Scaling Law Studies of Global Energy Confinement Times for Tokamaks with Ion Cyclotron Resonance Heating

Shih–Hai Li; Ren–Chu Chin

doi:dx.doi.org/10.13182/FST91-A11946951

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Scaling Law Studies of Global Energy Confinement Times for Tokamaks with Ion Cyclotron Resonance Heating

Shih–Hai Li, Ren–Chu Chin

Fusion Science and Technology / Volume 20 / Number 4P2 / December 1991 / Pages 868-872

Magnetic Fusion Reactors/Beam-Driven Systems / dx.doi.org/10.13182/FST91-A11946951

Published:February 8, 2018

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A L–mode scaling law of global energy confinement time in ion cyclotron resonance heating (ICRH) is proposed in this paper. The scaling is based on 292 observations from tokamaks PLT, JET, ASDEX, TEXTOR, JFT–2M and JIPP T–IIU. The regression analysis reveals the scaling being of the form: τ_E α a^-0·18 R^1·27 I_P^0·98 B_T^0·10 K^0·20 n̄_e^0·12 P_tot^-0·51. Comparision with other scaling laws and fitting the scaling law to the theoretical constraint model have shown many physical phenomena of ICRH wave damping mechanism. To reach the ignition condition, some modifications of experimental technique and tokamak configuration are needed to enhance the energy confinement time.