increased demand of launch of ultra-small satellites in recent years, it is effective to simplify the handling of propulsion systems by eliminating hazardous nature of them. And a prime example of an essentially non-explosive propulsion system is a boundary layer combustion type, hybrid propulsion system which is safer due to the absence of a high energy substance for fuel or oxidizer. However, this safety aspect of hybrid is still not completely understood due to the challenges in explaining the experimental results within a theoretical framework. In this paper, our purpose is a comparison of deflagration-to-detonation transition (DDT) energy of propellants of each propulsion systems (solid, liquid and hybrid). At last, we aim to evaluate explosive properties of each propulsion type quantitatively. Our methodology is to first take a one-dimensional propellant surrounded by walls. We then select propellants for each propulsion type. Composite propellant for solid, combustible mixture gas of LOX/LH2 etc. for liquid, combustible mixture gas of LOX/solid hydrocarbon dust (plastic, etc.) for hybrid. When thermal or mechanical stimulus (energy) is given on the one end surface, we would like to know whether combustion is lead from deflagration to detonation. We use a simple chemical reaction model which is based on the Arrhenius equation and heat conduction. In a liquid and a hybrid, in addition to the thermal or mechanical energy, it is necessary to consider the energy required for oxidizer or fuel to evaporate. Furthermore, in a hybrid, we also have to consider about the energy required for fuel to become dust. This energy is estimated from dust size and the bond energy of molecular chain. The size of dust that would cause dust explosion might be of the order of hundreds of μm at the maximum. About the comparison result of required energy for DDT with the same propellant mass, we expect that this would be greatest for the hybrid because hydrocarbon fuel must break many bonds in order to be decomposed into dusts. In the future, based on this comparison of the propellant, we will obtain considerations about the required energies for detonation of the whole rocket engine with a certain specifications. A more realistic discussion of the safety assessment could be obtained by consideration of this factor.
  • Goutham Karthikeyan, Toru Shimada
    52nd AIAA/SAE/ASEE Joint Propulsion Conference, 2016 2016年  
    Combustion instabilities in the low-frequency spectrum have been reported in several axially-injected hybrid rocket motors. In this paper, development of an unsteady computational model which can predict these instabilities is presented. The numerical model consists of four sub-components: i) a quasi 1D gas dynamics model using Euler equations for flowfield simulation ii) a chemical model using CEA iii) an existing analytical heat feedback model for transfer of heat from flame to solid fuel surface iv) a 1D thermal conduction inside the solid fuel. The numerical model is first validated for prediction of accurate steady state regression rates by comparison with existing experimental data. Unsteady simulation is then carried out by adding a mass flux perturbation to the steady state value and then following its temporal progress. No instabilities are found when the delay experienced by the wall heat flux to the changes in the regression rate is not modelled explicitly. Upon consideration of the delay, at first an oscillating periodic increase in the regression rate and chamber pressure is observed (linear regime). Then, a transition into a non-linear limit cycle ensues due to increasing non-linear effects. A positive “DC Shift” is seen due to increase in the mean chamber pressure. The shift is found to be within 5 % of the mean value. Analysis of the linear region shows good correspondence to the prediction of frequency of oscillations. It is concluded that the computational model developed can be further successfully used for parametric analyses in the domain.
  • Kohei Ozawa, Kohei Ozawa, Kohei Ozawa, Tomoaki Usuki, Tomoaki Usuki, Genki Mishima, Genki Mishima, Koki Kitagawa, Koki Kitagawa, Masato Yamashita, Masato Yamashita, Masato Mizuchi, Masato Mizuchi, Koki Katakami, Koki Katakami, Yudai Maji, Yudai Maji, Shigeru Aso, Shigeru Aso, Yasuhiro Tani, Yasuhiro Tani, Yutaka Wada, Toru Shimada, Toru Shimada
    52nd AIAA/SAE/ASEE Joint Propulsion Conference, 2016 2016年1月1日  
    © 2016, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved. A bread board model of Altering-number Swirling Flow Type (A-SOFT) hybrid rocket engine has been newly developed and the static burning tests have been conducted. A-SOFT hybrid rocket engines have controllability of both thrust and O/F without any replacement of components in the engine. This advantage is acquired by controlling oxidizer mass flow rate and effective swirl number. The purpose of this set of experiments is to confirm the continuity, monotonousness and predictability of the performances of A-SOFTs. The A-SOFT BBM showed a favorable fuel regression behavior. The fuel regression averaged along spatial direction fit the shape of regression rate function proposed before the experiments within ±3.5% errors, and the fuel regression rates are continuous and monotonous along swirl number and oxidizer mass flux. The O/F and thrust data also respectively fit the prediction formulas within ±4.2% and ±4.7% errors. c* efficiency is evaluated with the Isp efficiency - nozzle efficiency ratio ηIsp/ ηCFin order to compensate the pressure sensing errors caused by the centrifugal forces of swirling flows. Though ηIsp/ ηCFin the cases of weak swirl injection was clearly larger than in the cases of axial injection, its dependence on effective geometric swirl number was not clear in strong swirl conditions.
