Your search keyword '"Kouichiro TANI"' showing total 68 results

1. Simplified Real-Time Flush Air-Data Sensing System for Sharp-Nosed Hypersonic Vehicles

Author

Hidemi Takahashi, Susumu Hasegawa, and Kouichiro Tani

Subjects

Space and Planetary Science, Aerospace Engineering

Abstract

This paper discusses a flush air-data sensing (FADS) system for a sharp-nosed hypersonic vehicle designed to estimate flight air data in real time at hypersonic speeds. The design’s target condition is Mach 5.0 to 7.0 with an angle of attack within 5 deg. The FADS system estimates air data by relating them to surface pressures measured from surface-mounted ports on the vehicle forebody. Unique combinations of pressure ratios were used to estimate the freestream dynamic pressure, which was a primary parameter for the flight experiment, the angle of attack, and the Mach number. The proposed FADS estimation algorithm was validated through numerical simulation, which was also used to generate datasets of surface pressures for given flight conditions. To handle possible sensor errors related to estimation accuracy in real-time estimation for a flight experiment, redundant systems were implemented. The results indicated that the designed FADS system can estimate air data within the uncertainty of 4.8% for a single estimator by considering sensor errors for freestream dynamic pressures in the range of 0–100 kPa, including targeted and off-design flight conditions. The proposed algorithm can estimate the air data with an acceptable level of uncertainty while retaining the robustness of estimation to sensor failures with low computational cost.

Published

2023

2. JAXA RD1 Flight Experiment on Supersonic Combustion : Part 1. Overview

Author

Kouichiro Tani, Maso Takegoshi, Koichi Takasaki, and Shinichiro Tokudome

Published

2023

3. Sea-Level Static Tests of Rocket–Ramjet Combined Cycle Engine Model

Author

Kanenori Kato, Kouichiro Tani, Toshihito Saito, Masao Takegoshi, Toshinori Kochi, and Sadatake Tomioka

Subjects

020301 aerospace & aeronautics, Engineering, business.product_category, business.industry, Combined cycle, Mechanical Engineering, Gaseous hydrogen, Aerospace Engineering, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, law.invention, Fuel Technology, 0203 mechanical engineering, Rocket, Space and Planetary Science, law, 0103 physical sciences, Scramjet, Aerospace engineering, business, Ramjet, Simulation

Abstract

形態: カラー図版あり, Physical characteristics: Original contains color illustrations, Accepted: 2020-08-31, 資料番号: PA2110005000

Published

2020

4. Flush Air Data Sensing System for a Sharp-Nosed Hypersonic Vehicle with Curved-Wedge Forebody

Author

Masatoshi Kodera, Hidemi Takahashi, and Kouichiro Tani

Subjects

020301 aerospace & aeronautics, business.product_category, Computer simulation, business.industry, Angle of attack, Hypersonic flight, Hypersonic vehicle, Aerospace Engineering, 02 engineering and technology, Static pressure, 01 natural sciences, Wedge (mechanical device), 010305 fluids & plasmas, 0203 mechanical engineering, 0103 physical sciences, Aerospace engineering, Reynolds-averaged Navier–Stokes equations, business, Geology, Wind tunnel

Abstract

形態: カラー図版あり, Physical characteristics: Original contains color illustrations, Accepted: 2020-07-09, 資料番号: PA2110004000

Published

2020

5. Arrangement of Rocket Engine Location in a Combined Cycle Engine

Author

Sadatake Tomioka, Takeshi Tsuchiya, Takahiro Fujikawa, Tatsushi Isono, Kan Kobayashi, Masatoshi Kodera, and Kouichiro Tani

Subjects

business.industry, Combined cycle, law, Computer science, Space Transportation, Rocket engine, business, Spike Nozzle, Automotive engineering, System Analysis, law.invention, External Nozzle

Abstract

形態: カラー図版あり, Physical characteristics: Original contains color illustrations, Accepted: 2018-01-19, 資料番号: PA1810076000

Published

2019

6. Extended Tsiolkovskii Equation and Its Application to Launch Vehicles

Author

Takeshi Kanda, Kouichi Takasaki, and Kouichiro Tani

Subjects

Lift coefficient, Engineering, business.industry, Angle of attack, 020209 energy, Aerospace Engineering, 02 engineering and technology, Impulse (physics), Mass ratio, Space and Planetary Science, Drag, 0202 electrical engineering, electronic engineering, information engineering, Specific impulse, Scramjet, Aerospace engineering, business, Ramjet

Abstract

形態: 図版あり, Physical characteristics: Original contains illustrations, Accepted: 2016-06-11, 資料番号: PA1710041000

Published

2016

7. Analytical Method for Prediction of Suction Performance of Ejector-Jet

Author

Takeshi Kanda, Shuichi Ueda, Kouichiro Tani, Harunori Nagata, and Susumu Hasegawa

Subjects

Jet (fluid), Suction, Materials science, Space and Planetary Science, law, Ejector-jet, Aerospace Engineering, Thermodynamics, Air-breathing Engine, Combined Cycle, Injector, Mechanics, law.invention

