Study of H-mode pedestal predictive model on EAST tokamak

Abstract

Abstract The pedestal structure of the high-confinement mode (H-mode) operation strongly impacts global confinement and fusion performance in tokamak devices. Studies of the pedestal structure also play an important role in better understanding the characterization of H-mode plasma discharges with type-I edge localized modes on the Experimental Advanced Superconducting Tokamak (EAST). The EPED model has been widely validated to predict the pedestal structure of several tokamak devices. The mean pedestal width Δ ψ correlates with the square root of the poloidal pedestal beta β p , p e d 1 / 2 and is in good agreement with Δ ψ = 0.12 β p , p e d 1 / 2 from experimental observations. It is also found that the scaling coefficients of Δ ψ and β p , p e d 1 / 2 may have no dependence on the heating schemes. The comparison of predictions with measurements indicates that the REPED model could be used to predict the pedestal height for a range of experimental pedestal pressures ( 1.7 < p p e d < 2.6  kPa ) on EAST.