11 results on '"Chiarasole Fiamozzi Zignani"'
Search Results
2. Transient Electrical Behaviour of the TF Superconducting Coils of Divertor Tokamak Test Facility During a Fast Discharge
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Giuseppe Messina, Carmelo Riccardo Lopes, Pietro Zito, Aldo Di Zenobio, Chiarasole Fiamozzi Zignani, Alessandro Lampasi, Luigi Morici, Giuseppe Ramogida, Giordano Tomassetti, Guido Ala, Gaetano Zizzo, Messina G., Lopes C.R., Zito P., Zenobio A.D., Fiamozzi Zignani C., Lampasi A., Morici L., Ramogida G., Tomassetti G., Ala G., and Zizzo G.
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Fast Discharge ,Circuit faults ,FDU ,Condensed Matter Physics ,Ground fault conditions ,Central Solenoid Model Coil (CSMC) ,Electronic, Optical and Magnetic Materials ,Settore ING-IND/33 - Sistemi Elettrici Per L'Energia ,Transient analysis ,Settore ING-IND/31 - Elettrotecnica ,Insulation ,Integrated circuit modeling ,Discharges (electric) ,Toroidal Field Model Coil (TFMC) ,Superconducting magnets ,Electrical and Electronic Engineering ,Voltage distribution ,Inductance ,DTT ,Electromagnetic modelling - Abstract
The paper is focused on the electromagnetic analysis of the Toroidal Field (TF) superconducting coils of the Divertor Tokamak Test facility (DTT) when electrical transients occur in the TF coils system: for example, during the operations of the Fast Discharge Units (FDUs) and considering also, the simultaneous occurrence of a fault condition. During the FDU intervention, a transient voltage excitation lasting few microseconds occurs at the TF coil terminals and it electrically stresses the insulations of TF coils itsef. To investigate the voltage distribution across, inside and between different Double Pancakes (DPs) of each TF coil, a lumped parameters circuital model has been developed and implemented in Ansys Simplorer simulation environment. This model includes both the detailed sub-model of each TF coil and FDU. The transient analyses have been carried out for two different scenarios: a reference one and a failure scenario, considering three different fault resistance values and also two different values of the resistance connecting the TF case to ground. In order to verify the correct sizing of the coil insulation and the TF case-to-ground resistance value inserted in the circuit of each TF coil, the voltages of each TF coil (terminal-to-terminal, terminal-to-ground, across of adjacent DPs and so) were computed in the time domain (in the range of milliseconds) for both scenarios. An overview of calculations and simulation results is presented and discussed, pointing out a high sensitivity of fault conditions and of overvoltage values and addressing mitigation strategies.
- Published
- 2022
3. Design and Characterization of the Interlayer Joint between Low-Field Nb3Sn Conductors of a Layer Wound DEMO TF Coil
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Simonetta Turtu, Kamil Sedlak, Riccardo Righetti, Chiarasole Fiamozzi Zignani, A. Anemona, Luigi Muzzi, R. Freda, Antonio della Corte, A. Bragagni, Andrea Formichetti, Mithlesh Kumar, G. Molino, Boris Stepanov, Lucio Merli, Gianluca De Marzi, Massimo Seri, Mohammed Arabi, Pierluigi Bruzzone, Marco Roveta, L. Affinito, G. Roveta, Stefano Galignano, Valentina Corato, Aldo Di Zenobio, S. Chiarelli, Muzzi, Luigi, Affinito, Luigi, Chiarelli, Sandro, Corato, Valentina, Della Corte, Antonio, De Marzi, Gianluca, Di Zenobio, Aldo, Fiamozzi Zignani, Chiarasole, Freda, Rosa, Turtu, Simonetta, Anemona, Alessandro, and Formichetti, Andrea
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Superconductivity ,Materials science ,Mechanical engineering ,Fusion Magnets ,AC loss ,Superconducting magnet ,Condensed Matter Physics ,7. Clean energy ,01 natural sciences ,Electronic, Optical and Magnetic Materials ,Conductor ,Conceptual design ,Electromagnetic coil ,Magnet ,Cable-in-Conduit-Conductor ,0103 physical sciences ,Electrical and Electronic Engineering ,010306 general physics ,Electrical conductor ,Joint (geology) ,DEMO ,Joint Resistance - Abstract