Abstract

To reduce the cost of space transportation, air-breathing engines are considered to be candidates for propulsion. However, to cover a wide range of flight speeds, the propulsion system has to operate in various modes to be efficient under incoming atmospheric-air conditions. The Japan Aerospace Exploration Agency is proposing a rocket-based combined cycle engine for operation under various condition, an ejector-jet mode being adopted for the low-speed regime. The suction performance ejector-jets has long been studied experimentally and numerically at JAXA, and little success has been achieved in explaining the deterioration of suction performance with high-temperature gas or light gas such as helium. In the present study, based on former models, a simple one-dimensional model was introduced incorporating the mixing effects of the primary flow (rocket flow) and secondary flow (induced air flow). The results were compared using several experimental and numerical data to check the plausibility of the model. It was found that if greater mixing occurs, suction performance is degraded, explaining the actual phenomena of the experiments., 形態: カラー図版あり, Physical characteristics: Original contains color illustrations, 資料番号: PA1610077000

Published

2015

8. Performance Prediction of Diverging Dual-mode Combustors at Ramjet-mode Operation

Author

Kiyoshi Nojima, Kouichiro Tani, Takuya Arakawa, Sadatake Tomioka, Masahiro Takahashi, and Kan Kobayashi

Subjects

020301 aerospace & aeronautics, Materials science, 0203 mechanical engineering, Control theory, 0103 physical sciences, Dual mode, Mode (statistics), Performance prediction, 02 engineering and technology, 01 natural sciences, Ramjet, 010305 fluids & plasmas

Published

2016

9. Numerical analysis for higher ejector-jet performance in the RBCC engine combustor model

Author

Kouichiro Tani, Susumu Hasegawa, and Shuichi Ueda

Subjects

Physics, 020301 aerospace & aeronautics, Jet (fluid), business.industry, Numerical analysis, 02 engineering and technology, Injector, 01 natural sciences, Automotive engineering, 010305 fluids & plasmas, law.invention, 0203 mechanical engineering, law, 0103 physical sciences, Combustor, Aerospace engineering, business

Published

2016

10. Suppression of Combustor-Inlet Interaction in a Scramjet Engine under Mach 4 Flight Conditions

Author

Kan Kobayashi, Noboru Sakuranaka, Tohru Mitani, Takeshi Kanda, Sadatake Tomioka, and Kouichiro Tani

Subjects

Engineering, geography, geography.geographical_feature_category, business.industry, Aerospace Engineering, Propulsion, Combustion, Inlet, symbols.namesake, Mach number, Space and Planetary Science, Combustor, symbols, Scramjet, Aerospace engineering, business, Scramjet engine

Abstract

資料番号: ARDS06125000

Published

2007

11. Conceptual Study of a Rocket-Ramjet Combined-Cycle Engine for an Aerospace Plane

Author

Kouichiro Tani, Takeshi Kanda, and Kenji Kudo

Subjects

Engineering, Hypersonic speed, business.product_category, business.industry, Mechanical Engineering, Hypersonic flight, Aerospace Engineering, Thrust, Fuel Technology, Rocket, Space and Planetary Science, Scramjet, Supersonic speed, Specific impulse, Aerospace engineering, business, Ramjet

Abstract

著者人数: 3名, 資料番号: AC1000036000

Published

2007

12. Flow Choking by Drag and Combustion in Supersonic Engine Testing

Author

Tohru Mitani, Kouichiro Tani, and Hiroshi Miyajima

Subjects

Engineering, business.industry, Mechanical Engineering, Aerospace Engineering, Unstart, Mechanics, medicine.disease, Automotive engineering, Diffuser (thermodynamics), symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, Drag, medicine, symbols, Supersonic speed, Specific impulse, business, Choking, Wind tunnel

Abstract

condition was calculated by incorporating results of a chemical equilibrium numerical code. The fuel rates causing the flow choking were successfully reproduced and matched with the limit of fuel rates observed in our tests. Inlet unstart of the engine caused the loss of the ejector-pumping effect in the diffuser system, which triggered flow choking. Choking was also promoted by the drag of the gas sampling rakes. The choking in diffuser flow and the engine unstart may be coupled, resulting in hysteresis in the diffuser breakdown, which was also experienced in our tests. As the rocket-based, combined-cycle engine is scheduled to be tested under the Mach 4 condition in 2007, the safety of the experiment is now a primary issue. The current analysis showed that the new engine would easily cause choking of diffuser because of the larger propellant supply rates and the relatively low specific impulse. Reasonable operation of the wind tunnel to control the flow choking in future tests was examined.

Published

2007

13. R&D on Hydrocarbon-fueled RBCC Engines for a TSTO Launch Vehicle

Author

Sadatake Tomioka, Makoto Yoshida, Shuichi Ueda, Kouichiro Tani, and Toshihito Saito

Subjects

business.product_category, business.industry, Combined cycle, Rocket-based combined cycle, Combustion, law.invention, Rocket, law, Hydrogen fuel, Environmental science, Scramjet, Aerospace engineering, business, Aerospace, Ramjet

Abstract

Combination of a air-breathing engines and rocket engines (termed as Rocket Based Combined Cycle engine) gives an opportunity to reduce onboard oxygen consumption and to increase system weight margins for various application from cruiser to launch vehicles. For launch vehicle applications, combination of a ramjet/scramjet (supersonic combustion ramjet) flow-pass with embedded rocket engines was proposed (termed as Rocket-Ramjet Combined Cycle engine, T. Kanda, et. al., JPP, 19(2003), 859), and related R&D activities are undergoing at Japan Aerospace Exploration Agency (JAXA), Kakuda Space Center targeting hydrogen as the fuel due to its high Isp and cooling performances. Use of hydrogen fuel, on the other hand, can be costly due to the fuel cost and difficult-to-handle nature of liquefied hydrogen. Thus, hydrocarbon fuel such as ethanol was under consideration for the application to the future reusable launch vehicles termed as the ‘reference system,’ targeting manned operation to LEO. This presentation is to show the status of system analysis, flight demonstration plan, and related research efforts.

