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3. Partial Discharges detection in 1 MV power supplies in MITICA experiment, the ITER Heating Neutral Beam Injector prototype

Author

Marco Boldrin, Mattia Dan, Vanni Toigo, Loris Zanotto, Paolo Barbato, Lucio Baseggio, Manola Carraro, Raffaele Ghiraldelli, Enrico Zerbetto, Stefano Malgarotti, Alberto Rizzi, Giuseppe Rizzi, Hans Decamps, and Hiroyuki Tobari

Subjects
Plasma Physics (physics.plasm-ph), Accelerator Physics (physics.acc-ph), Nuclear Energy and Engineering, Mechanical Engineering, FOS: Physical sciences, General Materials Science, Physics - Accelerator Physics, Physics - Plasma Physics, Civil and Structural Engineering
Abstract

MITICA (Megavolt ITER Injector & Concept Advancement), the full scale prototype of ITER Heating Neutral Beam, is under realization at the Neutral Beam Test Facility (Padova, Italy). It is designed to deliver 16.5 MW to ITER plasma, obtained by accelerating negative Deuterium ions up to 1 MeV for a total ion current of 40 A and then neutralized. MITICA Acceleration Power Supply is composed of several non-standard equipment, beyond industrial standard for insulation voltage level (-1 MVdc) and dimensions. Voltage withstand tests (up to 1.265 MVdc) have been performed in five subsequent steps (from 2018 to 2019), according to the installation progress, after connecting equipment belonging to different procurements. During integrated commissioning, started in 2021, two breakdowns occurred in a position of the HV plant not still identified, so they could be occurred either in air or in SF6. To identify the locations of possible weak insulation points, the existing diagnostics for partial discharge detection (the precursor of breakdowns) as a first step have been improved on air-insulated parts by consisting in a set of instrumentation, like capacitive probes and off-the-shelf instruments for AC application (acoustic and electromagnetic sensors). The paper deals with the instruments qualification to assess their suitability for DC usage and then with the investigation performed in MITICA, in particular: 1) sensitivity assessment campaign, with artificially produced corona effect to identify the minimum threshold of each diagnostics 2) voltage application to MITICA plant, moving the instrumentation around equipment and increasing progressively the voltage looking for corona phenomena to identify possible weak insulation points., Nine pages, twelve figures, accepted manuscript of a paper published in Fusion Engineering and Design

Published
2023

4. Overview on electrical issues faced during the SPIDER experimental campaigns

Author

Alberto Maistrello, Matteo Agostini, Marco Bigi, Matteo Brombin, Mattia Dan, Riccardo Casagrande, Marco De Nardi, Alberto Ferro, Elena Gaio, Palak Jain, Francesco Lunardon, Nicolò Marconato, Diego Marcuzzi, Mauro Recchia, Tommaso Patton, Mauro Pavei, Francesco Santoro, Vanni Toigo, Loris Zanotto, Marco Barbisan, Lucio Baseggio, Marco Bernardi, Giovanni Berton, Marco Boldrin, Samuele Dal Bello, Daniele Fasolo, Luca Franchin, Raffaele Ghiraldelli, Luca Grando, Ruggero Milazzo, Antonio Pimazzoni, Andrea Rigoni, Emanuele Sartori, Gianluigi Serianni, Alastair Shepherd, Margherita Ugoletti, Barbara Zaniol, Daniele Zella, Enrico Zerbetto, Hans Decamps, Chandramouli Rotti, and Pierluigi Veltri

Subjects
Plasma Physics (physics.plasm-ph), NBI, SPIDER, RF driven ion source, Physics - Instrumentation and Detectors, Nuclear Energy and Engineering, Mechanical Engineering, FOS: Physical sciences, General Materials Science, Instrumentation and Detectors (physics.ins-det), Physics - Plasma Physics, Civil and Structural Engineering
Abstract

SPIDER is the full-scale prototype of the ion source of the ITER Heating Neutral Beam Injector, where negative ions of Hydrogen or Deuterium are produced by a RF generated plasma and accelerated with a set of grids up to ~100 keV. The Power Supply System is composed of high voltage dc power supplies capable of handling frequent grid breakdowns, high current dc generators for the magnetic filter field and RF generators for the plasma generation. During the first 3 years of SPIDER operation different electrical issues were discovered, understood and addressed thanks to deep analyses of the experimental results supported by modelling activities. The paper gives an overview on the observed phenomena and relevant analyses to understand them, on the effectiveness of the short-term modifications provided to SPIDER to face the encountered issues and on the design principle of long-term solutions to be introduced during the currently ongoing long shutdown., 8 pages, 12 figures. Presented at SOFT 2022