In the frame of the conceptual design studies for the Toroidal Field (TF) coils of DEMO, a solution based on a layer-wound magnet, rectangular-shaped Cable-in-Conduit conductors and W&R manufacturing approach, is being developed. The feasibility and performance of a large-size Nb3Sn conductor operating at about 82 kA in a 13 T field has been proven in the past. Another key technology to be demonstrated for a layer-wound TF coil, is that of a joint between two different conductor grades, to be possibly manufactured in-line during winding. The proposed joint solution would provide the minimum room occupancy, with the joint embedded within the winding pack volume. A joint between two low-field conductor grades, i.e., constituted of a small number of superconducting strands and a high number of stabilization copper wires, has been designed and manufactured. The two conductor lengths are characterized by a different number of superconducting wires and different outer dimensions. A joint sample has been assembled and instrumented, in the configuration allowing testing at the SULTAN facility of the Swiss Plasma Center. Both DC and AC performance of the joint has been characterized at the DEMO TF operating conditions. The present paper reports the main manufacturing steps for the joint and its main test results. The implications on the performance and design approach of the TF coil are also discussed, based on the outcome of such tests.
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- 2021
4. Fe(Se,Te) from melting routes: The influence of thermal processing on microstructure and superconducting properties
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Gaetano Campi, Carlo Alvani, Giuseppe Chita, Alessandro Rufoloni, Angelo Vannozzi, Chiarasole Fiamozzi Zignani, Francesco Rizzo, Achille Angrisani Armenio, Andrea Masi, Aurelio La Barbera, Luisa Barba, Giuseppe Celentano, Laura Piperno, Francesca Varsano, Enrico Silva, F. L. Fabbri, Andrea Augieri, Masi, A., Alvani, C., Armenio, A. A., Augieri, A., Barba, L., Campi, G., Celentano, G., Chita, G., Fabbri, F., Zignani, C. F., Barbera, A. L., Piperno, L., Rizzo, F., Rufoloni, A., Silva, E., Vannozzi, A., and Varsano, F.
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Superconductivity ,phase stability ,Materials science ,critical temperature ,Scattering ,Annealing (metallurgy) ,Fe(Se ,Metallurgy ,iron based superconductors ,Metals and Alloys ,Te) ,Fe(Se, Te) ,Condensed Matter Physics ,Microstructure ,iron based superconductor ,phase stability8annealing ,Thermal ,X-ray crystallography ,Materials Chemistry ,Ceramics and Composites ,annealing ,Electrical and Electronic Engineering ,Electric current ,Phase diagram - Abstract
Superconducting properties of the Fe(Se,Te) system are directly related to its microstructure. However, in the framework of a not well assessed phase diagram, a large spread of chemico-physical and functional properties is reported for compounds characterized by similar overall chemical compositions. This is in particular observed in materials produced by melting routes, where chemical inhomogeneities and multiple phases are commonly obtained. Both composition and morphology of these inhomogeneities seem to play a role in the behaviour of the superconducting phases, pointing out the need to assess the dependence of phase composition and therefore of the material performance on the sample thermal history. In this work, the effect of different post-synthesis annealing treatments is studied. A melting route has been adopted to synthesize polycrystalline samples, subsequently subjected to thermal treatments at different temperatures. Morphology and microstructure were characterized by means of x-ray diffraction and microscopy techniques. The superconducting properties have been evaluated by means of electrical and magnetic measurements. It is observed how microstructure, chemical composition and morphology of the obtained products strictly depend on the annealing temperature. Moreover, a crucial role of the cooling step is evidenced: in fact, a rapid cooling procedure from high temperature leads to the formation of high temperature (Tconset > 19 K) superconducting phases, but the overall bulk superconducting performance is negatively affected. Other annealing treatments can promote instead an enhancement in the critical current at high fields with respect to pristine sample, suggesting that a careful engineering of a post-synthesis thermal step can represent a useful tool to optimize the material properties.
