Title :
Periodic Output Feedback for Spatial Control of AHWR: A Three-Time-Scale Approach
Author :
Munje, R.K. ; Patre, B.M. ; Tiwari, Akhilanand P.
Author_Institution :
K.K. Wagh Inst. of Eng. Educ. & Res., Nashik, India
Abstract :
This paper presents a novel technique of designing Periodic Output Feedback (POF) based controller for three-timescale systems. This design method is investigated for spatial control of Advanced Heavy Water Reactor (AHWR). The numerically ill-conditioned system of AHWR is first decomposed into three subsystems, namely, slow, fast1 and fast 2 by direct block-diagonalization and then a composite controller is designed which provides an output injection gain. This output injection gain has been used to compute POF gain, which is then applied to the vectorized nonlinear model of AHWR to achieve spatial control. This controller is tested via simulations carried out under different transient conditions and the results of simulation are presented.
Keywords :
control system synthesis; feedback; fission reactor design; heavy water reactors; nonlinear control systems; AHWR; POF gain; advanced heavy water reactor; composite controller design; direct block-diagonalization; numerically ill-conditioned system; output injection gain; periodic output feedback; spatial control; three-time scale systems; three-time-scale approach; vectorized nonlinear model; Closed loop systems; Controllability; Eigenvalues and eigenfunctions; Inductors; Optical fibers; Output feedback; Advanced heavy water reactor; periodic output feedback; spatial control; three-time-scale system;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2014.2327691