Published
2023
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6. Early Operational Experience and Improvements of SPIDER Ion Source Power Supplies at Beam Energies Exceeding 30 keV

Author

Marco Bigi, Matteo Agostini, Matteo Brombin, Riccardo Casagrande, Mattia Dan, Marco De Nardi, Palak Jain, Francesco Lunardon, Alberto Maistrello, Mauro Recchia, Francesco Santoro, and Loris Zanotto

Subjects
Nuclear and High Energy Physics, vacuum break- down, Electromagnetic compatibility, Condensed Matter Physics
Abstract

At the International Thermonuclear Experimental Reactor (ITER) Neutral Beam Test Facility in Padua (Italy), the ion source full-scale prototype--SPIDER--has been in operation since June 2018 and, as of March 2021, has begun to explore the range of beam energies exceeding 30 keV. This has revealed a number of novel issues with the power supplies of ion source and extractor, mainly associated with grid breakdowns. Those power supplies include a set of high current single quadrant resonant converters, known as ion source support power supplies (ISSSs) and a high voltage pulse step modulator feeding the extraction gap. Grid breakdowns at beam energies exceeding 30 keV have shown the capability to upset the output measurements of the ISSSs, limiting operation and reducing reliability of the whole system. This article describes work undertaken first to identify the issues, found to belong to two distinct categories: general failures of all ISSSs measurements and trips from the output voltage measurements of the extraction gap power supply. Further investigation has associated the failures of the ISSS measurements to transient voltage affecting the electronics during grid breakdowns. A number of modifications to both power circuit and electronics have been undertaken and successfully tested, achieving immunity down to the full SPIDER operating voltage (-96 kV). The extraction gap power supply overvoltage has been quantified and a temporary modification deployed, able to mitigate it significantly. A deeper redesign will be required in this case and is planned during the 2022 shutdown of the experiment.

Published
2022
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7. The Full-Voltage Operation of the Acceleration Grid Power Supply for SPIDER Experiment

Author

Alberto Ferro, Marco Boldrin, Samuele Dal Bello, Riccardo Casagrande, Mattia Dan, Alberto Maistrello, Cesare Taliercio, Matteo Vignando, Loris Zanotto, Vanni Toigo, Hitesh Dhola, Bhavin Raval, Narinder P. Singh, Amit Patel, and Anupam Sharma

Subjects
Nuclear and High Energy Physics, switching converters, power supplies, Condensed Matter Physics, Insulated-gate bipolar transistors, power transformers
Abstract

In SPIDER, the full-scale prototype of the negative ion source of the ITER Heating Neutral Beam Injectors, negative ions of hydrogen or deuterium are extracted and accelerated by a set of grids. This article describes the process and the technical solutions that allowed achieving the asseveration to operate the Acceleration Grid Power Supply of SPIDER at full voltage (-96 kV), reports the first experimental results, and discusses some possible enhancements that have been identified.

Published
2022
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8. A strategy to identify breakdown location in MITICA test facility: results of high voltage test campaign

Author

Loris Zanotto, Marco Boldrin, Giuseppe Chitarin, Mattia Dan, Tommaso Patton, Francesco Santoro, Vanni Toigo, Hiroyuki Tobari, Atsushi Kojima, and Hans Decamps

Subjects
Plasma Physics (physics.plasm-ph), Nuclear Energy and Engineering, Mechanical Engineering, FOS: Physical sciences, General Materials Science, Physics - Plasma Physics, Civil and Structural Engineering
Abstract

The Acceleration Grid Power Supply of the MITICA test facility in Padova (Italy) is currently under commissioning. The power conversion system, the DC generator, and the High Voltage equipment have been individually commissioned, whereas the integration tests are ongoing. It is a challenging process due to the unconventional application, to the variety of different electrical technologies involved and to the complexity of the interfaces. During the integrated tests of the power supplies the achievement of 700kV stable operation has been demonstrated for the first time in a Neutral Beam Injector, but an unexpected event occurred, most likely a breakdown in the HV part, which resulted in a fault of the DC generator. A subsequent test using an auxiliary power supply was performed to check the voltage withstanding capability of the HV plant, but another breakdown occurred at around 1MV. This paper describes the activity performed to identify the location of the breakdowns affecting the integrated tests. A test campaign has been devised with increased diagnostic capabilities and specific strategy conceived to trigger intentional breakdowns in specific locations and collect measurement patterns for different cases. The results of the campaign will be presented and the current understanding of the issue will be described, with a view on future tests and further improvements of diagnostics.

Published
2023
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