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- 2020
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5. A methodological approach for the optimal design of the toroidal field coils of a tokamak device using artificial intelligence
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Gianluca De Marzi, F. Giorgetti, Antonio della Corte, Giordano Tomassetti, and Chiarasole Fiamozzi Zignani
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Optimal design ,Tokamak ,law ,Computer science ,Toroidal field ,Materials Chemistry ,Metals and Alloys ,Ceramics and Composites ,Mechanical engineering ,Electrical and Electronic Engineering ,Condensed Matter Physics ,law.invention - Abstract
As prototypes of future commercial tokamaks, DEMOs nuclear fusion power plants are expected to be able to produce cost-effective electrical power. In this view, an optimized design becomes crucial in the whole engineering workflow. Up to now, the design of one of the most critical components, the cross-section of each of the toroidal field coils inner leg winding pack, was performed using a sequential trial-and-error procedure. In this work, a novel comprehensive approach is proposed to include all the main design aspects into a unified tool taking advantage of artificial neural networks for faster computation in finding optimal design configurations. This procedure overcomes several difficulties including dealing with both real-valued and discrete design variables, the significant CPU-time of magneto-structural analysis and also guarantees the optimality for the winding pack configuration. The proposed methodology was demonstrated for the 2019 ENEA DEMO configuration which includes 16 toroidal field coils, made-up of 6 Nb3Sn double layers and a Wind and React manufacturing technique.
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- 2021
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6. Fabrication and Physical Properties of Polycrystalline Iron-Chalcogenides Superconductors
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Gaia Grimaldi, Antonio della Corte, A. Guarino, Angelo Vannozzi, Gianluca De Marzi, Antonio Leo, Sandro Pace, Chiarasole Fiamozzi Zignani, Della Corte, A., Vannozzi, A., De Marzi, G., and Fiamozzi Zignani, C.
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Critical current and flux pinning ,hysteresis ,magnetoresistance ,superconducting materials ,Electronic, Optical and Magnetic Materials ,Condensed Matter Physics ,Electrical and Electronic Engineering ,hysteresi ,Materials science ,Fabrication ,Magnetoresistance ,02 engineering and technology ,Superconducting magnetic energy storage ,01 natural sciences ,0103 physical sciences ,Electronic ,Optical and Magnetic Materials ,010306 general physics ,Critical field ,Superconductivity ,Condensed matter physics ,021001 nanoscience & nanotechnology ,Engineering physics ,superconducting material ,Hysteresis ,Crystallite ,0210 nano-technology ,Pinning force - Abstract
Iron-based superconductors are an interesting class of materials that have attracted significant interest during the last years, and which could be employed in a variety of potential applications due to their high upper critical field Hc2. In order to exploit the properties of these materials for practical applications, in this paper we explore two different routes for the fabrication of polycrystalline samples belonging to 11-family. In particular, the influence of dedicated heat treatments has been investigated to optimize their overall superconducting properties. Then, we compared the pinning properties of these two types of samples to correlate the fabrication process with the pinning landscape. The final aim is to obtain an increased Tc and Hc2, as well as an enhanced pinning efficacy, which could lead to higher critical current density Jc relevant for practical uses. © 2017 IEEE.
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- 2017
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7. Fe(Se,Te) From Melting Routes: Insight on Phase Separation
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Gianluca De Marzi, Andrea Augieri, Carlo Alvani, Aurelio La Barbera, Mariangela Bellusci, F. L. Fabbri, Andrea Masi, Marzia Pentimalli, Enrico Silva, Franco Padella, Francesca Varsano, Chiarasole Fiamozzi Zignani, Giuseppe Celentano, Angelo Vannozzi, Masi, Andrea, Alvani, Carlo, Augieri, Andrea, Bellusci, Mariangela, Celentano, Giuseppe, De Marzi, Gianluca, Fabbri, Fabio, Fiamozzi Zignani, Chiarasole, La Barbera, Aurelio, Padella, Franco, Pentimalli, Marzia, Silva, Enrico, Vannozzi, Angelo, Varsano, Francesca, Masi, A., Alvani, C., Augieri, A., Bellusci, M., Celentano, G., De Marzi, G., Fabbri, F., Fiamozzi Zignani, C., La Barbera, A., Padella, F., Pentimalli, M., Silva, E., Vannozzi, A., and Varsano, F.
