Your search keyword '"Turtù, Simonetta"' showing total 13 results

1. Structural assessment of TF superconducting magnet of the DTT device

Author

Chiappa, Andrea, Zenobio, Aldo Di, Giorgetti, Francesco, Groth, Corrado, Muzzi, Luigi, Porziani, Stefano, Turtù, Simonetta, Regine, Domenico, and Biancolini, Marco Evangelos

Published

2019

2. Performance analysis of a graded winding pack design for the EU DEMO TF coil in normal and off-normal conditions

Author

Savoldi, Laura, Brighenti, Alberto, Bonifetto, Roberto, Corato, Valentina, Muzzi, Luigi, Turtù, Simonetta, and Zanino, Roberto

Published

2017

3. A new meshless approach to map electromagnetic loads for FEM analysis on DEMO TF coil system

Author

Biancolini, Marco Evangelos, Brutti, Carlo, Giorgetti, Francesco, Muzzi, Luigi, Turtù, Simonetta, and Anemona, Alessandro

Published

2015

4. LTS and HTS high current conductor development for DEMO

Author

Bruzzone, Pierluigi, Sedlak, Kamil, Uglietti, Davide, Bykovsky, Nikolay, Muzzi, Luigi, De Marzi, Gainluca, Celentano, Giuseppe, della Corte, Antonio, Turtù, Simonetta, and Seri, Massimo

Published

2015

5. Conceptual design report. A 250 GHz radio frequency CARM source for plasma fusiom

Author

Zito, Pietro, Turtù, Simonetta, Tuccillo, Angelo A., Tilia, Benedetto, Sabschevski, Svilen, Spassovsky, Ivan, Savilovc, Andrey V., Sabia, Elio, Rocchi, Giuliano, Ravera, Gian Luca, Raspante, Bernardo, Polenta, Stefano, Pizzuto, Aldo, Petrolini, Piero, Petralia, Alberto, Peskovc, Nikolai Y., Pagnutti, Simonetta, Nguyen, Federico, Mirizzi, Francesco, Mezi, Luca, Maffia, Giuseppe, Licciardi, Silvia, Lampasi, Alessandro, Glyavin, Mikhail Y., Giovenale, Emilio, Ginzburg, Naum S., Gallerano, Gian Piero, Doria, Andrea, Di Pace, Luigi, Di Palma, Emanuele, Di Giovenale, Sergio, De Meis, Domenico, Dattoli, Giuseppe, Ciocci, Franco, Ceccuzzi, Silvio, Carpanese, Mariano, Cappelli, Mauro, Campana, Ezio, Aquilini, Massimo, Artioli, Marcello, Zito, Pietro, Turtù, Simonetta, Tuccillo, Angelo A., Tilia, Benedetto, Sabschevski, Svilen, Spassovsky, Ivan, Savilovc, Andrey V., Sabia, Elio, Rocchi, Giuliano, Ravera, Gian Luca, Raspante, Bernardo, Polenta, Stefano, Pizzuto, Aldo, Petrolini, Piero, Petralia, Alberto, Peskovc, Nikolai Y., Pagnutti, Simonetta, Nguyen, Federico, Mirizzi, Francesco, Mezi, Luca, Maffia, Giuseppe, Licciardi, Silvia, Lampasi, Alessandro, Glyavin, Mikhail Y., Giovenale, Emilio, Ginzburg, Naum S., Gallerano, Gian Piero, Doria, Andrea, Di Pace, Luigi, Di Palma, Emanuele, Di Giovenale, Sergio, De Meis, Domenico, Dattoli, Giuseppe, Ciocci, Franco, Ceccuzzi, Silvio, Carpanese, Mariano, Cappelli, Mauro, Campana, Ezio, Aquilini, Massimo, and Artioli, Marcello

Subjects

Plasma fusion, Electron beam shaping and transport, Cyclotron Auto Resonance Maser (CARM), Electron Cyclotron Range of Frequency (ECRF)

