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http://arks.princeton.edu/ark:/88435/dsp01bc386m71v
Title: | Feedback control design for non-inductively sustained scenarios in NSTX-U using TRANSP |
Contributors: | Boyer, M.D. Andre, R.G. Gates, D.A. Gerhardt, S.P. Menard, J.E. Poli, F.M. U. S. Department of Energy contract number DE-AC02-09CH11466 |
Keywords: | Spherical torus Non-inductive scenarios Feedback control Predictive simulations |
Issue Date: | Jun-2017 |
Publisher: | Princeton Plasma Physics Laboratory, Princeton University |
Related Publication: | Nuclear Fusion vol. 57 p. 066017 (June 2017) |
Abstract: | This paper examines a method for real-time control of non-inductively sustained scenarios in NSTX-U by using TRANSP, a time-dependent integrated modeling code for prediction and interpretive analysis of tokamak experimental data, as a simulator. The actuators considered for control in this work are the six neutral beam sources and the plasma boundary shape. To understand the response of the plasma current, stored energy, and central safety factor to these actuators and to enable systematic design of control algorithms, simulations were run in which the actuators were modulated and a linearized dynamic response model was generated. A multi-variable model-based control scheme that accounts for the coupling and slow dynamics of the system while mitigating the effect of actuator limitations was designed and simulated. Simulations show that modest changes in the outer gap and heating power can improve the response time of the system, reject perturbations, and track target values of the controlled values. |
URI: | http://arks.princeton.edu/ark:/88435/dsp01bc386m71v |
Referenced By: | https://doi.org/10.1088/1741-4326/aa68e9 |
Appears in Collections: | NSTX-U |
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