  • Kazuhisa Chiba, Hideyuki Yoda, Shoma Ito, Masahiro Kanazaki, Shin’ya Watanabe, Koki Kitagawa, Toru Shimada
    57th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference 2016年1月1日  
    © 2016 by Authors.A single-stage launch vehicle with hybrid rocket engine has been conceptually designed by using design informatics, which has three points of view, i.e., problem definition, optimization, and data mining. The primary objective of the present design is that the downrange and the duration time in the lower thermosphere are sufficiently secured for the aurora scientific observation, whereas the initial gross weight is held down to the extent possible. The multidisciplinary design optimization was performed by using a hybrid evolutionary computation. Data mining was also implemented by using a scatter plot matrix. Polypropylene and liquid oxygen with swirling flow are adopted as solid fuel and liquid oxidizer, respectively. The condition of two-time ignitions is assumed in fight sequence on the equation of motion for the three degree of freedom rigid body. Consequently, the design information regarding the tradeoffs, the behaviors of the design variables in the design space to become the nondominated solutions, and the implication of the design variables for the objective functions have been obtained quantitatively. The structurization and visualization of the design space has been implemented in order to observe the effectiveness of the local regions of each design variable. The advantage of extinction-reignition has been indicated.
  • Tomoaki Usuki, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 9 7316-7322 2015年  
    The versatility of rocket could be a key feature for the economic space transportation. In hybrid rocket, however, wide range throttling from neutral thrust causes oxidizer to fuel ratio (O/F) shift problem. Here we study improvement of thrust profile flexibility by implementing O/F controlled throttling capability by Altering-Swirling-Oxidizer-Flow-Type hybrid rocket. This type of hybrid rocket manipulates its fuel flow rate by modulating swirling number of internal flow. For the purpose of analyzing the flight performance of the entire rocket system, a mathematical hybrid rocket model including the engine controller is constructed. In this study, thrust profiles and structural geometrical parameters are treated as design variables, and multi-objective optimization techniques are introduced to obtain a comprehensive solution sets. The obtained solution sets shows that the implemented O/F control system improves thrust profile and flight profile flexibility.
  • OZAWA Kohei, KITAGAWA Koki, USUKI Tomoaki, MISHIMA Genki, SHIMADA Toru
    Proceedings. International Conference on Flow Dynamics (CD-ROM) 12th 394‐395 2015年  
  • Kohei Ozawa, Koki Kitagawa, Toru Shimada
    Proceedings of the International Astronautical Congress, IAC 9 7332-7345 2015年1月1日  
    As a technique to eliminate O/F shifts, Altering-intensity Swirling Oxidizer Flow Type (A-SOFT) hybrid rocket is proposed using the combination axial and tangential oxidizer injection. In this paper, the possible geometric design point of the motor is considered about 2-tons class single stage A-SOFT hybrid rockets, and the nominal performance increase by eliminating O/F shifts is evaluated. The highest altitude of the A-SOFT is 450 [km] and the averaged ISP is 284[s] with 100[kg] payload, and this performance is several percent higher than the ones of S-520 with 95[kg] payload, Japanese 2-tons class solid sounding rocket. Though A-SOFTs increase the nominal flight performance by 1% from Swirling Oxidizer Flow Type hybrid rockets, which cannot O/F shift, their feedback control prevents the large performance losses caused by fuel regression errors and residuals, and this function is not found in the conventional hybrid rockets. In this paper, a planning of steady state burning tests of A-SOFT bread board model is also explained. The purpose of the burning tests are to demonstrate the concept of A-SOFTs. The test motor is 250[N] scale and uses polypropylene and GOX and its burning duration is 5[s]. In more than 10 times steady state tests, 50% throttling conditions with effective geometric swirl intensity between 0 and 37.3 are inculded.
