Your search keyword '"Topin, Frederic"' showing total 2 results

1. AC Coupling Losses in CICCs: Analytical Modeling at Different Stages.

Author

Louzguiti, Alexandre, Zani, Louis, Ciazynski, Daniel, Turck, Bernard, Duchateau, Jean-Luc, Torre, Alexandre, and Topin, Frederic

Subjects

SUPERCONDUCTING composites, TOKAMAKS, COUPLING reactions (Chemistry), SOLENOID magnetic fields, RADIATION shielding, MATHEMATICAL models

Abstract

Cable-in-conduit conductors (CICCs) are composed of a large number of strands (superconducting composites and copper strands) twisted together in several stages with different twist pitches. They are widely used in large fusion tokamaks such as JT-60SA or ITER. However, because of their complex transposed geometry at a strand scale, the knowledge of ac coupling losses in these conductors is limited and still has some improvement margins to capture its complexity while the prediction of their behavior under transient regimes (e.g., central solenoid) is of first importance to assess a safe operation in tokamaks. Consequently, we have carried out an in-depth theoretical generic study of a single stage of a CICC and analytically derived the expression of coupling losses using physical parameters (time constant and partial shielding coefficient) determined from electromagnetic and geometrical properties. Our approach has been inspired by the MPAS model (extensively used on the experimental ITER database) but starts from the analytical description of a single stage and aims at reaching the CICC scale in an iterative way. [ABSTRACT FROM AUTHOR]

Published

2017

2. Influence of pore and strut shape on open cell metal foam bulk properties.

Author

Kumar, Prashant, Hugo, Jean-Michel, Topin, Frederic, and Vicente, Jerome

Subjects

POROUS materials, METAL foams, MATHEMATICAL models, THERMAL analysis, HYDRAULICS, PARAMETER estimation

Abstract

The thermo-physical behavior of open-celled metal foams depends on their microscopic structure. An ideal periodic isotropic structure of tetrakaidecahedron shape i.e. Kelvin cell is studied. We have proposed an analytical model in order to obtain geometrical parameters correctly as they have substantial influence on thermal and hydraulic phenomena, where strut geometry is of prime importance. Various relationships between different geometrical parameters and porosities are presented. Consequently, empirical correlations are proposed to determine permeability and inertia coefficient using Ergun like model for computing pressure drop. [ABSTRACT FROM AUTHOR]

Published

2012