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HWDB: Operations at the Spallation Neutron Source Workshop on Accelerator Operations August 6-10, 2012 Glen D. Johns Accelerator Operations Manager.

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Presentation on theme: "HWDB: Operations at the Spallation Neutron Source Workshop on Accelerator Operations August 6-10, 2012 Glen D. Johns Accelerator Operations Manager."— Presentation transcript:

1 HWDB: Operations at the Spallation Neutron Source Workshop on Accelerator Operations August 6-10, 2012 Glen D. Johns Accelerator Operations Manager

2 2Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 Outline Facility overview Organization Shift schedule Operating schedule Availability

3 3Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 Where is SNS? Eastern Tennessee as part of Oak Ridge National Lab

4 4Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 What is SNS? World’s highest power pulsed spallation neutron source Consists of a 1 GeV superconducting linear accelerator, accumulator ring, and a flowing liquid mercury target Operates as a National User Facility for conducting neutron scattering research – 13 instruments in User Program – 6 in commissioning or under construction Funded by the Department of Energy’s Office of Basic Energy Sciences (~$181M/year)

5 5Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 Ring Instrument hall / Target building Klystron gallery Support buildings - CHL -RFTF -CUB Main office building -CCR Linac tunnel

6 6Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 SNS Accelerator Complex H- stripped to protons Front-End: Produce a 1- msec long, chopped, H- beam LINAC: Accelerates the beam to 1 GeV Accumulator Ring: Compress 1 msec long pulse to 700 nsec Deliver beam to Target Ion Source 2.5 MeV 1000 MeV 87 MeV CCL SRF,  =0.61 SRF,  =0.81 186 MeV 387 MeV DTL RFQ 402.5 MHz805 MHz Recent 1 MW operating parameters  925 MeV beam energy  1.14E14 protons per pulse  60 Hz pulse rep rate  1.1 mA average current to target

7 7Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 SNS Accelerator Complex H- stripped to protons Front-End: Produce a 1- msec long, chopped, H- beam LINAC: Accelerates the beam to 1 GeV Accumulator Ring: Compress 1 msec long pulse to 700 nsec Deliver beam to Target Ion Source 2.5 MeV 1000 MeV 87 MeV CCL SRF,  =0.61 SRF,  =0.81 186 MeV 387 MeV DTL RFQ 402.5 MHz805 MHz Recent 1 MW operating parameters  925 MeV beam energy  1.14E14 protons per pulse  60 Hz pulse rep rate  1.1 mA average current to target

8 8Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 SNS Accelerator Complex H- stripped to protons Front-End: Produce a 1- msec long, chopped, H- beam LINAC: Accelerates the beam to 1 GeV Accumulator Ring: Compress 1 msec long pulse to 700 nsec Deliver beam to Target Ion Source 2.5 MeV 1000 MeV 87 MeV CCL SRF,  =0.61 SRF,  =0.81 186 MeV 387 MeV DTL RFQ 402.5 MHz805 MHz Recent 1 MW operating parameters  925 MeV beam energy  1.14E14 protons per pulse  60 Hz pulse rep rate  1.1 mA average current to target

9 9Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 SNS Accelerator Complex H- stripped to protons Front-End: Produce a 1- msec long, chopped, H- beam LINAC: Accelerates the beam to 1 GeV Accumulator Ring: Compress 1 msec long pulse to 700 nsec Deliver beam to Target Ion Source 2.5 MeV 1000 MeV 87 MeV CCL SRF,  =0.61 SRF,  =0.81 186 MeV 387 MeV DTL RFQ 402.5 MHz805 MHz Recent 1 MW operating parameters  925 MeV beam energy  1.14E14 protons per pulse  60 Hz pulse rep rate  1.1 mA average current to target

10 10Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 SNS Accelerator Complex H- stripped to protons Front-End: Produce a 1- msec long, chopped, H- beam LINAC: Accelerates the beam to 1 GeV Accumulator Ring: Compress 1 msec long pulse to 700 nsec Deliver beam to Target Ion Source 2.5 MeV 1000 MeV 87 MeV CCL SRF,  =0.61 SRF,  =0.81 186 MeV 387 MeV DTL RFQ 402.5 MHz805 MHz Recent 1 MW operating parameters  925 MeV beam energy  1.14E14 protons per pulse  60 Hz pulse rep rate  1.1 mA average current to target

11 11Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 Research Accelerator Division (~370) Facility Operations (70) Facility Maintenance Site Services Radiological Control Data Operations (72) Control Systems Instrument Data Acquisition and Controls Information Technology Instrument Operations (46) Instrument Support Scientific Support Sample Environment Accelerator and Target Operations (157) Electrical and RF Superconducting Linac Systems Accelerator Physics, Beam Instrumentation, Ion Source Mechanical Systems and Operations Accelerator Operations

12 12Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 Accelerator Operations Group (18) Operations Manager Machine Specialist Operations Coordinator Control Room Shift Supervisor (10) Control Room Accelerator Specialist (4) Maintenance & Operability Coordinator

13 13Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 Shift Schedules

14 14Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 FY12 Operating Schedule

15 15Managed by UT-Battelle for the U.S. Department of Energy G. Johns, WAO, Aug. 6-10, 2012 Presentation_name How are we doing? 93.6%92.1% 80.7%

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