Design of Control System for Preliminary Research Device of Magnetic Confinement Deuterium-Deuterium Fusion Neutron Source

Design of Control System for Preliminary Research Device of Magnetic Confinement Deuterium-Deuterium Fusion Neutron Source

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ObjectivesThe preliminary research device of magnetic confinement deuterium-deuterium fusion neutron source is a novel neutron source preliminary research device based on field-reversed configuration (FRC) cascade magnetic compression.It aims to leverage the experiences from the first-phase construction to enhance system design, significantly improve plasma parameters, and further expand research on magnetic compression fusion, laying the foundation for achieving a large-volume high-flux fusion neutron source in the third phase.MethodsThe preliminary research device control system optimized and reconstructed the control framework, provided safety sweet life carts interlocking, pulse control and comprehensive data services, coordinated and integrated each service into the automated discharge process through integrated control, and added a number of resources to expand applications and DevOps tool.ResultsThrough the reconfiguration design, the comprehensive performance of the control system in terms of safety, stability and efficiency had been significantly improved.

The safety interlock system ensured the safety of personnel and equipment during the experiment process, the pulse control system achieved high-precision timing control, the comprehensive data service provided full process support from data collection to analysis, and resource expansion applications and DevOps tools further improved the system flexibility and operation and maintenance efficiency.ConclusionsBy optimizing the control framework and introducing advanced operation and maintenance tools, the design can better meet the needs of complex device structure and zak maytum precise discharge flow, and provide an efficient control system construction plan for the subsequent long-term cooperation construction of the magnetically confined deuterium fusion neutron source preliminary research device.