Add to ORKGThe purpose of this paper is to generate a controller to raise the reactor neutronic power from a lower level to a higher level and stabilize it a that level. The dynamic response of research reactors was studied during and after the power transient process. An algorithm for the control process was generated, based on a previously published controller. The inverse-kinetics model-based controller was tested by simulation in order to verify successful completion of the control task, during and after the power transient process. A Kalman filter system was constructed to estimate the state parameters needed by the controller. System dynamic response under different conditions was obtained through simulations. The effects of control performance ...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
A continuous stirred tank reactor operating under digital computer control has been designed and bui...
This article presents an integrated non-linear dynamic model of a Pressurized Water-type Nuclear Rea...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
The use of inverse-model-based control strategy for nonlinear system has been increasing lately. How...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
A continuous stirred tank reactor operating under direct digital control has been constructed, commi...
A continuous stirred tank reactor operating under direct digital control has been constructed, commi...
In this paper the development of a model for the nuclear research reactor TRIGA Mark II operating at...
In this paper, a nominal SISO (Single Input Single Output) model of PHWR (Pressurized Heavy Water R...
In this paper, a nominal SISO (Single Input Single Output) model of PHWR (Pressurized Heavy Water Re...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
A continuous stirred tank reactor operating under digital computer control has been designed and bui...
This article presents an integrated non-linear dynamic model of a Pressurized Water-type Nuclear Rea...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
The use of inverse-model-based control strategy for nonlinear system has been increasing lately. How...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
In the development of the control system of a nuclear power plant, it is of primary importance to re...
A continuous stirred tank reactor operating under direct digital control has been constructed, commi...
A continuous stirred tank reactor operating under direct digital control has been constructed, commi...
In this paper the development of a model for the nuclear research reactor TRIGA Mark II operating at...
In this paper, a nominal SISO (Single Input Single Output) model of PHWR (Pressurized Heavy Water R...
In this paper, a nominal SISO (Single Input Single Output) model of PHWR (Pressurized Heavy Water Re...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...
Aim of this work is to reproduce the dynamic behavior of the TRIGA Mark II reactor of the University...