  • Kazuhisa Chiba, Masahiro Kanazaki, Koki Kitagawa, Toru Shimada
    ADVANCES IN EVOLUTIONARY AND DETERMINISTIC METHODS FOR DESIGN, OPTIMIZATION AND CONTROL IN ENGINEERING AND SCIENCES 36 369-384 2015年  
    A single-stage launch vehicle with hybrid rocket engine has been conceptually designed by using design informatics, which has three points of view as problem definition, optimization, and data mining. The primary objective of the design in the present study is that the sufficient down range and the duration time in the lower thermosphere are achieved for aurora scientific observation whereas the initial gross weight is held down. Multidisciplinary design optimization and data mining were performed by using evolutionary hybrid computation under the conditions that polypropylene as solid fuel and liquid oxygen as liquid oxidizer were adopted and that single-time ignition is implemented in sequence. Consequently, the design information regarding the tradeoffs and the behaviors of the design variables in the design space was obtained in order to quantitatively differentiate the advantage of hybrid rocket engine.
  • Masahiro Kanazaki, Atthaphon Ariyairt, Kazuhisa Chiba, Koki Kitagawa, Toru Shimada
    2014 ASIA-PACIFIC INTERNATIONAL SYMPOSIUM ON AEROSPACE TECHNOLOGY, APISAT2014 99 198-207 2015年  
    In this study, a multi-objective genetic algorithm (MOGA) was applied to the multidisciplinary design optimization (MDO) of a hybrid rocket. A swirling-oxidizer-type hybrid rocket engine (HRE) with a single cylindrical grain port was designed. It was considered that this HRE could temporarily stop combustion via oxidizer throttling; this feature is called multi-combustion. The MOGA was applied to solve the multi-objective problem using real-number coding and the Pareto ranking method. In this study, three design problems were considered. First problem was the maximization of the flight altitude and minimization of the gross weight. Second problem was the minimization of the maximum acceleration and minimization of the gross weight. Third problem was the maximization of the duration time over the target flight altitude and minimization of the gross weight. Each objective function was empirically estimated. In addition, this study compared two types of HREs to investigate the emects of the multi-combustion: one type was able to carry out the multi-combustion, and the other was not. Many non-dominated solutions were obtained using the MOGA, and a trade-off was observed between the two objective functions. To understand the design problem, the MOGA results were visualized using a parallel coordinate plot (PCP). (C) 2015 The Authors. Published by Elsevier Ltd.
  • Hideyuki Yoda, Shoma Ito, Masahiro Kanazaki, Kazuhisa Chiba, Koki Kitagawa, Toru Shimada
    2015 IEEE CONGRESS ON EVOLUTIONARY COMPUTATION (CEC) 618-625 2015年  
    A multi-objective genetic algorithm (MOGA) has been applied to the multidisciplinary design optimization (MDO) of a launch vehicle (LV) with a hybrid rocket engine (HRE) to investigate the ability of an HRE to serve as a sounding rocket from various perspectives. In this study, the flight evaluation was enhanced to 3-degree-of-freedom (3DoF) in order to consider the equations of motion for horizontal and vertical motion and rotation of the LV. In the consideration of the rotation of the LV, the time variation of the center of gravity due to the fuel burn was estimated. The non-dominated sorting genetic algorithm-II (NSGA-II) was used to solve multi-objective problems (MoPs). Four design problems were examined in order to understand the practical physics of hybrid rocket. As a result, tradeoff information was observed for all design problems. The results for the present four design problems indicate that economical performance of LV is limited with the HRE in terms of the maximum altitude and maximum downrange distances achievable. The hypervolume, which was used as the metric to evaluate the difficulty of the design problems, reveals that the convergence of the solutions for not only altitude maximization in the case of a vertical launch but also the maximization of downrange at higher target altitudes was affected by the severe limitation. To observe the dependence of the design problems on the constraint, the design problems were visualized using a colored parallel coordinates plot (PCP), and the LV geometries determined from the nondominated solutions were successfully examined.