Abstract

Questa pubblicazione rappresenta il “conceptual design report” per una sorgente a radiofrequenza di tipo CARM (Cyclotron auto resonance maser) operante a 250 GHz e progettata per attività di ricerca sul plasma. Lo studio è finalizzato alla pianificazione della costruzione di un dispositivo di tipo CARM nel Centro ENEA di Frascati, nell’ambito di ricerche concernenti la fusione nucleare. Le attività contemplate nel progetto raccolgono assieme differenti competenze tradizionalmente presenti all’interno dell’ENEA e, oltre la già citata fusione, riguardano la scienza e tecnologia degli acceleratori di particelle, la gestione e il trasporto dei fasci di particelle cariche, la superconduttività. Il documento prende in considerazione i vari particolari del progetto ed è diviso in due parti. La prima include la descrizione generale dell’intero sistema, tra l’altro presentando le ragioni a supporto della scelta del CARM, i presupposti teorici, le ragioni della la scelta dei parametri di operazione e le prestazioni attese dalla sorgente stessa. Nella seconda parte del testo sono riportati i dettagli costruttivi e ogni aspetto è adeguatamente descritto negli annessi tecnici: il progetto del catodo, la formazione e il trasporto del fascio di elettroni; le caratteristiche della alimentazione elettrica e della linea formatrice di impulso; il magnete superconduttore e le caratteristiche della cavità del CARM; lo sviluppo dei codici di calcolo per l’analisi delle prestazioni RF della sorgente., We present the conceptual design for a Cyclotron Auto Resonance Maser source, operating at 250 GHz and conceived for Plasma Fusion research ac- tivities. The study discussed here is aimed at planning the construction of such a device at the ENEA Frascati Center, within the framework of the researches pertaining to the Fusion department. This foreseen activity gather together different skills traditionally present in the Agency and including Fusion, ac- celerator technology, beam handling and transport, superconductivity. . . The report covers the different details of the project and is devided in two parts. The first contains a general description of the entire system, furthermore it describes the motivations underlying the choice of the de- vice, the relevant theoretical foundations, the reasons for the choice of the operating parameters and the expected performances of the source. In the second part the project details are reported and each constituting item is properly described in the technical annexes. We discuss indeed the cathode design and the electron beam shaping and transport, we report on the power supply and electrical pulse forming line, on the Superconduct- ing magnet and CARM cavity characteristics. Finally we discuss the code development effort for the analysis of the radiation output performances.

Published

2016

6. Mechanical Analysis of the ENEA TF Coil Proposal for the EU DEMO Fusion Reactor.

Author

Biancolini, Marco Evangelos, Bonifetto, Roberto, Chiappa, Andrea, Giorgetti, Francesco, Corato, Valentina, Luigi Muzzi, and Turtù, Simonetta

Subjects

ELECTROMAGNETISM, MAGNETIC fields, LORENTZ force, ELECTROMAGNETIC fields, FINITE element method

Abstract

The design of the superconducting magnet system of the European DEMO fusion reactor is currently being pursued in the framework of the EUROfusion Magnets Work Package. Three alternative winding pack (WP) options for the toroidal field coils (TFCs) are being proposed by different research units, each featuring a different conductor manufacturing technology (react and- wind versus wind-and-react) or winding layout (layer versus pancake). One of the options (namely, WP#2), proposed by Italian ENEA, features a layer-wound WP design adopting a wind-andreact conductor with rectangular cross section with high aspect ratio, obtained squeezing an initially circular conductor. In order to assess the capability of all the TFC components to withstand the electromagnetic loads due to the huge Lorentz forces without any structural failure during the magnet lifetime, the mechanical analysis of the 2016 version of the WP#2 design option is performed here applying a hierarchical approach herein defined as the stress recovery tool: the finite element analysis (FEA) of a whole magnet (including the casing) is performed at a low computational cost adopting a coarse WP model with smeared (homogenized) properties. The displacements computed on the smeared WP are then used as boundary conditions for a refined FEA of some WP slices, located in selected (critical) poloidal positions, where all the conductors detailed features (jacket, insulations) are properly accounted for. [ABSTRACT FROM AUTHOR]

Published

2018

7. The DRYSMES4GRID Project: Development of a 500 kJ/200 kW Cryogen-Free Cooled SMES Demonstrator Based on MgB2.

Author

Morandi, Antonio, Anemona, Alessandro, Angeli, Giuliano, Breschi, Marco, Corte, Antonio Della, Ferdeghini, Carlo, Gandolfi, Chiara, Grandi, Gabriele, Grasso, Gianni, Martini, Luciano, Melaccio, Umberto, Nardelli, Davide, Ribani, Pier Luigi, Siri, Sergio, Tropeano, Matteo, Turtù, Simonetta, and Vignolo, Maurizio

