Korea Superconducting Tokamak Advanced Research (KSTAR) began operation in 2008 and is a fully superconducting tokamak using ITER-like superconductor. All of the SC coils, using cable-in-conduit conductors (CICCs), are cooled with forced-flow supercritical helium (SHe) at 4.5 K and 5.5 bar, to maintain a superconducting state. We consider here the central couple of the PF coils, which during operation is subjected to sharp current transients, which induce AC losses in the superconducting coils due to the change in magnetic field, which leads to the backflow of the helium. The thermal hydraulics due to one of the trapezoidal current pulse in the PF1L coil is analyzed, with ramp up rate of 1 kA/s and ramp down rate of 10 kA/s, with maximum cu...
Abstract—The first step of the validation of the recently de-veloped thermal-hydraulic code 4C is pr...
In the frame of the European DEMO reactor activities, Work Package MAG, superconducting Toroidal Fie...
The first step of the validation of the recently developed thermal-hydraulic code 4C is presented. W...
The KSTAR tokamak, in operation since 2008 at the National Fusion Research Institute in Korea, is eq...
The thermal-hydraulic transient, driven in the EAST Central Solenoid by two successive sinusoidal cu...
The toroidal field model coil (TFMC) was extensively tested in 2001-2002, in the TOSKA facility at t...
Selected results of AC loss tests from the recent (2014) campaign on the Experimental Advanced Super...
The recently developed 4C thermal-hydraulic code is validated here against experimental data from th...
The recently developed 4C thermal-hydraulic code, currently under validation, is used to compute the...
Abstract-During 2000, AC losses and the effects of possible ramp-rate limitation (RRL) were investig...
In the recent years, the Cryogenic Circuit Conductor and Coil (4C) code has been developed to allow ...
The 4C code was developed to model thermal-hydraulics in superconducting magnet systems and related ...
The DC performance of the ITER Central Solenoid Insert (CSI) coil, a single layer solenoid wound usi...
We report on the status of development and first preliminary applications of a new computational too...
A new tool – the 4C code – has been developed, which allows the thermal-hydraulic simulation of the ...
Abstract—The first step of the validation of the recently de-veloped thermal-hydraulic code 4C is pr...
In the frame of the European DEMO reactor activities, Work Package MAG, superconducting Toroidal Fie...
The first step of the validation of the recently developed thermal-hydraulic code 4C is presented. W...
The KSTAR tokamak, in operation since 2008 at the National Fusion Research Institute in Korea, is eq...
The thermal-hydraulic transient, driven in the EAST Central Solenoid by two successive sinusoidal cu...
The toroidal field model coil (TFMC) was extensively tested in 2001-2002, in the TOSKA facility at t...
Selected results of AC loss tests from the recent (2014) campaign on the Experimental Advanced Super...
The recently developed 4C thermal-hydraulic code is validated here against experimental data from th...
The recently developed 4C thermal-hydraulic code, currently under validation, is used to compute the...
Abstract-During 2000, AC losses and the effects of possible ramp-rate limitation (RRL) were investig...
In the recent years, the Cryogenic Circuit Conductor and Coil (4C) code has been developed to allow ...
The 4C code was developed to model thermal-hydraulics in superconducting magnet systems and related ...
The DC performance of the ITER Central Solenoid Insert (CSI) coil, a single layer solenoid wound usi...
We report on the status of development and first preliminary applications of a new computational too...
A new tool – the 4C code – has been developed, which allows the thermal-hydraulic simulation of the ...
Abstract—The first step of the validation of the recently de-veloped thermal-hydraulic code 4C is pr...
In the frame of the European DEMO reactor activities, Work Package MAG, superconducting Toroidal Fie...
The first step of the validation of the recently developed thermal-hydraulic code 4C is presented. W...