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Superconductivity ,Materials science ,Annealing (metallurgy) ,Iron ,Analytical chemistry ,microscopy ,superconducting materials growth ,superconducting materials measurement ,Condensed Matter Physics ,Electronic, Optical and Magnetic Materials ,Matrix (geology) ,Tetragonal crystal system ,Condensed Matter::Superconductivity ,Bulk samples ,Electrical and Electronic Engineering - Abstract
This study is focused on the phase separation phenomena in Fe(Se,Te) materials. In particular, it investigates the effect of a high temperature and long time annealing treatment on morphostructural and superconducting properties of bulk samples. The synthesis of Fe(Se,Te) compounds was carried out through a melting route, and the materials were characterized in their morphostructural and magnetic properties. The obtained compounds possess a high degree of inhomogeneity due to dendritic precipitates of secondary phases in a superconducting tetragonal matrix. The high temperature annealing treatment induces a morphological evolution of the material and leads to the structuration of two distinct superconducting phases.
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- 2019
8. Phase Separation and Microstructure in Superconducting FeSe1-xTex Materials
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Marzia Pentimalli, Carlo Alvani, Aurelio La Barbera, Giuseppe Celentano, Andrea Augieri, Andrea Masi, Mariangela Bellusci, Franco Padella, Gianluca De Marzi, Chiarasole Fiamozzi Zignani, F. L. Fabbri, Angelo Vannozzi, Francesca Varsano, Enrico Silva, Masi, Andrea, Alvani, Carlo, Augieri, Andrea, Bellusci, Mariangela, Celentano, Giuseppe, De Marzi, Gianluca, Fabbri, Fabio, Zignani, Chiarasole Fiamozzi, La Barbera, Aurelio, Padella, Franco, Pentimalli, Marzia, Silva, Enrico, Vannozzi, Angelo, Varsano, Francesca, Varsano, F., Vannozzi, A., Pentimalli, M., Padella, F., La Barbera, A., Zignani, C. F., Fabbri, F., De Marzi, G., Celentano, G., Bellusci, M., Augieri, A., and Alvani, C.
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Materials science ,Superconducting materials growth ,uperconducting materials measurements ,Crystal growth ,Condensed Matter Physic ,superconducting materials measurements ,01 natural sciences ,superconducting materials measurement ,Magnetization ,crystal growth ,Electrical resistance and conductance ,Condensed Matter::Superconductivity ,0103 physical sciences ,Homogeneity (physics) ,Electrical and Electronic Engineering ,010306 general physics ,Chemical composition ,010302 applied physics ,Superconductivity ,Condensed matter physics ,Electronic, Optical and Magnetic Material ,Condensed Matter Physics ,Microstructure ,Electronic, Optical and Magnetic Materials ,Magnetic field - Abstract
In the effort to unveil the relations between synthesis conditions, morpho-structural features and superconducting properties of (11)-type iron-based superconductors, this study is focused on FeSe0.5Te0.5 materials obtained from high-temperature melts and different cooling rates. Crystalline and chemical composition are evaluated by means of XRD and SEM analyses, highlighting the formation of complex multiphase structures: the obtained results suggest that high-temperature nucleating phases may play a key role in the observed phase separation. Superconducting properties, evaluated by magnetization measurement and dc electrical resistance in different magnetic field conditions up to 18 T, highlight the low homogeneity of the superconducting phases, reflecting the microstructural observation. © 2002-2011 IEEE.