Published

2015

14. Aerodynamic Performances of a Combined Cycle Inlet

Author

Goro Masuya, Kouichiro Tani, and Shinji Kubota

Subjects

Leading edge, geography, Materials science, geography.geographical_feature_category, business.industry, Mechanical Engineering, technology, industry, and agriculture, Aerospace Engineering, Mechanics, Aerodynamics, Structural engineering, Inlet, Adverse pressure gradient, Flow separation, symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, cardiovascular system, symbols, Duct (flow), business, Wind tunnel

Abstract

Ramp-compression-type inlets for the combined cycle engine were investigated in a Mach 4 wind tunnel. Geometries of the inlet models were changed to investigate their effects on the aerodynamic performances and the starting characteristics. A bent cowl improved the starting characteristic by weakening the shock from the cowl leading edge to suppress the shock-induced separation and by reducing the internal contraction ratio of the cowl duct, thus, avoiding choking at the inlet throat. With the current geometries, the inlet started with a slightly larger internal contraction ratio than that restricted by the Kantrowitz-Donaldson limit. The ratio of the height of the cowl duct of the inlet to the incoming boundary layer was found to affect the starting characteristic. The model with a higher capture ratio showed better total pressure recovery performance.

Published

2006

15. Aerodynamic Performance of Scramjet Inlet Models with a Single Strut

Author

Kenji Kudou, Kouichiro Tani, and Takeshi Kanda

Subjects

Shock wave, Materials science, business.industry, Mechanical Engineering, Aerospace Engineering, Aerodynamics, Static pressure, Structural engineering, Mechanics, symbols.namesake, Flow separation, Fuel Technology, Mach number, Space and Planetary Science, symbols, Scramjet, Total pressure, business, Wind tunnel

Abstract

著者人数: 3名, 資料番号: AC1000035000

Published

2006

16. Arrangement of Rocket Engine Location in a Combined Cycle Engine.

Author

Tatsushi ISONO, Takahiro FUJIKAWA, Takeshi TSUCHIYA, Kan KOBAYASHI, Masatoshi KODERA, Kouichiro TANI, and Sadatake TOMIOKA

Subjects

SCRAMJET engines, NOZZLES, ROCKET engines, COMBUSTION chambers, ROCKETS (Aeronautics)

Abstract

To avoid the severe thermal load within the embeddedly configured Rocket-Based Combined Cycle engine, we arranged the rocket engine location in the present study, that is, the rocket engine was separately mounted for the scramjet flowpath. The rocket engine was taken out from the scramjet flowpath and located on the ramp wall of the scramjet external nozzle. In this case, the ramp wall acted as the additional nozzle in the spike nozzle manner for the rocket internal nozzle. One-dimensional analysis showed that there was an optimal expansion ratio favorable for the scramjet external nozzle. Subsequently, more complex analysis was partially performed using Method-of-Characteristics based two-dimensional wave model with some novel modifications, which can express the pressure mismatching between the exhaust and the ambient flows. The twodimensional analysis showed that thrust production within the scramjet external nozzle could become much lower due to impingement of the cowl lip expansion waves resulting from the pressure mismatching. This pressure change also sizably reduced the thrust performance of the rocket spike nozzle. It was, however, also demonstrated that presently analyzed nozzle system has great potential to drastically improve its thrust performance by means of controlling the impingement of the cowl lip expansion waves. [ABSTRACT FROM AUTHOR]

Published

2019

17. Calculation of Dual-Mode Engine Performance

Author

Kanenori Kato, Kouichiro Tani, Kenji Kudo, and Takeshi Kanda

Subjects

Engineering, Space and Planetary Science, business.industry, Pseudo-Shock, Dual mode, Dual-mode engine, Aerospace Engineering, Ramjet, Scramjet, business, SSTO, Automotive engineering

Abstract

2005 Asian Joint Conference on Propulsion and Power (January 27-29, 2005.), Kitakyushu, Fukuoka, Japan, 資料番号: AC1000138000, レポート番号: AJCPP2005-22132

Published

2005

18. Effect of Integration of Scramjet into Airframe on Engine Performance and Payload

Author

Daisuke Akihisa, Goro Masuya, Kenji Kudo, Kouichiro Tani, and Takeshi Kanda

Subjects

geography, Engineering, Prandtl–Meyer expansion fan, geography.geographical_feature_category, business.industry, Mechanical Engineering, Nozzle, Aerospace Engineering, Thrust, Inlet, Fuel Technology, Space and Planetary Science, Drag, Airframe, Scramjet, Aerospace engineering, business, Wind tunnel

Abstract

著者人数: 5名, 資料番号: AC1000026000

Published

2002

19. Mach 8 Testing of a Scramjet Engine with Ramp Compression

Author

Kan Kobayashi, Toshihito Saito, Kouichiro Tani, Tetsuji Sunami, and Takeshi Kanda