Subjects

LOW temperature engineering, CRYOGENIC fluids, ELECTRIC power distribution grids, RESEARCH institutes, ECONOMICS

Abstract

A three-year research project, called DRYSMES 4GRID, was recently funded by the Italian Minister of Economic Development, Italy. The project, which involves five Italian partners (companies, universities, and research institutes), is aimed to demonstrate the feasibility of cost-competitive SMES based on magnesium diboride (MgB2 ) with a cryogen-free cooling bymeans of the manufacturing and the testing of a demonstrator with an objective rating of 500 kJ/200 kW. This rating is deemed suitable for disclosing the critical technological aspects of all components in view of practical applications. A further goal of the project is the assessment of the technical and economic benefits that the SMES can bring to real-world electric grids. The general outline and technical objectives of the project are presented in this paper. Preliminary design assumptions and results concerning the MgB2 coil and the power condition system are also discussed. [ABSTRACT FROM AUTHOR]

Published

2018

8. Performance Analysis of the NbTi PF Coils for the EU DEMO Fusion Reactor.

Author

Zappatore, Andrea, Bonifetto, Roberto, Bruzzone, Pierluigi, Corato, Valentina, Di Zenobio, Aldo, Savoldi, Laura, Sedlak, Kamil, Turtù, Simonetta, and Zanino, Roberto

Subjects

THERMAL hydraulics, LORENTZ force, ELECTROMAGNETIC fields, POLOIDAL magnetic fields, MAGNETIC fields

Abstract

The first design of the NbTi poloidal field (PF) coils for the EU DEMO fusion reactor has been proposed by the Swiss Plasma Center and by the Italian National Agency for New Technologies, Energy and Sustainable Economic Development. The thermal-hydraulic (TH) performance analysis of the PF coil system presented in this work has been carried out using the state-of the- art 4C code. The minimum temperature margin and the TH response of the coils to the heat deposition due to AC losses are computed in two different plasma scenarios, using a single time constant (nτ ) whose value is currently unknown. Therefore, we apply our model to parametrically assess the sensitivity of the PF performance to a range of nτ values. The calculations are also performed taking into account that the high void fraction design of the conductor leads to the opening of a channel due to the Lorentz force. For all situations considered here, the 4C code predicts that the temperature margin never goes below the acceptableminimum of 1.5 K. [ABSTRACT FROM AUTHOR]

Published

2018

9. CuK-edge polarized x-ray-absorption near-edge structure ofBi2CaSr2Cu2O8

Author

Bianconi, Antonio, primary, Li, Chenxi, additional, Campanella, Francesco, additional, Longa, Stefano Della, additional, Pettiti, Ida, additional, Pompa, Margherita, additional, Turtù, Simonetta, additional, and Udron, Dominique, additional

Published

1991

10. ENFASI: Conceptual Design of a 15 T Large Bore Superconducting Test Facility.

Author

della Corte, Antonio, Di Zenobio, Aldo, Muzzi, Luigi, Pasotti, Giorgio, Polli, Gian Mario, Reccia, Luigi, and Turtù, Simonetta

Subjects

SUPERCONDUCTORS, SOLENOID magnetic fields, ELECTROMAGNETS, TEMPERATURE effect

Abstract

The present work illustrates the conceptual design of a new superconducting test facility, ENFASI (Enea FAcility for Superconducting Inserts), which has been mainly conceived to test long length wound conductors. It consists of a background 15 T Nb3 Sn solenoid, with a warm bore of 90 cm diameter, divided into three concentric sections corresponding to high field (15 T), medium field (13 T) and low field (8 T), and globally composed of 983 turns. The three different CIC (Cable-In-Conduit) conductor layouts, one for each section and with rectangular cross-sections, operate at 20 kA and are made of strands with different Cu/nonCu ratios and segregated copper when needed. The facility permits to feed the sample with a current up to 70 kA and to vary the sample temperature in the range [4.5 K-77 K]. The main results of electro-magnetic, structural and thermo-hydraulic analysis which brought to the definition of the main aspects of the design, are presented. [ABSTRACT FROM AUTHOR]

