A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications

A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications

A compact Liquid Lithium Target (LiLiT) has been operating at SARAF for several years with beam power of several kW (1.9-2.5 MeV, up to 2 mA). When bombarding the lithium with low energy protons neutrons are generated. The neutron source, mainly used for nuclear astrophysics research, was decommissi...

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Main Authors: Paul Michael, Silverman Ido, Halfon Shlomi, Sukoriansky Semion, Mikhailovich Boris, Palchan Tala, Kapusta Arkady, Shoihet Arthur, Kijel Daniel, Arenshtam Alexander, Barami Eli
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:EPJ Web of Conferences
Online Access:https://www.epj-conferences.org/articles/epjconf/pdf/2020/07/epjconf_ucans82020_03004.pdf
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spelling doaj-7d921877c5734f2e9842e192502a92ad2021-08-02T19:21:18ZengEDP SciencesEPJ Web of Conferences2100-014X2020-01-012310300410.1051/epjconf/202023103004epjconf_ucans82020_03004A 50 kW Liquid-Lithium Target for BNCT and Material-Science ApplicationsPaul Michael0Silverman Ido1Halfon Shlomi2Sukoriansky Semion3Mikhailovich Boris4Palchan Tala5Kapusta Arkady6Shoihet Arthur7Kijel Daniel8Arenshtam Alexander9Barami EliRacah Institute of Physics, Hebrew UniversitySoreq Nuclear Research CenterSoreq Nuclear Research CenterDepartment of Mechanical Engineering, Ben-Gurion University of the NegevDepartment of Mechanical Engineering, Ben-Gurion University of the NegevRacah Institute of Physics, Hebrew UniversityDepartment of Mechanical Engineering, Ben-Gurion University of the NegevNRCNSoreq Nuclear Research CenterSoreq Nuclear Research CenterA compact Liquid Lithium Target (LiLiT) has been operating at SARAF for several years with beam power of several kW (1.9-2.5 MeV, up to 2 mA). When bombarding the lithium with low energy protons neutrons are generated. The neutron source, mainly used for nuclear astrophysics research, was decommissioned in 2016 towards an upgraded model - with possible applications to Boron Neutron Capture Therapy (BNCT) and material-science studies. The improved version has been designed to sustain 50 kW proton beam power (2.5 MeV, ~20 mA) to provide sufficient neutron flux required for clinical BNCT application. The new model has a 50 mm wide lithium jet to enable dissipation of the higher beam power and an improved heat exchanger to remove the power to a secondary cooling loop. A new Annular Linear INduction electro-magnetic pump (ALIN) has been designed and built to provide the required lithium flow rate. Other mechanical improvements facilitate the maintenance of the system and the robustness of operation. Radiological risks due to the 7Be produced in the reaction are reduced by using an integrated lead shielding of the lithium reservoir. An integrated neutron moderator is being designed to adjust the neutron energy to the spectrum best suited to BNCT. A low power (6 kW) model of the new design with a narrower nozzle (18 mm wide) and a rotating-magnet electro-magnetic pump is operating at SARAF to support the ongoing astrophysics and nuclear research program [1], [2]. To fulfill clinical BNCT, the upgraded LiLiT model will require an accelerator of appropriate energy and intensity. The design features of the new system are presented in this paper.https://www.epj-conferences.org/articles/epjconf/pdf/2020/07/epjconf_ucans82020_03004.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Paul Michael
Silverman Ido
Halfon Shlomi
Sukoriansky Semion
Mikhailovich Boris
Palchan Tala
Kapusta Arkady
Shoihet Arthur
Kijel Daniel
Arenshtam Alexander
Barami Eli
spellingShingle Paul Michael
Silverman Ido
Halfon Shlomi
Sukoriansky Semion
Mikhailovich Boris
Palchan Tala
Kapusta Arkady
Shoihet Arthur
Kijel Daniel
Arenshtam Alexander
Barami Eli
A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications
EPJ Web of Conferences
author_facet Paul Michael
Silverman Ido
Halfon Shlomi
Sukoriansky Semion
Mikhailovich Boris
Palchan Tala
Kapusta Arkady
Shoihet Arthur
Kijel Daniel
Arenshtam Alexander
Barami Eli
author_sort Paul Michael
title A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications
title_short A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications
title_full A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications
title_fullStr A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications
title_full_unstemmed A 50 kW Liquid-Lithium Target for BNCT and Material-Science Applications
title_sort 50 kw liquid-lithium target for bnct and material-science applications
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2020-01-01
description A compact Liquid Lithium Target (LiLiT) has been operating at SARAF for several years with beam power of several kW (1.9-2.5 MeV, up to 2 mA). When bombarding the lithium with low energy protons neutrons are generated. The neutron source, mainly used for nuclear astrophysics research, was decommissioned in 2016 towards an upgraded model - with possible applications to Boron Neutron Capture Therapy (BNCT) and material-science studies. The improved version has been designed to sustain 50 kW proton beam power (2.5 MeV, ~20 mA) to provide sufficient neutron flux required for clinical BNCT application. The new model has a 50 mm wide lithium jet to enable dissipation of the higher beam power and an improved heat exchanger to remove the power to a secondary cooling loop. A new Annular Linear INduction electro-magnetic pump (ALIN) has been designed and built to provide the required lithium flow rate. Other mechanical improvements facilitate the maintenance of the system and the robustness of operation. Radiological risks due to the 7Be produced in the reaction are reduced by using an integrated lead shielding of the lithium reservoir. An integrated neutron moderator is being designed to adjust the neutron energy to the spectrum best suited to BNCT. A low power (6 kW) model of the new design with a narrower nozzle (18 mm wide) and a rotating-magnet electro-magnetic pump is operating at SARAF to support the ongoing astrophysics and nuclear research program [1], [2]. To fulfill clinical BNCT, the upgraded LiLiT model will require an accelerator of appropriate energy and intensity. The design features of the new system are presented in this paper.
url https://www.epj-conferences.org/articles/epjconf/pdf/2020/07/epjconf_ucans82020_03004.pdf
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