Subjects

Engineering, business.industry, Mechanical Engineering, Aerospace Engineering, Thrust, Combustion, Fuel injection, law.invention, Ignition system, symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, law, Hydrogen fuel, symbols, Scramjet, Aerospace engineering, business, Ramjet

Abstract

著者人数: 5名, 資料番号: AC1000025000

Published

2002

20. Thrust, Lift, and Pitching Moment of a Scramjet Engine

Author

Kouichiro Tani, Takashi Shimura, Noboru Sakuranaka, and Tetsuji Sunami

Subjects

business.industry, Mechanical Engineering, Aerospace Engineering, Thrust, Unstart, Fuel injection, Lift (force), symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, Drag, symbols, Environmental science, Pitching moment, Aerospace engineering, business, Aerodynamic center

Abstract

Combustion tests of a scramjet engine were conducted to obtain thrust, lift, and pitching moment essential for evaluation of the engine’s basic performance and for determination of the requirements to control the system of integrated engine and body. The engine was a side-compression type with a swept-back angle of 45 deg, and the inlet was open on the cowl side. Thrust, lift, and pitching moment were measured safely by a force measuring system under Mach 4, 6, and 8 simulated  ight conditions including engine unstart. Measurements changed with transition of combustion conditions.Thrust decreased and lift increased suddenlywhen the engine fell into unstart conditions in theM6 andM8 tests although the changewas gradual in theM4 tests. Effects of engine conŽ gurations were also investigated. Installation of a full-height strut improved combustion performance but increased drag more than thrust.

Published

2001

21. Effect of Sides-Spillage from Airframe on Scramjet Engine Performance

Author

Kouichiro Tani, Kenji Kudo, Daisuke Akihisa, and Takeshi Kanda

Subjects

geography, Engineering, geography.geographical_feature_category, business.industry, Plane (geometry), Mechanical Engineering, Aerospace Engineering, Thrust, Aerodynamics, Inlet, symbols.namesake, Spillage, Fuel Technology, Mach number, Space and Planetary Science, Airframe, symbols, Aerospace engineering, business, Marine engineering, Wind tunnel

Abstract

著者人数: 4名, 資料番号: AC1000023000

Published

2001

22. Mach 8 Testing of a Scramjet Engine Model

Author

Kouichiro Tani, Sadatake Tomioka, Tohru Mitani, Takeshi Kanda, and Tetsuji Sunami

Subjects

Materials science, Shock (fluid dynamics), Mechanical Engineering, Aerospace Engineering, Mechanics, Static pressure, Fuel injection, Combustion, law.invention, Ignition system, symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, law, Combustor, symbols, Scramjet

Abstract

著者人数: 5名, 資料番号: AC1000022000

Published

2001

23. Analyses and Application of Gas Sampling to Scramjet Engine Testing

Author

Tohru Mitani, Sadatake Tomioka, Tetsuo Hiraiwa, Masahiro Takahashi, and Kouichiro Tani

Subjects

Materials science, Shock (fluid dynamics), Mechanical Engineering, Aerospace Engineering, Sampling (statistics), Mechanics, Damköhler numbers, symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, Calibration, Combustor, symbols, Scramjet, Gas composition, Simulation

Abstract

Gas sampling has been used in combustor studies and in scramjet engine testing. Because the gas sampling is based on the assumption that the gas composition is frozen in the sampling process, the critical Damkohler numbers necessary to quench reactions in the gas-sampling probes were evaluated using a reduced kinetic model. The phase plane analysis showed that reactions in probes can be extinguished if the probe Damkohler number is less than about 10. The analytical results were cone rmed by numerical calculations using full kinetics. The shock swallowing into sampling probes was examined using numerical simulations for the low-Reynolds-number e ow. These theoretical results were verie ed by experiments using four kinds of probes with various cone gurations in a Mach 2.5 supersonic combustor. Based on the results, e ne sampling probes with a tip diameter less than 0.3 mm are recommended for scramjet testing. Based on these calibration studies, gas sampling was successfully applied to scramjet engine testing under a e ight Mach number up to 8, to reveal interesting features in the internal e ow in swept-back engines.

Published

1999

24. Mach 6 Combustion Tests of a Scramjet Engine. Effect of Strut and Isolator

Author

Kouichiro Tani, Takeshi Kanda, Atsuo Murakami, Kenji Kudo, Muneo Izumikawa, and Shigeru Sato

Subjects

symbols.namesake, Materials science, Mach number, business.industry, Isolator, Combustor, symbols, Aerospace engineering, Scramjet engine, Combustion, business

Published

1999

25. Reaction Quenching in Gas Sampling Probes for Scramjet Testing. Part 1: Theoretical Studies

Author

Muneo Izumikawa, Kouichiro Tani, Tohru Mitani, Tetsuo Hiraiwa, and Sadatake Tomioka

Subjects

Mass flux, Quenching, Materials science, Thermal runaway, law, Saddle point, Thermodynamics, Scramjet, Pitot tube, Static pressure, Combustion, law.invention

Abstract

We conducted a sensitivity analysis of engine performance on measurements of gas sampling, pitot pressure and static pressure. It indicates that the heat loss in engine and the insufficient quenching of reactions in the gas sampling probes results in the mismatch in the mass flux through the engines. An analytical study of the reactive flow in probes showed that the introduction of a small heat of reaction with radical recombination to the energy equation yielded a saddle-type singularity in a phase plane for temperature and radical. The separatrix running from the initial point to the saddle point gave the criterion dividing the thermal runaway and the chemical quenching. A one-dimensional reaction code with a full-kinetics confirmed this analytical results.

