Title :
Suboptimal projective control of a pressurized water reactor
Author_Institution :
Sch. of Eng. Sci., Simon Fraser Univ., Burnaby, BC, Canada
fDate :
12/1/1989 12:00:00 AM
Abstract :
A suboptimal output feedback approach for control of the pressurized water reactor (PWR) in the H.B. Robinson nuclear power plant is presented. Optimal state-feedback linear-quadratic-regulator (LQR) theory with pole-placement capability is extended to obtain a suboptimal projective controller for cases in which the entire state vector is inaccessible for measurement and feedback purposes. The appealing feature of the approach is that it is possible to select the weighting matrices in the quadratic cost functional so that the resulting control law nearly minimizes the cost and at the same time can assign a subspectrum of the closed-loop system to preassigned desired locations. The design algorithm is computationally very attractive, since regardless of the dimension of the PWR model the approach mainly involves low-order matrix computations
Keywords :
fission reactor theory and design; closed-loop system; design algorithm; low-order matrix computations; optimal state-feedback linear-quadratic-regulator theory; pole-placement capability; pressurized water reactor; quadratic cost functional; state vector; suboptimal output feedback; suboptimal projective controller; weighting matrices; Algorithm design and analysis; Control systems; Cost function; Inductors; Linear feedback control systems; Optimal control; Output feedback; Power generation; Pressure control; State feedback;
Journal_Title :
Nuclear Science, IEEE Transactions on
