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Initial flux decline of the cellulose acetate butylate membranes with time under RO performance (1983)

Mashiko, Y. ; Kurokawa, Y. ; Saito, S.

Elsevier

In: Desalination. 1983; 48(2): 147-160. Published 1983 Jan 01. doi: 10.1016/0011-9164(83)80013-7.

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Publication Date: 1983-01-01

Print ISSN: 0011-9164

Electronic ISSN: 1873-4464

Topics: Energy, Environment Protection, Nuclear Power Engineering , Process Engineering, Biotechnology, Nutrition Technology

Published by Elsevier

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Application of an adaptive blade control algorithm to a gust alleviation system (1983)

Saito, S.

In: CASI

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Publication Date: 2019-06-28

Description: The feasibility of an adaptive control system designed to alleviate helicopter gust induced vibration was analytically investigated for an articulated rotor system. This control system is based on discrete optimal control theory, and is composed of a set of measurements (oscillatory hub forces and moments), an identification system using a Kalman filter, a control system based on the minimization of the quadratic performance function, and a simulation system of the helicopter rotor. The gust models are step and sinusoidal vertical gusts. Control inputs are selected at the gust frequency, subharmonic frequency, and superharmonic frequency, and are superimposed on the basic collective and cyclic control inputs. The response to be reduced is selected to be that at the gust frequency because this is the dominant response compared with sub- and superharmonics. Numerical calculations show that the adaptive blade pitch control algorithm satisfactorily alleviates the hub gust response. Almost 100% reduction of the perturbation thrust response to a step gust and more than 50% reduction to a sinusoidal gust are achieved in the numerical simulations.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: NASA-TM-85848 , A-9497 , NAS 1.15:85848

Format: application/pdf

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A study of helicopter gust response alleviation by automatic control (1983)

Saito, S.

In: CASI

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Publication Date: 2019-08-28

Description: Two control schemes designed to alleviate gust-induced vibration are analytically investigated for a helicopter with four articulated blades. One is an individual blade pitch control scheme. The other is an adaptive blade pitch control algorithm based on linear optimal control theory. In both controllers, control inputs to alleviate gust response are superimposed on the conventional control inputs required to maintain the trim condition. A sinusoidal vertical gust model and a step gust model are used. The individual blade pitch control, in this research, is composed of sensors and a pitch control actuator for each blade. Each sensor can detect flapwise (or lead-lag or torsionwise) deflection of the respective blade. The acturator controls the blade pitch angle for gust alleviation. Theoretical calculations to predict the performance of this feedback system have been conducted by means of the harmonic method. The adaptive blade pitch control system is composed of a set of measurements (oscillatory hub forces and moments), an identification system using a Kalman filter, and a control system based on the minimization of the quadratic performance function.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: NASA-TM-85870 , A-9578 , NAS 1.15:85870

Format: application/pdf

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