  • Kenichi Takahashi, Toru Shimada
    51st AIAA/SAE/ASEE Joint Propulsion Conference 2015年1月1日  
    © 2015, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved.We conducted a three-dimensional numerical simulation to ascertain the luminous flame shape around an ignited aluminum particle near the burning surface of composite propellant. The nu- merical simulations were performed with changing pressure. To simulate the luminous flame shape around the ignited aluminum particle, we incorporated vaporized aluminum ejected from the par- ticle surface and simulated the CO2 and H2O gas flow around the particle. Results of numerical simulations show that the cloud of vaporized aluminum ejected from the aluminum particle surface spread around the particle. The cloud shape was streamlined, resembling a raindrop. The cloud shape changed by the pressure and the gas flow around the aluminum particle. The luminous flame diameter estimated from the cloud, and the diameter decreased with increasing pressure.
  • Kohei Ozawa, Kohei Ozawa, Toru Shimada
    51st AIAA/SAE/ASEE Joint Propulsion Conference 2015年1月1日  
    © 2015, American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved.In practical usage of conventional hybrid rocket engines, the oxidizer-to-fuel ratio (O/F) shift occurs by either the fuel port diameter increase or throttling because the fuel regression rate is not proportional to the oxidizer mass flux. As a promising technique to eliminate the O/F shift in a wide throttling range, Altering-intensity-Swirling-Oxidizer-Flow-Type (A-SOFT) hybrid rocket engines are proposed. A-SOFTs control O/F, independently of thrust, with the swirl intensity of oxidizer from the injector, as well as the mass flow rate of the oxidizer. In this paper, the increase rates of engine performance caused by O/F shift eliminating technique are evaluated with a vertical launch simulation for single stage sounding rockets. This simulation includes the throat erosion and c* efficiency models which can be affected by O/F shifts. The statistical uncertainty of fuel regression model is also included to evaluate the robustness of A-SOFTs and SOFTs. The increase rates of total impulse and maximum altitude of A-SOFTs compared to SOFTs depends on maximum oxidizer mass flow rate and are about 2% and 4% respectively. The most effective indicators in this evaluation to the flight performance are residuals of propellants and c* efficiency. Owing to the sensitivity of the flight performances to residuals, the fuel regression errors can cause risks of large losses of the highest altitude in SOFTs, and it is found that the feedback control of A-SOFTs have robustness to the fuel regression errors to some extent. c* efficiency dependent on L* is also sensitive to O/F shifts because O/F shifts affect combustion chamber volume and increase of throat area.
  • 金崎雅博, 千葉一永, 北川幸樹, 嶋田徹
    進化計算学会論文誌(Web) 6(3) 137‐145(J‐STAGE) 2015年  
  • 中山良男, 杉山勇太, 松村知治, 若林邦彦, 出雲充生, 北川幸樹, 嶋田徹
    火薬学会年会講演要旨集 2014 135-138 2014年5月22日  
  • USUKI Tomoaki, OZAWA Kohei, TORU Shimada
    Proc Int Conf Flow Dyn (CD-ROM) 11th 372-373 2014年  
  • OZAWA Kohei, SHIMADA Toru
    航空原動機・宇宙推進講演会講演論文集(CD-ROM) 2014 ROCKET 1,K. OZAWA 2014年  
  • OZAWA Kohei, SHIMADA Toru
    Proc Int Conf Flow Dyn (CD-ROM) 11th 374-375 2014年  
  • Mikiro Motoe, Toru Shimada
    52nd AIAA Aerospace Sciences Meeting - AIAA Science and Technology Forum and Exposition, SciTech 2014 2014年1月1日  
    The objective of this study is to clarify inner state of a chamber of the Swirling-Oxidizer-Flow-Type Hybrid Rocket which is one of the types of a Hybrid Rocket by means of numerical fluid analysis. In this study, a numerical code which uses the Large Eddy Simulation as a turbulent modeling and the Flamelet approach as combustion modeling is constructed, and the code is applied to the analysis of the swirling chamber. On this occasion, in order to guarantee an applicability of the results, an experiment of the diffusion flame swirling burner is simulated by the code, and it is confirmed that results of the simulation are well corresponding qualitatively and partially quantitatively to experimental data. Then, a simulation for the chamber of the Swirling-Oxidizer-Flow-Type Hybrid Rocket is done by the numerical code, and it can be obtained that the numerical results are well corresponds qualitatively to visualized data of the experiment. Due to the analysis using this numerical code, structure of flow and flame, distributions of physical quantities and chemical species and state of turbulent eddies are clarified in the chamber of the hybrid rocket.
