Simulation research

Develop key technologies to quantitatively predict fusion performance through high fidelity fusion simulation and virtualization of the fusion reactor

Doom-type display system for virtual KSTAR

A. Research Objective

• Implement a virtual fusion reactor using digital twin technology and high fidelity fusion simulation

B. Major Research Areas

• Develop fusion plasma confinement performance prediction technology
• Develop virtual tokamak platform
• Predict and experimentally verify KSTAR confinement performance through virtual KSTAR

C. Expected Results

• Provides the basis to quantitatively predict the fusion system, accelerate fusion simulation through AI and the virtualization technology required for DEMO

Theoretical analysis research

Theoretical research and integrated model development required for fusion plasma experiment analysis and simulation

Analysis of KSTAR non-local transport experiments

A. Research Objective

• Theoretical research, experimental analysis, and integrated model development of fusion plasma

B. Major Research Areas

• Experimental research, theoretical analysis, and model development research for fusion plasma transport and turbulence ·
• Develop nuclear fusion plasma integrated simulation model

C. Expected Results

• Identify the physical mechanism of the nuclear fusion plasma experiment phenomenon
• Provides the basis for fusion plasma simulation and virtual fusion reactor development reactor development