We apply the 4C code, recently validated against different types of transients, to the simulation of the first stage of the cool-down of an ITER Toroidal Field (TF) magnet, from 300 K to 80 K. For a given scenario (inlet temperature, pressure and total mass flow rate evolution), we compute the evolution of the maximum temperature difference across the magnet. These results are compared both with the allowable and with the previously published results of another code, thus providing a benchmark for 4C. The differences between the models implemented in the two codes, whenever present, are highlighted, and their effects are analyzed by suitable sensitivity studies
The ITER Toroidal Field Insert (TFI) coil is a single-layer Nb3Sn solenoid tested in 2016-2017 at th...
The ITER superconducting (SC) magnets require the forced flow of supercritical He (SHe) at ~ 4.5 K a...
The Divertor Tokamak Test (DTT) facility is currently under design in Italy. This fully superconduct...
The toroidal field model coil (TFMC) was extensively tested in 2001-2002, in the TOSKA facility at t...
In the International Thermonuclear Experimental Reactor (ITER), the nuclear radiation escaping from ...
The recently developed and validated 4C code is used to analyse the fast discharge of an ITER TF coi...
A new tool – the 4C code – has been developed, which allows the thermal-hydraulic simulation of the ...
The first step of the validation of the recently developed thermal-hydraulic code 4C is presented. W...
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...
We report on the status of development and first preliminary applications of a new computational too...
In the International Thermonuclear Experimental Reactor, the nuclear radiation escaping from the vac...
The DC performance of the ITER Central Solenoid Insert (CSI) coil, a single layer solenoid wound usi...
In the recent years, the Cryogenic Circuit Conductor and Coil (4C) code has been developed to allow ...
Abstract—The first step of the validation of the recently de-veloped thermal-hydraulic code 4C is pr...
The ITER Toroidal Field Insert (TFI) coil is a single-layer Nb3Sn solenoid tested in 2016-2017 at th...
The ITER superconducting (SC) magnets require the forced flow of supercritical He (SHe) at ~ 4.5 K a...
The Divertor Tokamak Test (DTT) facility is currently under design in Italy. This fully superconduct...
The toroidal field model coil (TFMC) was extensively tested in 2001-2002, in the TOSKA facility at t...
In the International Thermonuclear Experimental Reactor (ITER), the nuclear radiation escaping from ...
The recently developed and validated 4C code is used to analyse the fast discharge of an ITER TF coi...
A new tool – the 4C code – has been developed, which allows the thermal-hydraulic simulation of the ...
The first step of the validation of the recently developed thermal-hydraulic code 4C is presented. W...
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...
We report on the status of development and first preliminary applications of a new computational too...
In the International Thermonuclear Experimental Reactor, the nuclear radiation escaping from the vac...
The DC performance of the ITER Central Solenoid Insert (CSI) coil, a single layer solenoid wound usi...
In the recent years, the Cryogenic Circuit Conductor and Coil (4C) code has been developed to allow ...
Abstract—The first step of the validation of the recently de-veloped thermal-hydraulic code 4C is pr...
The ITER Toroidal Field Insert (TFI) coil is a single-layer Nb3Sn solenoid tested in 2016-2017 at th...
The ITER superconducting (SC) magnets require the forced flow of supercritical He (SHe) at ~ 4.5 K a...
The Divertor Tokamak Test (DTT) facility is currently under design in Italy. This fully superconduct...