  • Kazuhisa Chiba, Masahiro Kanazaki, Masaki Nakamiya, Koki Kitagawa, Toru Shimada
    11TH WORLD CONGRESS ON COMPUTATIONAL MECHANICS; 5TH EUROPEAN CONFERENCE ON COMPUTATIONAL MECHANICS; 6TH EUROPEAN CONFERENCE ON COMPUTATIONAL FLUID DYNAMICS, VOLS II - IV 3160-3179 2014年  
    A single-stage launch vehicle with hybrid rocket engine, which uses solid fuel and liquid oxidizer, has been being studied and developed as a next-generation rocket for scientific observation due to the advantages as low cost, safety, re-ignition, and reducing pollution. Thereupon, the knowledge regarding hybrid rocket system has been being gained through the forepart of the conceptual design using design informatics. In the present study, the practical problem defined by using three objective functions and seven design variables for aurora observation is treated so as to contribute the real world using evolutionary computation and data mining for the field of aerospace engineering. The primary objective of the design in the present study is that the down range and the duration time in the lower thermosphere are sufficiently obtained for the aurora scientific observation, whereas the initial gross weight is held down. Investigated solid fuels are five, while liquid oxidizer is considered as liquid oxygen. The condition of single-time ignition is assumed in flight sequence in order to quantitatively investigate the ascendancy of multi-time ignition. A hybrid evolutionary computation between the differential evolution and the genetic algorithm is employed for the multidisciplinary design optimization. A self-organizing map is used for the data mining technique in order to extract global design information. Consequently, the design information regarding the tradeoffs among the objective functions, the behaviors of the design variables in the design space to become the nondominated solutions, and the implication of the design variables for the objective functions have been obtained in order to quantitatively differentiate the advantage of hybrid rocket engine in view of the five fuels. Moreover, the next assignments were also revealed.

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 211
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    第18回流動ダイナミクスに関する国際会議 2021年10月28日
  • 嶋田 徹
    第2回ハイブリッドロケットシンポジウム 2019年7月11日  招待有り
  • 嶋田徹
    火薬学会年会講演要旨集 2011年5月26日
  • T. Shimada, K. Kitagawa, H. Hasegawa, M. Fukunaga, H. Asakawa
    61st International Astronautical Congress 2010, IAC 2010 2010年9月27日
    This paper describes the development of a numerical simulation system, "Advanced Computer Science on Solid-Rocket-Motor (SRM) Internal Ballistics (ACSSIB)". The objectives of this technology development consist of development of composite-propellant slurry casting-flow simulation, development of local burning-rate correlation with the slurry flow field characteristics, and development of the internal ballistics, i.e., combustion pressure time history, prediction. The ACSSIB have proved itself a promising technology for improvement of SRM reliability and drawn the following conclusions. (1) Hump effect of solid rocket motor combustion is verified by small-scaled motor firing tests and strand burner measurements. (2) Form microscopic observation by microfocus X-ray CT and data deduction by image processing, it is verified that there is a significant correlation between the orientation of coarse AP particles and the burning rate. (3) Development of propellant slurry casting simulation has been successfully conducted. From the casting simulations, it is verified that there is a significant correlation between the angle of the burning direction against the isochrone surface tangent (in plane with the normal) and the burning rate. (4) Development of simulation technique for internal ballistics has been successfully conducted. Simulation results are in good agreement with static firing test results of real motors. Finally, several future technical challenges are identified. Copyright ©2010 by the International Astronautical Federation. All rights reserved.