Published

1998

26. Comparison of Scramjet Engine Performance in Mach 6 Vitiated and Storage-Heated Air

Author

Tohru Mitani, Kouichiro Tani, Tetsuo Hiraiwa, Takeshi Kanda, Shigeru Sato, and Sadatake Tomioka

Subjects

Materials science, Mechanical Engineering, Storage heater, Aerospace Engineering, Autoignition temperature, Mechanics, Combustion, Fuel injection, law.invention, Ignition system, symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, law, Combustor, symbols, Ignition timing

Abstract

著者人数: 6名, 資料番号: AC1000020000

Published

1997

27. Mach 8 Flight condition Tests of Rocket-Ramjet Combined-Cycle Engine Model

Author

Kouichiro Tani, Sadatake Tomioka, Masao Takegoshi, Atsuo Murakami, Toshihito Saito, Masatoshi Kodera, Susumu Hasegawa, and Kanenori Kato

Subjects

symbols.namesake, business.product_category, Mach number, Rocket, business.industry, Combined cycle, law, symbols, Environmental science, Aerospace engineering, business, Ramjet, law.invention

Abstract

Joint Propulsion Conferences, 49th AIAA/ASME/SAE/ASEE Joint Propulsion Conference（July 14-17, 2013.), San Jose, California, United States., Ground firing-tests of rocket-ramjet combined-cycle engine model with 3 m length was conducted under Mach 8 flight condition at Ramjet Engine Test Facility in Kakuda Space Center of JAXA. Numerical analysis was also conducted for the engine under Mach 8 flight condition. The effects of rocket chamber pressure and a secondary fuel injection on the engine performance such as thrust and specific impulse were examined., 資料番号: AC1400049000, レポート番号: AIAA2013-3668

Published

2013

28. Ramjet engine test facility. ( 3 )Engine combution test

Author

Kouichiro Tani, Muneo Izumikawa, Tetsuji Sunami, Toshihito Saito, Nobuo Chinzei, and Takashi Shimura

Subjects

Engineering, business.industry, Scramjet, Propulsion, Aerospace engineering, business

Published

1996

29. Some Aspects on Hydrocarbon-fueled RBCC Engines for a TSTO Launch Vehicle

Author

Kan Kobayashi, Sadatake Tomioka, Kouichiro Tani, Kanenori Kato, Masatoshi Kodera, and Toshihito Saito

Subjects

020301 aerospace & aeronautics, business.industry, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, 0203 mechanical engineering, TSTO Launch Vehicle, 0103 physical sciences, Environmental science, Launch vehicle, Aerospace engineering, RBCC Engines, business, System Analysis

Abstract

Engine system analysis upon a Rocket-Based Combined Cycle (RBCC) engine for the booster stage of a TSTO launch vehicle was conducted, to evaluate the effects of hydrocarbon fuel type upon the performance of the engine and the whole launch vehicle. A higher thrust and cooling performance with methane was shown, while some technical challenges were also noted. Combination of the scramjet flow pass and the rocket engines, i.e., rocket engine being embedded into the scramjet flow pass or separately mounted to the airframe, was varied to show that the separated configuration mitigated cooling problem, and resulted in a better performance for mid-speed regime., 形態: カラー図版あり, Physical characteristics: Original contains color illustrations, 資料番号: PA1610081000

Published

2016

30. Numerical Analysis of Scramjet Mode Operation of a RBCC Engine

Author

Kouichiro Tani, Sadatake Tomioka, Shuichi Ueda, and Masatoshi Kodera

Subjects

Physics, Internal combustion engine, business.industry, Rocket engine nozzle, Combustor, Scramjet, Specific impulse, Thrust, Thrust specific fuel consumption, Combustion chamber, Aerospace engineering, business

Abstract

In this study, numerical analysis was conducted for the scramjet mode operation of a JAXA rocket/ramjet combined cycle engine called E3 under Mach 8 flight conditions. The objective of the study is to examine the effects of rocket chamber pressure Pc and secondary fuel injection on the engine performance and related flow physics before the engine combustion tests. The calculation results revealed that the engine produced higher specific impulse Isp as well as thrust with higher Pc. However, the net thrust acting on the internal ramjet duct wall was smaller than the embedded rocket thrust. This is due to the fact that the rocket exhaust increased the friction drag on the combustor walls over the thrust due to combustion with the captured air. On the other hand, the secondary fuel injection in the diverging combustor had almost no impact on the thrust augmentation. This partially comes from that at lower Pc the combustion efficiency was much lower than expected because of the lower temperature and larger amount of H radical production in the combustor air flows. In addition, an auxiliary fuel injector was tested to examine the effects on combustion enhancement for the rocket residual fuel. A small thrust gain was found by using this injector.

