The Green Energy Turbine as Turbo Generator for Powering the HV-Solenoids at a Relativistic Electron Cooler

Hofmann, Andre; Aulenbacher, Kurt; Bruker, Max-Wilhelm; Dietrich, Juergen; Parkhomchuk, Vasily; Reva, Vladimir; Weilbach, Tobias

doi:10.18429/JACoW-COOL2015-MOPF02

Joint Accelerator Conferences Website

The Joint Accelerator Conferences Website (JACoW) is an international collaboration that publishes the proceedings of accelerator conferences held around the world.

RIS citation export for MOPF02: The Green Energy Turbine as Turbo Generator for Powering the HV-Solenoids at a Relativistic Electron Cooler

TY - CONF
AU - Hofmann, A.
AU - Aulenbacher, K.
AU - Bruker, M.W.
AU - Dietrich, J.
AU - Parkhomchuk, V.V.
AU - Reva, V.B.
AU - Weilbach, T.
ED - Akers, Evelyn (Jefferson Lab), Satogata, Todd Satogata (Jefferson Lab), Schaa, Volker RW Schaa (GSI)
TI - The Green Energy Turbine as Turbo Generator for Powering the HV-Solenoids at a Relativistic Electron Cooler
J2 - Proc. of COOL2015, Newport News, VA, USA, September 28 - October 2, 2015
C1 - Newport News, VA, USA
T2 - International Workshop on Beam Cooling and Related Topics
T3 - 10
LA - english
AB - One challenge in the development of a relativistic electron cooler is the powering of components, e.g. HV-solenoids, which sit on different potentials within a high voltage vessel and need a floating power supply. Within a design study, BINP SB RAS Novosibirsk has proposed two possibilities to build a power supply in a modular way. The first proposal is to use two cascade transformers per module. One cascade transformer powers 22 small HV-solenoids; the second one should generate the acceleration/deceleration voltage. The cascade transformers are fed by a turbo generator, which is powered by a gas under high pressure which is generated outside of the vessel. The second possibility is to use two big HV-solenoids per module. In this proposal, the HV-solenoids are powered directly by a turbo generator. For both concepts, a suitable turbo generator is essential. A potential candidate for the turbo generator could be the Green Energy Turbine (GET) from the company DEPRAG, which works with dry air and delivers a power of 5 kW. At the Helmholtz-Institut Mainz two GETS are tested. After an introduction, we present our experience with the GET and give an overview of the further road map.
PB - JACoW
CP - Geneva, Switzerland
SP - 29
EP - 31
KW - electron
KW - solenoid
KW - high-voltage
KW - experiment
KW - emittance
DA - 2016/11
PY - 2016
SN - 978-3-95450-174-8
DO - 10.18429/JACoW-COOL2015-MOPF02
UR - https://spms.fnal.gov/pls/cool15/papers/mopf02.pdf
ER -