  • 嶋田徹
    宇宙科学技術連合講演会講演集(CD-ROM) 2010年
  • 嶋田徹, 福永美保子, 長谷川宏, 北川幸樹, 淺川弘也, 佐藤航
    宇宙科学技術連合講演会講演集(CD-ROM) 2010年
  • 嶋田徹
    航空原動機・宇宙推進講演会講演集(CD-ROM) 2009年
  • 嶋田徹, 坪井伸幸, 大門優, 関野展弘, 福永美保子, 淺川弘也, 加藤一成, 清家誉志男, 長谷川宏
    航空原動機・宇宙推進講演会講演集(CD-ROM) 2009年
  • Toru Shimada
    International Astronautical Federation - 59th International Astronautical Congress 2008, IAC 2008 2008年9月29日
    Discussions are made on the localized erosion of charring ablators used in the expanding part of solid rocket motor nozzles. Such erosion pattern is sometimes seen over liner surface downstream the throat inserts after static firing tests. The major characteristic of the localized erosion is that its shape is groove-like, its erosion amount is very large compared to surrounding region, and its location of occurrence is not simply related to the upstream configuration, such as axial slots or fins of the solid propellant grain. The objective here is to consider the growth mechanism of the localized erosion by reviewing facts reported in the literature on the charring ablators, ablation patterns, and vortical three-dimensional flows in nozzles.
  • Toru Shimada, Toru Shimada, Nobuhiro Sekino, Nobuhiro Sekino, Mihoko Fukunaga, Mihoko Fukunaga
    44th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit 2008年7月21日
    In order to understand the mechanism of the large roll-torque generation in the operating solid rocket motor with axially-slotted propellant grain and the narrow nozzle submergence region, fully three-dimensional Navier-Stokes numerical simulations have been conducted. The several grain configurations are computed and it is found that there are at least two groups of quasi-steady state solutions, one shows large roll torque, and the other shows small one. From the present simulation results, it is observed that the large roll torque is generated due to the interaction of the circling flow around the nozzle inlet with the slot jet exhausting out from the slot end into the aft-end cavity. Although the roll torque evaluated from the computation is one-order higher than that observed in the real fight, the present simulation serves the insight into the qualitative mechanism of the real roll torque generation.
  • 嶋田徹
    宇宙科学技術連合講演会講演集(CD-ROM) 2008年
  • 嶋田徹, 安田誠一, 鈴木直洋, 冨澤利夫, 二宮一芳, 菊地原清澄, 矢島卓, 尾澤剛
    宇宙科学技術連合講演会講演集(CD-ROM) 2008年
  • Toru Shimada, Masahisa Hanzawa, Takakazu Morita, Takashi Kato, Takashi Kato, Takashi Yoshikawa, Takashi Yoshikawa, Yasuhiko Wada, Yasuhiko Wada
    13th AIAA/CEAS Aeroacoustics Conference (28th AIAA Aeroacoustics Conference) 2007年12月1日
    The acoustic combustion instability of solid rocket motor (SRM) is investigated by computational fluid dynamics and compared with theoretical results. The quasi-one-dimensional (Q1D) Euler equations for the unsteady flow inside the combustion chamber and the equation for the thermal conduction inside the solid propellant are simultaneously solved with a quasi-steady flame model near the burning surface. The Runge-Kutta Discontinuous Galerkin (RKDG) method is used as the platform for the flow simulation and the numerical accuracy study is carried out. The conventional second-order Finite Volume Method is verified to give accurate results by the comparison with the third-order RKDG method. The growth rate versus the nozzle entrance Mach number for the attenuation case shows good agreement with the linear theory. For the growing case, it is shown that agreement is good for small Mach numbers. The results of the stability limit show good agreement with the theory for low Mach number. For higher Mach numbers, the stability-limit curve of the present simulation show the dependency on the imaginary part of the response function. Extension to the axisymmetric problem is straightforward and preliminary results have been obtained. © 2007 by the authors.
