DSpace Collection:http://localhost:8080/xmlui/handle/123456789/21192026-06-16T00:22:06Z2026-06-16T00:22:06ZDiscrete-Time Sliding Mode Spatial Control of Advanced Heavy Water ReactorMunje, RavindraPatre, BalasahebTiwari, Akhilanand Phttp://localhost:8080/xmlui/handle/123456789/21202019-06-25T06:47:56Z2016-01-01T00:00:00ZTitle: Discrete-Time Sliding Mode Spatial Control of Advanced Heavy Water Reactor
Authors: Munje, Ravindra; Patre, Balasaheb; Tiwari, Akhilanand P
Abstract: This brief presents the design of a discrete-time
sliding mode control (DSMC) for spatial power stabilization of
advanced heavy water reactor (AHWR). Mathematical model of
AHWR is represented by 90 first-order nonlinear differential
equations with 18 outputs and five inputs. The linear model is
obtained by linearizing nonlinear equations over the rated power.
This linear model is found to be highly ill conditioned and is
possessing three-time-scale property. Initially, the linear model is
transformed into block diagonal form to separate slow, fast 1,
and fast 2 subsystems and then DSMC is designed using slow
subsystem alone since fast 1 and fast 2 subsystems are stable.
The proposed DSMC strategy is designed using the constant
plus proportional rate reaching law with matched disturbance.
Finally, the nonlinear multivariable model of AHWR is simulated
with the designed controller and the results are generated under
different transients. The efficacy of the proposed DSMC is
demonstrated with the comparison of prevalent controllers in
the literature and the performance is evaluated under the same
transient levels.2016-01-01T00:00:00Z