The Estimation of Dynamic Motions of a Constraint Wind Turbine for the Safety- Control with the Indirect Measurement
International Journal of Science, Technology and Society
Volume 2, Issue 6, November 2014, Pages: 179-185
Received: Oct. 27, 2014;
Accepted: Nov. 12, 2014;
Published: Nov. 20, 2014
Views 2528 Downloads 81
Raiwung Park, Dept. of Technology Education, Mechatronics, Sehan University, 526-702, Jeonnam, Korea
This work shows a method to develop a safety control mode according to a wind turbine based on the operating principle of the Darrieus rotor and to estimate a model of a safety control for a wind turbine. It is not easy to timely righteously estimate and evaluate the states. But it is very important for the safe operation in time domain system. The synthesis of this problem presumes that all state variables are observable for the concerned system. But it seems that it is not always feasible to measure all of states directly. A practical way to solve these problems is the estimation of the state variables by the use of the observers which can estimate system characteristics of linear or nonlinear states and effects as a mode, so called, “Indirect measurement”. For this procedure, the mathematical model of the concerned physical system which consists of a vertical standing shaft with two journal bearings at the ends of the rotor is derived with the significant remarks such as friction, gravitation, and Coriolis force. This is a basic system. The concrete assignment is to design the observer that estimates the characteristics of the states and velocities based on the measurement vectors. The main artifice is to approximate the characteristics with a fictitious model that may describe the modes of system errors. As a practical and convenient fictitious model, the characteristics of nonlinear effects are assumed as approximately stepwise contact. An identity observer is obtained whose state variables are the estimate of the state variable of the corresponding “observer system”. It consists of a simulated model with a correction feedback of the estimation
The Estimation of Dynamic Motions of a Constraint Wind Turbine for the Safety- Control with the Indirect Measurement, International Journal of Science, Technology and Society.
Vol. 2, No. 6,
2014, pp. 179-185.
R.V. Beard, Failure accommodation in linear system through self recognition, Rept. MVT-71-1, Man vehicle laboratory, M.I.T., Cambridge, Mass., Feburar (2005)
R. J. Patton and S. M. Kangetehe, Robust fault diagnosis using eigen structure assignment of observers, In R, Patton, P.
Frank, and R. Clark, Herausgeber, Fault diagnosis in dynamic systems, Prentice Hall (1984)
R. Iserman, Identification dynamischer systeme, Band I and II, Spring Verlag, Berlin(1984)
P.C. Mueller, Estimation and compensation of nonlinearities, Proc. Of 1st Asian Confer., Tokyo, (1994) 228-234.
R.W. Park, Estimation of a mass unbalance under the crack on the rotating shaft, ICASE, Vol. 2, No. 4, (2000) 228-234.
R. W. Park, Crack detection, localization and estimation of a depth in a turbo rotor, KSME International Journal, V01. 14, No. 7, (2000), 732-729.
R.W. Park and P. C. Mueller, A contribution to crack detection, localization and estimation of a depth in a turbo rotor, ASCC, proc. Vol. II, (1997) 427-430
R. W. Park and S. Cho, Noise and fault diagnosis using control theory, international session paper, Proc 13th Korea Automation Control Conference, ICASE, (1998) 301-307.
R. W. Park, A system diagnosis through the recognition of the mode of dynamic motions of a shaft by the indirect measurement in journal bearing, The 28th International Symposium 0n Automation and Robotic in Construction, ISARC, (2011) 233-238.