  • Toru Shimada, Nobuhiro Sekino
    International Astronautical Federation - 58th International Astronautical Congress 2007 2007年12月1日
    This paper describes our experiment and computation of roll torque caused by the internal flow of star-perforated solid rocket motor. The roll torque induced by motor internal flow is known from the early days but is not sufficiently understood among rocket scientists in academia and industry. In the background, there is complexity of a three-dimensional vortical flow in combustion chambers. The roll torque occurring in the launch of the Mu-V rocket was reported by the author in the previous paper (Shimada, IAC-06-C4.3.02, Oct.2006), in which the relation with the internal three-dimensional flow was considered. The roll torque was observed in every seven launches during the early operation period of M-14 motor and it was one-order high compared with that of the aerodynamic and/or of thrust misalignment. The cause of the roll torque was discussed on the possibility of Type-I of Knauber's classification, namely the combustion instability, but it was concluded that the possibility of Type-I was small because the mass efflux from the burning surface was relatively large in M-14 and at the same time, no strong sign of combustion instability existed. In this paper, first, the result of a static firing test of a small motor (diameter of 500mm, burning period of 30 seconds, combustion pressure of about 5 MPa, the maximum thrust of about 50 kN, AP/HTPB/Al+MgAl propellant) is described. In this experiment, the swirling component of exhaust plume and the roll torque acting on the motor have been measured. The swirling flow is measured by the lift force acting on the vane which is installed right downstream the nozzle exit. The result shows the swirling has increased for several seconds after the ignition and attenuated gradually after that. On the other hand, roll torque has been evaluated from the balances of the force and the moment among the gravitational force, the suspension force from the test stand, and the two peripheral loads measured at diametrically either side (right and left) of the motor. The results show that the maximum torque has been about 28 N-m at around several seconds after the ignition in the opposite direction of the swirling flow. The evaluated dimensionless torque coefficient is rather a big value of 1.1 × 10-3. Next, discussion is made on whether the roll torque of M-14 is caused by Type-II, i.e., the internal swirling flow due to the grain shape. The M-14 has seven axial slots in each two grain segments. Because the mass efflux from the slots is larger than the remaining parts of the circumference of the cross section, a jet will flow out from each slot into the central port region. At least two possibilities can be considered; one is symmetric and the other is asymmetric secondary flow field in the cross section. It is only the symmetric case that no torque is generated; in which seven pairs of longitudinal vortices should steadily exist. On the other hand, if the symmetric flow is unstable, these jets might merge into one swirling flow which is supposed to be stabler than the symmetric flow. In this paper verification is sought concerning this supposition employing computational fluid dynamics simulations of the three-dimensional internal flow.
  • Toru Shimada, Hiroto Habu, Yoshio Seike, Seiji Ooya, Hideo Miyachi, Masaaki Ishikawa
    AIP Conference Proceedings 2007年9月24日
    Simulated solid propellant slurry containing lead sphere tracers is experimentally cast into a double circular cylinder container. During the casting, the temperature and the pressure environment has been mimicked to an actual composite solid propellant casting of solid rocket motors. X-rays are projected on to the slurry flow from two directions and penetration images are recorded by a flat panel detector and an X-ray image intensifier. By suppressing the mutual interference of the X-rays, the two-directional X-ray photography has been successfully conducted. Using the time series data of the X-ray images from the two directions, the identification of each tracer particle in space and time has been done and their three-dimensional paths have been computed. From these procedures, the flow field or the velocity field inside the slurry flow, which is invisible usually, has been estimated. © 2007 American Institute of Physics.
  • 嶋田徹, 羽生宏人, 清家誉志男, 大矢清司, 宮地英生, 石川正明
    宇宙航空研究開発機構研究開発報告 JAXA-RR- 2007年3月30日
    X 線撮影と画像解析を用いて,鉛玉トレーサを含む模擬固体推進薬スラリの二重円筒内部三次元流れ場を可視化した. X 線を互いに直角な二方向から供試体に投影し,透過X 線をフラットパネル検知器とX 線イメージインテンシファイアを用いてビデオに記録した. X 線の相互干渉を抑制することによって,二方向同時撮影が良好に行われた.二方向X 線像の時系列画像データから各トレーサ粒子の空間及び時間的な識別を行い,更に較正用マーカー情報を用いた座標変換を行うことで,トレーサ粒子の刻々の三次元実座標を算出した.これらの手順によって,通常では見ることのできないスラリ流内部の流れ場を可視化し,さらに速度場の推算を行った.