Published

2012

31. Performance of a Rocket-Ramjet Combined-Cycle Engine Model under Ramjet-Mode Operations

Author

Kouichiro Tani, Kanenori Kato, Masatoshi Kodera, Shuichi Ueda, Sadatake Tomioka, and Susumu Hasegawa

Subjects

Engineering, Integrated engine pressure ratio, business.product_category, Rocket, business.industry, External combustion engine, Combustor, Scramjet, Aerospace engineering, Combustion chamber, business, Ramjet, Chamber pressure

Abstract

A rocket-ramjet combined cycle engine model, embedding twin rocket chamber on top wall side of a scramjet flow-pass, was tested under ramjet- (dual-) mode operation at M6 flight conditions. The rocket chamber was driven with gaseous hydrogen and oxygen at nominal operation condition of 0.6 MPa in chamber pressure and 6.0 in mixture ratio. Gaseous hydrogen was also injected through injector orifices within the ‘ramjet’ combustor to pressurize the combustor. A simple, one-dimensional calculation was conducted based on wall pressure measurement to evaluate combustion mode and engine performance. Engine exhaust samplings as well as Pitot pressure measurements were conducted to evaluate the calculation results. Different combustion modes were observed, which were found to have sizable effects on the engine performance.

Published

2012

32. Numerical study of free-piston shock tunnel performance

Author

Hiroshi Miyajima, Mamoru Takahashi, Hideyuki Tanno, Katsuhiro Itoh, Kouichiro Tani, and Tomoyuki Komuro

Subjects

Computer simulation, Computer science, Mechanical Engineering, Numerical analysis, Flow (psychology), Expansion tunnel, Design tool, General Physics and Astronomy, Mechanical engineering, law.invention, Shock (mechanics), Piston, law, Scramjet

Abstract

A free-piston shock tunnel (FPST) is one of the most useful ground testing facilities for hypervelocity flow research of re-entry vehicles and scramjet engines. For an efficient operation with tuned piston motion, the design of facility and the comprehension of the physical phenomena in a FPST, a numerical simulation which can properly predicts the flow with actual losses is required. But there are few successful numerical methods which can simulate its overall performance. In the present study, numerical method was developed by using the KRC shock capturing scheme and by modeling the flow losses in suitable forms for a quasi-1D numerical computation. The present numerical results were compared with the data obtained in two different facilities, T4 and T5. The applicability of the present numerical method as a design tool is discussed briefly.

Published

1994

33. Effects of injector geometry on scramjet combustor performance

Author

Atsuo Murakami, Yoshio Wakamatsu, Kenji Kudou, Nobuo Chinzei, Kouichiro Tani, Goro Masuya, and Tomoyuki Komuro

Subjects

Stagnation temperature, Materials science, Mechanical Engineering, Aerospace Engineering, Geometry, Injector, Fuel injection, Combustion, law.invention, symbols.namesake, Fuel Technology, Mach number, Space and Planetary Science, law, symbols, Combustor, Scramjet, Choked flow

Abstract

An experiment was conducted to investigate the effect of injector/combustor geometry on combustion-induced peak wall pressure and associated upstream influence, as well as on mixing/combustion characteristics at an entrance Mach number of 2.5. The length of the constant area section downstream of injection orifices had a strong influence on the above-mentioned characteristics. However, the sweep of the rearward-facing steps on both side walls had little effect on these characteristics, nor did reversing them have any effect. The peak wall pressure and the length of the upstream influence agreed qualitatively with predictions of an analytical model and an empirical formula developed at Johns Hopkins University. Fuel jets injected from the model with the longest constant area section and the fuel equivalence ratio of unity, coalesced at a very early stage downstream of the fuel injection orifices. This coalescence led to a decrease in mixing rate downstream, despite the higher degree of mixing near the injection orifices. The combustion efficiencies were higher than those obtained at NASA Langley in the upstream region due to the higher mixing rate near the injection orifices.

Published

1993

34. Evaluation of 2D Scramjet Nozzle Performance

Author

Shohachi Yasu, Shigeru Sato, Syuuichi Ueda, Kouichiro Tani, Masashi Matsumoto, Tetsuo Hiraiwa, Tohru Mitani, Masahiko Yamamoto, and Hiroshi Miyajima

Subjects

Stagnation temperature, Materials science, business.industry, Nozzle, Laminar flow, Mechanics, Friction loss, Boundary layer, symbols.namesake, Mach number, symbols, Scramjet, Aerospace engineering, business, Stagnation pressure

Abstract

A series of experiments was conducted for studying scramjet nozzles under Mach 8 flight conditions using a high temperature gas flow produced by combustion of monomethyl-hydrazine (MMH) and nitrogen tetroxide (NTO). The stagnation temperature was designed to be 3170K, and the stagnation pressure to be 1MPa. Scramjet nozzles with expansion ratios of 3 (EN3) and 5 (EN5) were examined. Delivered specific impulse (Isp) was found to be 17.3s (EN3) and 26.1s (EN5). Performances of nozzles were predicted using numerical codes, and energy release loss, kinetic loss and two-dimensional loss were identified. The two-dimensional loss was predicted to be 16.5% in the EN3 nozzle and to decrease to 7.0% in the EN5 nozzle. The kinetic loss due to chemical freezing was found to be about 4%. A friction loss evaluated from thrusts suggested laminar flow in the scramjet nozzle with the MMH/NTO experiments. Measured heat flux on nozzles also supported the laminar boundary layer. Experiments using a cold gas flow with the nozzles were also conducted to compare with the hot flow.

