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Your search keyword '"Hiroshi Kanki"' showing total 8 results
Start Over Author "Hiroshi Kanki" Journal transactions of the japan society of mechanical engineers series c
8 results on '"Hiroshi Kanki"'

1. Study on Stability of High Pressure Turbine (Effect of Partial Admission)

Author

Hiroshi Kanki and Akinori Tanitsuji

Subjects
Engineering, Power station, business.industry, Rotor (electric), Mechanical Engineering, Work (physics), Nozzle, food and beverages, Structural engineering, Turbine, Industrial and Manufacturing Engineering, law.invention, Vibration, Mechanics of Materials, law, Control theory, Steam turbine, business, Scale model
Abstract

Subsynchronous vibration of high-pressure steam turbine is one of the difficult problems to improve the reliability of power plant. Extensive work has been done to prevent the low frequency vibration of high-capacity steam turbine and most of the problems were practically solved (1). In the future, we must build up theoretical approach to design a new turbine operating under the steam condition of high-temperature and high-pressure. To design such an advanced steam turbine, it is necessary to solve the effect of partial admission on control stage of the steam turbine. This paper describes the experimental results from the scale model of the steam turbine and theoretical analysis of destabilizing forces. In theoretical analysis, destabilizing forces that take partial admission into consideration were analyzed. As a result, it was clarified that large destabilizing force was generated in partial admission condition and the destabilizing force varied periodically by the instant rotor position. In experimental study, we designed the new inlet seal for the prevention against the vibration. From the experimental result that increase of total flow rate leads the system stable, we showed the effectiveness of new inlet seal. And we paid attention to the step-up that is the step between blade and nozzle. As a result, it was experimentally proved that the step-up had a large influence on the rotor stability.

Published
2006
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2. Development of Synchronized Control Method for Shaking Table with Booster Device (Verification of the Capabilities based on Both Real Facility and Numerical Simulator)

Author

Chiaki Yasuda, Hiroshi Abe, Toshio Yamashita, Hiroshi Kanki, and Shin-ichirou Kajii

Subjects
Engineering, Test facility, business.industry, Mechanical Engineering, Test method, Industrial and Manufacturing Engineering, Seismic analysis, law.invention, Mechanics of Materials, Booster (electric power), law, Nuclear power plant, Earthquake shaking table, Hydraulic machinery, business, Control methods, Simulation
Abstract

In the seismic design of nuclear power plant, it is recently considered to use probability method in addition to certainty method. The former method is called Seismic Probability Safety Assessment (Seismic PSA). In case of seismic PSA for some components of a nuclear power plant using a shaking table, it is necessary for some limited conditions with high level of accelerations such as actual conditions. However, it might be difficult to achieve the test conditions that a current shaking table based on hydraulic power system is intended for the test facility. Therefore, we have been planning out a test method in which both a current and another shaking table called a booster device are applied. This paper describes the verification test of a synchronized control between a current shaking table and a booster device.

Published
2004
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4. Active Jiggle Control for Hung Structure using Double Gimbal CMG

Author

Koji Edo, Hiroshi Kanki, and Michihiro Kawanishi

Subjects
Engineering, business.industry, Mechanical Engineering, Control (management), Control engineering, Gimbal, Interference (wave propagation), Optimal control, Industrial and Manufacturing Engineering, Flywheel, Vibration, Control moment gyroscope, Mechanics of Materials, Control theory, Control system, business
Abstract

This paper describes an active jiggle control of hung structure using a control moment gyro (CMG) which has two gimbals for one flywheel. The double gimbal CMG enables us to simultaneously control the vibrations for two different dirctions by only one flywheel. Due to the nonlinearlity and interference, it is however difficult to construct the control system for the double gimbal CMG. First, we propose a simple control system design method for the double gimbal CMG based on H2 optimal control theory. In order to improve the gimbal stability, which is necessary for avoiding the interference, we then propose an another design method based on H2/H∞ control using LMI optimization. The performance of all designed control system are evaluated by simulations and experiments.

Published
2000
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5. Rotor Balancing Method using LMI Optimization

Author

Koji Ono, Hiroshi Kanki, and Michihiro Kawanishi

Subjects
Mathematical optimization, Rotor (electric), Heuristic (computer science), Mechanical Engineering, Linear matrix inequality, Field (mathematics), Industrial and Manufacturing Engineering, law.invention, Least mean squares filter, Mechanics of Materials, law, Control theory, Minification, Helicopter rotor, Reduction (mathematics), Mathematics
Abstract

This paper deals with a rotor balancing method based on influence coefficient method and LMI (Linear Matrix Inequality) optimization technique. The three rotor balancing objectives; (a) minimization of maximum residual vibration, (b) minimization of the least mean square of residual vibration and (c) minimization of the least mean square of correction masses, are considered. Since the conventional influence coefficient method cannot properly treat the objectives (a) and (c), these objectives (a) and (c) have been considered by heuristic trial & error method. In this paper, first, the LMI formulation of the rotor balancing objectives (a)-(c) are derived applying two basic LMI lemmas. Based on these LMI formulation of the objectives, a LMI optimization framework for rotor balancing is then constructed. The proposed method enables us to efficiently achieve the objectives (a)-(c) with the relative weight vector c using LMI optimization technique. Moreover, a reduction algorithm for the number of the correction planes, which is useful in the actual field balancing, is also considered. Finally, the effectiveness of the proposed rotor balancing method is evaluated by numerical simulations and experiments with a model rotor system.

Published
1999
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6. Application of the random excitation technique to dynamic characteristic measurement of bearings and seals

Author

Chiaki Yasuda, Ozawa Yutaka, Hiroshi Kanki, and Takashi Kawakami

Subjects
Engineering, Bearing (mechanical), Mechanics of Materials, law, business.industry, Mechanical Engineering, Mechanical engineering, Helicopter rotor, business, Seal (mechanical), Industrial and Manufacturing Engineering, Excitation, law.invention
Abstract

Recently, according to the enlargement of rotating equipment such as turbines and pumps, the dynamic characteristics of bearings and seals tends to greatly affect the dynamic characteristics of the rotor system. Therefore, numerous researchers have been engaging in developing the hydrodynamically lubricated bearing theory and seal theory. However, it is still difficult to estimate the precise dynamic characteristics of bearings and seals analytically. On the other hand, there are many researcher who have been developing the experimental measurement technique of bearing and seal dynamic characteristics. This paper describes the measurement technique of bearing and seal dynamic characteristics using the random excitation technique.

Published
1990
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