  • Toru Shimada, Toru Shimada, Toru Shimada, Masumi Sekiguchi, Masumi Sekiguchi, Masumi Sekiguchi, Nobuhiro Sekino, Nobuhiro Sekino, Nobuhiro Sekino
    Collection of Technical Papers - 36th AIAA Fluid Dynamics Conference 2006年12月11日
    Three-dimensional, single-phase (equilibrium two-phase) flows inside a solid rocket motor at three burn-back grain configurations are studied by computational fluid dynamics (CFD) analyses of the Reynolds-averaged Navier-Stokes equations (RANS). The major concern is the relationship between the flow field and the circumferentially periodic erosion pattern arising in the inlet region of the nozzle, which will be of help for the better understanding of the surface recession mechanism. Obtained results for the first two cases show that, since the mass flux of slot phase is notably large compared with that of fin phase, a remarkable inter-phase gap in the amount of convective heating appears either in the throat or the exit cone. The peak heating rate appears, commonly to all cases, azimuthally in the slot phase and axially at the expansion ratio of about 0.9 upstream of the throat. The flow, which comes out of a slot into a fin base region, spreads toward the fin central part under the influence of the pressure gradient in the circumferential direction, and forms vortical flow tube of opposite rotation mutually with the flow which swirls out of the next slot. At fin phase, since proportionality relation is accepted between the total mass recession per unit area and the total convective heat mass transfer per unit area, it is considered that corrosion is dominant ablation mechanism. On the other hand, in slot phase, there exists surface recession which cannot be explained only by corrosion around a nozzle inlet nose. This surface recession has a very high possibility of having occurred by abrasion by the aluminum/alumina particles contained in the flow which comes out of axial slot of grain and collides with the TPS surface. It is expected that periodic erosion pattern which synchronized with axial slots observed after static-firing test is the result of such a mechanism ruling over. In both the throat and the exit cone, it is thought irrespective of a phase that the effect of mechanical erosion is very small and corrosion or so-called "chemical attack" is the dominant mechanism of surface recession.
  • Toru Shimada
    AIAA 57th International Astronautical Congress, IAC 2006 2006年12月1日
    There are unique flow-induced phenomena about solid rocket motors (SRM) whose mechanisms have not been fully understood. The generation of roll torque acting on SRM and peculiar ablation patterns of a nozzle liner surface are taken as examples. By reviewing the open literature, it is found that very few systematic prediction methods exist on these phenomena. Roll torque has been observed during the burning of the first-stage motor of the Mu-V rocket in all six flights since 1997. The cause of the roll torque is sought by evaluating the acoustic effect with mass efflux and combustion response, but sufficiently consistent results have not been obtained. The ablation pattern called striation and cross-hatching has been observed on many specimens in the ablation tests, on reentry , objects after recovery, and on the inner surface of SRM nozzle exit cone. The mechanism of the occurrence of these phenomena is discussed. The existence of the longitudinal vortices is essential for the striation, but for the cross-hatching, whether or not it is an indispensable condition is a pending issue.
  • 嶋田徹
    日本伝熱シンポジウム講演論文集(CD-ROM) 2006年
  • 嶋田徹, 関野展弘
    航空宇宙技術研究所特別資料 SP- 2003年3月
  • 嶋田徹, 関野展弘
    航空原動機・宇宙推進講演会講演集 2003年1月30日
  • 宇宙輸送シンポジウム講演集, 宇宙科学研究所 2001年
  • 宇宙輸送シンポジウム講演集, 宇宙科学研究所 2001年
  • 第102回月例講演会, 宇宙科学研究所 2001年
  • 宇宙輸送シンポジウム講演集, 宇宙科学研究所 2001年
  • 嶋田徹, 山本行光, 広瀬直喜
    航空宇宙技術研究所特別資料 SP- 1999年2月
  • 使える最先端流動解析とその応用事例-デモ展示付-、日本機械学会関西支部第238回講習会教材 1999年
  • 共著
    航空宇宙数値シミュレーション技術シンポジウム’99論文集 1999年
  • 嶋田徹, 山本行光, 広瀬直喜
    航空宇宙技術研究所特別資料 SP- 1998年2月
  • 嶋田 徹, 山本 行光, 廣瀬 直喜
    航空宇宙技術研究所特別資料 1998年
  • 嶋田徹, 山本行光, 広瀬直喜
    流体力学講演会講演集 1997年
  • 嶋田徹, 関野展弘
    航空宇宙技術研究所特別資料 SP- 1997年1月
  • 嶋田徹, 和田安弘, 古浦勝久
    航空宇宙技術研究所特別資料 SP- 1991年12月
  • 日本機械学会第69期全国大会講演会講演論文集 1991年
  • 嶋田徹
    日産技報論文集 1989年5月
  • 嶋田徹, 川崎和憲
    宇宙科学技術連合講演会講演集 1986年10月
  • 嶋田徹, 川崎和憲
    宇宙科学技術連合講演会講演集 1986年10月
  • 嶋田徹, 小口伯郎
    流体力学講演会講演集 1984年

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