Published

1992

35. Subsonic Flight Experiments of Ejector-Rocket using Hybrid-Rocket CAMUI

Author

Kouichiro Tani, Takeshi Kanda, Harunori Nagata, Masao Takegoshi, Shuichi Ueda, and Tetsuo Hiraiwa

Subjects

Engineering, Thesaurus (information retrieval), business.product_category, Rocket, law, business.industry, Injector, Aerospace engineering, business, law.invention

Published

2009

36. Numerical Simulation of the Ejector-Jet Flowfield Around Small Rocket Exhaust

Author

Shuichi Ueda, Susumu Hasegawa, Kenji Kudo, Kouichiro Tani, Noboru Sakuranaka, and Harunori Nagata

Subjects

Engineering, Jet (fluid), business.product_category, Computer simulation, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Injector, Computational fluid dynamics, Compressible flow, law.invention, Physics::Fluid Dynamics, symbols.namesake, Rocket, Mach number, law, symbols, Oblique shock, Aerospace engineering, business

Abstract

In order to get experimental data in subsonic Mach number flight region, two small hybrid rockets installed the ejector-jet were launched, and then the flight analysis was performed. Numerical simulations were conducted for clarification of the flowfields and prediction of the ejector-jet performance. The CFD results revealed the compound compressible flow phenomena involving oblique shock waves and the subsonic flows. The effects of the flight Mach numbers and the rocket pressures to the suction performances were also investigated.

Published

2009

37. Performance of a scramjet engine model in Mach 6 flight condition

Author

Kouichiro Tani, Toshinori Kouchi, Masao Takegoshi, S. Ueda, and Sadatake Tomioka

Subjects

symbols.namesake, Mach number, business.industry, symbols, Environmental science, Scramjet, Aerospace engineering, Fuel injection, business, Scramjet engine, Equivalence ratio

Published

2009

38. Ram and Ejector-Jet Modes Experiments of the Combined Cycle Engine in Mach 4 Flight Conditions

Author

Toshihito Saito, Kouichiro Tani, Fumiei Ono, Muneo Izumikawa, and Atsuo Murakami

Subjects

Engineering, business.product_category, business.industry, Thrust, Injector, Combustion, law.invention, symbols.namesake, Rocket, Mach number, law, symbols, Combustor, Scramjet, Aerospace engineering, business, Ramjet

Abstract

A combustion-capable combined cycle engine model which was constructed based on the rocket and ramjet technology was tested in Mach 4 flight condition. At this speed, engine is designed to shift its operation mode from an ejector-jet to a ramjet. Both modes were simulated by changing the rocket combustion pressure. Even with full rocket exhaust, no effect to the air flow could be observed. The injection point of the secondary fuel affected thrust performance. In the ramjet mode, the pressure rise due to the fuel combustion traveled to the entrance of the combustor, but it stayed near the injection point in the ejector-jet mode.

Published

2008

39. Recent Progress in Scramjet/Combined Cycle Engines at JAXA Kakuda Space Center

Author

Shuichi Ueda, Kouichiro Tani, Katsuhiro Ito, Shigeru Sato, Tetsuo Hiraiwa, Sadatake Tomioka, and Takeshi Kanda

Subjects

Engineering, business.industry, Combined cycle, Aerospace Engineering, Thrust, Aerodynamics, Propulsion, Automotive engineering, law.invention, symbols.namesake, Mach number, law, symbols, Combustor, Environmental science, Rocket engine, Scramjet, Aerospace engineering, business

Abstract

This report presents recent research activities of the Combined Propulsion Research Group of Japan Aerospace Exploration Agency. Aerodynamics and combustion of the scramjet engine and the rocket–ramjet combined-cycle engine, structure and material for the two engines and thermo-aerodynamic of a re-entry vehicle are major subjects. In Mach 6 condition tests, a scramjet engine model produced about 2000 N net thrust, whereas a model produced thrust almost equal to its drag in Mach 12 condition. A flight test of a combustor model was conducted with Hyshot-IV. A rocket–ramjet combined-cycle engine model is under construction with validation of the rocket engine component. Studies of combustor models and aerodynamic component models were conducted for demonstration of the engine operation and improvement of its performances. Light-weight cooling panel by electrochemical etching examined and C / C composite structure was tested. Thermo-aerodynamics of re-entry vehicle was investigated and oxygen molecular density was measured also in high enthalpy flow.

Published

2006

40. Mach 6 Test of a Scramjet Engine with Multi-Staged Fuel Injection

Author

Kouichiro Tani, Fumiei Ono, Shuichi Ueda, Atsuo Murakami, Noboru Sakuranaka, and Sadatake Tomioka

Subjects

Engineering, business.industry, Thrust, Mechanics, Fuel injection, Combustion, symbols.namesake, Mach number, Drag, symbols, Mass flow rate, Specific impulse, Thrust specific fuel consumption, Aerospace engineering, business

Abstract

44th AIAA Aerospace Sciences Meeting and Exhibit(9 - 12 January 2006), Reno, Nevada, 資料番号: ARDS05397000, レポート番号: AIAA 2006-1027

Published

2006

41. Aerodynamic Characteristics of the Modified Combined Cycle Engines in Ejector-Jet Mode

Author

Takeshi Kanda, Kouichiro Tani, and Shinichiro Tokudome

Subjects

Jet (fluid), Engineering, business.industry, Thrust, Pitot tube, Injector, Aerodynamics, Mechanics, Structural engineering, law.invention, law, Drag, Total pressure, business, Transonic

