1 / 12

Radiation Protection at Linear Electron Accelerator LINAC-800

September 17-21, Alushta, Ukraine. Radiation Protection at Linear Electron Accelerator LINAC-800. N.I. Balalykin, V.Ph. Minashkin, M.A. Nozdrin, G.D. Shirkov, V.Yu. Schegolev Veksler and Baldin Laboratory of High Energies Joint Institute for Nuclear Research Alushta 2011.

lovey
Download Presentation

Radiation Protection at Linear Electron Accelerator LINAC-800

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. September 17-21, Alushta, Ukraine Radiation Protection at Linear Electron Accelerator LINAC-800 N.I. Balalykin, V.Ph. Minashkin, M.A. Nozdrin, G.D. Shirkov, V.Yu. Schegolev Veksler and Baldin Laboratory of High Energies Joint Institute for Nuclear Research Alushta 2011

  2. September 17-21, Alushta, Ukraine Abstract Automated system of radiation safety control (ASRSC) of linear electron accelerator LINAC-800 is designed for staff securing during regular accelerator operation and in emergency cases. Emission power calculation results used in ASRSC development are given. Both hardware and software components of radiation control system are described. Also, interlock and signalization system description is presented. Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 2/12

  3. September 17-21, Alushta, Ukraine Introduction Linear accelerator of electrons LINAC-800 is based on a part of accelerator equipment which was transferred to the possession of JINR by The National Institute for Nuclear Physics and High Energy Physics (NIKHEF, Amsterdam). It should be mentioned, that radiation control equipment was not transferred because it is not certified for usage in Russia. Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 3/12

  4. September 17-21, Alushta, Ukraine Radiation hazard factors calculations Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 4/12

  5. September 17-21, Alushta, Ukraine Radiation control system configuration • BDS-1M-63х63 scintillation detection units (7 pcs., the range of registered photon energies is 0.16 – 5 MeV); • UDBN-01-01 neutron radiation detection devices (2 pcs., the range of measurement of the power of ambient dose eqivalent is 0.1 – 104uSv/h, the range of registered energies is0.025 eV –14 MeV); • BPK-02 power supply and commutation unit; • Computer with an uninterruptible power supply; • RadCtrl software; • RS-485 serial communication line; • DKS-AT1123 portable X-ray and gamma radiation dosimeter (the range of registered energies is 0.015 – 10МэВ; the range of measurement of the power of ambient dose eqivalent is 50 nSv/h – 10 Sv/h for continuous radiation and 0.1 uSv/h – 10 Sv/h for pulse radiation with pulse length of 10 ns and longer). Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 5/12

  6. September 17-21, Alushta, Ukraine Radiation control system scheme Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 6/12

  7. September 17-21, Alushta, Ukraine Radiation control system configuration Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 7/12

  8. September 17-21, Alushta, Ukraine RadCtrl software • Software has the following features: • Current readout of all ASRSC LINAC-800 detection units displayingboth in graphic and numeric form. • Threshold crossing signalization. • Detector disconnect signalization. • Object scheme displaying possibility. • Measurements archive for chosen detector possibility. Archive can be saved in MS Excel format. • Thresholds changing, scale changing (linear/logarithmic). Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 8/12

  9. September 17-21, Alushta, Ukraine RadCtrl software Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 9/12

  10. September 17-21, Alushta, Ukraine Interlock and signalization system • Interlock and signalization system is designed for continuous work due accelerator complex operation and should answer the following purposes: • Staff entrance in zones with increased ionizing radiation level prevention; • Staff warning about possible radiation danger by sound and light signalization. Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 10/12

  11. September 17-21, Alushta, Ukraine Conslusion • Detectors of ASRSC of linear electron accelerator LINAC-800 have been calibrated and checked at JINR Radiation Safety Department; • ASCRC has been mounted in bld. 118 of Laboratory of Neutron Physics and have been put into operational testing. Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 11/12

  12. September 17-21, Alushta, Ukraine Thank you for your attention! Radiation Protection at Linear Electron Accelerator LINAC-800. M. Nozdrin, JINR LHEP. 12/12

More Related