Published

2009

11. Application of the ENEA Joint Concept to NbTi CIC Conductors.

Author

Di Zenobio, Aldo, Vetrella, Ugo Besi, Corato, Valentina, della Corte, Antonio, Giorgi, Gianremo, Maierna, Ferruccio, Messina, Giuseppe, Muzzi, Luigi, and Turtù, Simonetta

Subjects

SUPERCONDUCTING magnets, ELECTRICAL conductors, MAGNETIC materials, MAGNETIC dipoles, MANUFACTURING processes

Abstract

In superconducting coils for fusion applications, the cable-in-conduit (CIC) conductor is the most adopted solution. ENEA reported last year about a newly developed compact joint, successfully tested for Nb3Sn conductors in a configuration suitable for the EFDA Dipole which is currently in construction phase. The main advantages of this new concept are: low room occupancy, low price and easiness of manufacturing process. In the present paper, new results coming from the characterization of NbTi joint samples are presented, suggesting new applications for this innovative junction. A joint layout optimization study by means of an electrical simulation code is included as well. [ABSTRACT FROM AUTHOR]

Published

2009

12. The DRYSMES4GRID Project: Development of a 500 kJ/200 kW Cryogen-Free Cooled SMES Demonstrator Based on MgB2.

Author

Morandi, Antonio, Anemona, Alessandro, Angeli, Giuliano, Breschi, Marco, Corte, Antonio Della, Ferdeghini, Carlo, Gandolfi, Chiara, Grandi, Gabriele, Grasso, Gianni, Martini, Luciano, Melaccio, Umberto, Nardelli, Davide, Ribani, Pier Luigi, Siri, Sergio, Tropeano, Matteo, Turtù, Simonetta, and Vignolo, Maurizio

Subjects

*LOW temperature engineering, *CRYOGENIC fluids, *ELECTRIC power distribution grids, *RESEARCH institutes, *ECONOMICS

Abstract

A three-year research project, called DRYSMES 4GRID, was recently funded by the Italian Minister of Economic Development, Italy. The project, which involves five Italian partners (companies, universities, and research institutes), is aimed to demonstrate the feasibility of cost-competitive SMES based on magnesium diboride (MgB2 ) with a cryogen-free cooling bymeans of the manufacturing and the testing of a demonstrator with an objective rating of 500 kJ/200 kW. This rating is deemed suitable for disclosing the critical technological aspects of all components in view of practical applications. A further goal of the project is the assessment of the technical and economic benefits that the SMES can bring to real-world electric grids. The general outline and technical objectives of the project are presented in this paper. Preliminary design assumptions and results concerning the MgB2 coil and the power condition system are also discussed. [ABSTRACT FROM AUTHOR]

Published

2018

13. Thermal-Hydraulic Analysis of the DTT Toroidal Field Magnets in DC Operation

Author

Andrea Zappatore, Aldo Di Zenobio, Roberto Bonifetto, Luigi Muzzi, Roberto Zanino, Simonetta Turtu, Bonifetto, R., Di Zenobio, A., Muzzi, L., Turtù, Simonetta, Zanino, R., and Zappatore, A.

Subjects

Test bench, Tokamak, Materials science, Nuclear engineering, Divertor, toroidal field magnet, modeling, Condensed Matter Physics, 01 natural sciences, DTT, nuclear fusion, thermal-hydraulics, Electronic, Optical and Magnetic Materials, law.invention, Thermal hydraulics, Physics::Plasma Physics, law, Shield, Magnet, 0103 physical sciences, Active cooling, Electrical and Electronic Engineering, 010306 general physics, Casing

Abstract

The Divertor Tokamak Test (DTT) facility is currently under design in Italy. This fully superconductive compact tokamak will be the test bench of several DEMO-relevant divertor solutions. The 4C code model of a DTT toroidal field magnet (including its structures) is developed here and used to support some important design decisions related to the neutron shield to be adopted, the need of an active cooling of the casing and the static heat load reduction. The simulations confirm the need to actively cool the casing by suitable cooling channels, but also the need of a proper neutron shield to reduce the nuclear heat load on the superconducting coils. On the other hand, the proposed static heat load reduction measures do not appear to be effective enough to satisfy the design requirement of 1.4 K for the minimum temperature margin.

Published

2020