Cascade Transformer Based on the Volume Coil for Power Transmission under High Voltage

The use of an electronic cooling system at the High Intensity heavy ion Accelerator Facility (HIAF) accelerator complex, which is being developed at the Institute of Modern Physics (China), to improve the efficiency of ion injection into the accelerator and reduce the spread of ion pulses in the bea...

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Bibliographic Details
Published inTechnical physics Vol. 63; no. 8; pp. 1212 - 1222
Main Authors Denisov, A. P., Parkhomchuk, V. V., Reva, V. B., Put’makov, A. A., Li, J., Mao, L. J., Tang, M. T., Zhao, H., Ma, X. M., Yang, X. D.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.08.2018
Springer
Springer Nature B.V
Subjects
ACCELERATOR COMPLEXES
ACCELERATOR EXPERIMENTAL FACILITIES
CAPACITORS
Classical and Continuum Physics
COOLING SYSTEMS
Electric potential
Electron and Ion Beams
ELECTRON BEAMS
ELECTRON COOLING
Electrons
Electrophysics
HEAT TRANSFER
HEAVY ION ACCELERATORS
Heavy ions
High voltages
INDUCTANCE
INJECTION
ION BEAMS
Ion injection
KEV RANGE 100-1000
PARTICLE ACCELERATORS
Physics
Physics and Astronomy
Physics of Accelerators
POWER TRANSMISSION
PULSES
SCATTERING
THERMAL DIFFUSIVITY
TRANSFORMERS
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Summary:The use of an electronic cooling system at the High Intensity heavy ion Accelerator Facility (HIAF) accelerator complex, which is being developed at the Institute of Modern Physics (China), to improve the efficiency of ion injection into the accelerator and reduce the spread of ion pulses in the beam has been proposed. Electron cooling of the ion beam was carried out due to the interaction of ions with a continuous electron beam with a current of up to 3 A, energy of up to 450 keV, and energy stability at the level of 10 –4 or better. The electron beam energy recuperation was carried out at the expense of a power source with a power of 5–15 kW, which was located at the top of a high-voltage column—a high-voltage terminal. The operation of a prototype of power transmission system, which was based on a cascade transformer with a volumetric coil, has been considered. Such a transformer has a relatively low scattering inductance, which can significantly reduce the number of capacitors to compensate for it. It has been shown that this design made it possible to transfer power of up to 40 kW at small dimensions of the transformer and heat dissipation in it was not more than 10 kW.
ISSN:1063-7842
1090-6525
DOI:10.1134/S1063784218080042