Abstract

44th AIAA Aerospace Sciences Meeting and Exhibit, Reno, Nevada, Jan. 9-12, 2006, 資料番号: AC1000085000, レポート番号: AIAA-2006-0224

Published

2006

42. Experimental Study of a Combined-Cycle Engine Combustor in Ejector-Jet Mode

Author

Kanenori Kato, Atsuo Murakami, Kouichiro Tani, Kenji Kudo, and Takeshi Kanda

Subjects

Propellant, Materials science, business.product_category, Waste management, Mechanical Engineering, Aerospace Engineering, Pitot tube, Mechanics, Combustion, Fuel injection, law.invention, Fuel Technology, Rocket, Space and Planetary Science, law, Combustor, Supersonic speed, Duct (flow), business, Ramjet

Abstract

44th AIAA Aerospace Sciences Meeting and Exhibit, Reno, Nevada, Jan. 9-12, 2006, 資料番号: AC1000084000, レポート番号: AIAA-2006-0223

Published

2006

43. Design of Sub-scale Rocket-Ramjet Combined Cycle E

Author

Kouichiro Tani, Takeshi Kanda, Yoshio Wakamatsu, Shuichi Ueda, and Sadatake Tomioka

Subjects

business.product_category, Scale (ratio), Rocket, business.industry, Combined cycle, law, Environmental science, Aerospace engineering, business, Ramjet, law.invention

Published

2005

44. Designing and Aerodynamic Performance of the Combi

Author

Kanenori Kato, Kouichiro Tani, and Takeshi Kanda

Subjects

Materials science, business.industry, Aerodynamics, Aerospace engineering, business

Published

2005

45. Momentum Balance Model of Flow Field with Pseudo-Shock

Author

Takeshi Kanda and Kouichiro Tani

Subjects

Physics, Classical mechanics, Reaction, Astrophysics::High Energy Astrophysical Phenomena, Momentum balance, Outflow boundary condition, Outflow, Duct (flow), Inflow, Mechanics, Impulse function, Flow field, Astrophysics::Galaxy Astrophysics

Abstract

43rd AIAA Aerospace Sciences Meeting and Exhibit, Reno, Nevada, Jan. 10-13, 2005, 資料番号: AC1000080000, レポート番号: AIAA-2005-1045

Published

2005

46. Aerodynamic Characteristics of the Combined Cycle Engine in an Ejector Jet Mode

Author

Takeshi Kanda, Kouichiro Tani, and Shin-ichiro Tokutome

Subjects

Engineering, Jet (fluid), business.industry, Mass flow, Nozzle, Mechanical engineering, Pitot tube, Injector, Aerodynamics, Mechanics, law.invention, law, Drag, business, Transonic

Abstract

43rd AIAA Aerospace Sciences Meeting and Exhibit, Reno, Nevada, Jan. 10-13, 2005, 資料番号: AC1000082000, レポート番号: AIAA-2005-1210

Published

2005

47. Impulse function and drag in scramjet inlet models

Author

Tomoyuki Komuro, Atsuo Murakami, Nobuo Chinzei, Takeshi Kanda, Kouichiro Tani, and Kenji Kudo

Subjects

Propellant, Materials science, business.industry, Mechanical Engineering, Ram accelerator, Aerospace Engineering, Static pressure, Fuel Technology, Space and Planetary Science, Drag, Swept wing, Mass flow rate, Scramjet, Aerospace engineering, business, Wind tunnel

Abstract

著者人数: 6名, 資料番号: AC1000017000

Published

1996

48. Flight Test Vehicles - Japanese View

Author

Kouichiro Tani

Subjects

Engineering, Aeronautics, business.industry, business, Flight test

Published

2003

49. Suppression of Combustor- Inlet Interaction in a Scramjet Engine under M4 Flight Conditions

Author

Kouichiro Tani, Noboru Sakuranaka, Tohru Mitani, Sadatake Tomioka, Takeshi Kanda, and Kan Kobayashi

Subjects

geography, geography.geographical_feature_category, Materials science, business.industry, Nozzle, Thrust, Mechanics, Fuel injection, Boundary layer thickness, Inlet, Boundary layer, Mass flow rate, Combustor, Scramjet, Aerospace engineering, business, Scramjet engine

Abstract

39th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, Huntsville, Alabama, July 20-23, 2003, 資料番号: AC1000096000, レポート番号: AIAA-2003-4737

Published

2003

50. Aerodynamic Computation of a Scramjet Engine on Vector-Parallel Supercomputers

Author

Kouichiro Tani, Susumu Hasegawa, and Shigeru Sato

Subjects

Engineering, geography, geography.geographical_feature_category, Turbulence, business.industry, Nozzle, Aerodynamics, Inflow, Inlet, symbols.namesake, Boundary layer, Mach number, Position (vector), symbols, Aerospace engineering, business

Abstract

Flowfields in a scramjet engine inlet were numerically simulated by the Navier-Stokes equations with a turbulence model, and aerodynamic effects of the strut position in the scramjet engine inlet were also investigated. Because the RJTF experiments reveal that characteristics of scramjet engine performances are quite dependent on the strut positions. To investigate the RJTF experimental results, the computations were conducted for inflow Mach number of 5.3 on NAL’s Numerical Space Engine. The correlations were obtained between the inlet flowfields and the struts position, and the effects of the RJTF nozzle flow boundary layer were clarified.

Published

2003