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- 2018
9. Measurement of the Transverse Resistivity of NbTi and Internal-Tin ${\rm Nb}_{3}{\rm Sn}$ Strands
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Luigi Muzzi, Chiarasole Fiamozzi Zignani, Antonio della Corte, U.B. Vetrella, and Valentina Corato
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Superconductivity ,Materials science ,Diffusion barrier ,Condensed matter physics ,chemistry.chemical_element ,Superconducting magnet ,Condensed Matter Physics ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Transverse plane ,chemistry ,Electrical resistance and conductance ,Electrical resistivity and conductivity ,Condensed Matter::Superconductivity ,Electrical and Electronic Engineering ,Tin - Abstract
A 4-probe method, which directly measures the transverse resistivity in multi-filamentary superconducting strands, has been developed at ENEA. The technique has been applied to NbTi strands in order to compare the results with the ones obtained through indirect approaches. Samples with different external diameters have been considered, for evaluating the effect of the Cu:non-Cu ratio into the wires. For Nb3Sn strands with either a distributed Nb-Ta diffusion barrier design, or with a single Ta diffusion barrier between the filamentary region and the stabilizing copper shell, a detailed mapping of the transverse resistivity of the matrix has been achieved. The temperature and magnetic field dependence of the transverse resistance has been measured for Nb3Sn samples.
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- 2011
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10. Numerical Simulation of $\hbox{Nb}_{3}\hbox{Sn}$ Strands Performances With Bending Strain and Comparison With Experimental Measurements
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Valentina Corato, Chiarasole Fiamozzi Zignani, Luigi Muzzi, and Antonio della Corte
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Dipole ,Transverse plane ,Materials science ,Computer simulation ,Numerical analysis ,Finite difference method ,Finite difference ,Mechanics ,Solid modeling ,Electrical and Electronic Engineering ,Condensed Matter Physics ,Geometric modeling ,Electronic, Optical and Magnetic Materials - Abstract
In order to study the effect of bending on strands' performances, a finite differences numerical method has been implemented at ENEA, which discretizes a single strand in several elements representing bundles of twisted filaments. The code has been validated, and a satisfactory agreement has been obtained with experimental measurements carried out on an ITER-type OST strand, highlighting the critical impact of geometric modeling and the potential of the model as a predictive tool. The aim of this work is to verify the agreement between model results and critical current measurements of bent strands, and to help in clarifying some aspects of current redistribution process within the strand cross-section, in view of developing more appropriate theoretical models. Further improvements to the model system are presented: in order to simulate more representative conditions for cables in operating conditions, periodic bending is now introduced. Simulation results are compared with available experimental data on OST Dipole strand, with both twisted and untwisted filaments. Numerical values from the inter-filament resistivity measurements carried out at ENEA, are introduced as computational parameters, being the transverse resistance the main physical factor governing the analyzed mechanisms in multi-filamentary superconductors. In all those cases a satisfactory agreement among measurements and computational results has been found.
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- 2010
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11. Measurement of the Transversal Resistivity in Superconducting Strands With a 4-Probe Technique
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Antonio della Corte, Andrea Augieri, U.B. Vetrella, Chiarasole Fiamozzi Zignani, Valentina Corato, Luigi Muzzi, and Alessandro Rufoloni
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Superconductivity ,Materials science ,Condensed matter physics ,Condensed Matter Physics ,Temperature measurement ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Transverse plane ,Nuclear magnetic resonance ,Electrical resistivity and conductivity ,Curve fitting ,Coupling (piping) ,Electrical and Electronic Engineering ,Proximity effect (electromagnetism) - Abstract
In multi-filamentary superconducting strands the transverse resistivity gives a fundamental contribution to the mechanisms governing the coupling losses in AC regime and the current transfer length, for example influencing the performance of wires with bending strain. Nevertheless, the transverse resistance matrix generally used into the simulation codes of superconducting strands is determined as a fitting parameter obtained from the experimental V-I curves. The first direct measurement of the transverse resistance as a function of the temperature in multi-filamentary wires by using a 4-probe method has been performed at ENEA. Here we study the effect of a background magnetic field on the V-I characteristics, obtaining interesting results. Moreover, the resistivity between the bundles and the outer copper layer is measured at different temperatures. These experimental values, together with the inter-bundle resistivity, are inserted as input parameters in the strand current diffusion equations, for the validation of a finite differences numerical model. The agreement between simulated V-I curves and experimental characteristics is excellent.
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- 2010
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