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Neutrino Factory Mercury Flow Loop V. Graves C. Caldwell IDS-NF Videoconference March 9, 2010.

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Presentation on theme: "Neutrino Factory Mercury Flow Loop V. Graves C. Caldwell IDS-NF Videoconference March 9, 2010."— Presentation transcript:

1 Neutrino Factory Mercury Flow Loop V. Graves C. Caldwell IDS-NF Videoconference March 9, 2010

2 2Managed by UT-Battelle for the U.S. Department of Energy IDS-NF Videoconference, 9 Mar 2010 Flow Loop Review 1 cm dia nozzle, 20 m/s jet requires 1.57 liter/sec mercury flow (94.2 liter/min, 24.9 gpm). MERIT experiment showed that a pump discharge pressure of ~40 bar gauge required to produce the desired jet. – Reference: SNS nominal flow 1440 liter/min (380 gpm), 7 bar gauge pump discharge pressure, ~1400 liters total Hg inventory Basic flow scheme Pump → Nozzle → Jet/Beam Dump → Heat Exchanger → Pump

3 3Managed by UT-Battelle for the U.S. Department of Energy IDS-NF Videoconference, 9 Mar 2010 Hg Flow Minimize pressure drops through piping by increasing diameter – 2" nozzle supply piping transitioning to 1 cm nozzle Actual NF Hg inventory may reach SNS volumes – ~500 liters in the half- length beam dump shown Overflow Mercury Drain Mercury Pump Gravity Drain Flow Control Valve Storage Tank Heat Exchanger Beam Dump

4 4Managed by UT-Battelle for the U.S. Department of Energy IDS-NF Videoconference, 9 Mar 2010 Gravity Drain Requires Flow Control Bulk flow exits dump via overflow drains Gravity drain intended to remain closed until end-of run, but this liquid becomes static Decay heating requires gravity drain to have flow control Mercury Jet Proton Beam Mercury Overflow Gravity Drain Flow Control Overflow drains WC Shielding

5 5Managed by UT-Battelle for the U.S. Department of Energy IDS-NF Videoconference, 9 Mar 2010 Target Building Based on Study 2 concept Mercury loop "hot cell" will probably extend into magnet chase – Could require double containment of mercury – Chase will certainly have a drain back into hot cell Decay Channel Cryostats Core Vessel Mercury Process Hot Cell Main Cryostat (Target Region)

6 6Managed by UT-Battelle for the U.S. Department of Energy IDS-NF Videoconference, 9 Mar 2010 Heat Removal From Study 2, the mercury jet/pool receive < 10% of beam energy; bulk goes into WC shielding – Currently assumed to be WC spheres cooled by water – Much larger heat exchanger needed to cool shielding Considering that both W and WC must be water-cooled, their effective densities will approach that of Hg. Consequently, IF a Hg target is selected, the infrastructure will be in place to support use of Hg as a solenoid shield. – Would probably be a separate loop due to vastly different flow/pressure requirements, but could share a storage tank Element/CompoundDensity (g/cm^3) Hg13.5 W19.3 WC15.8

7 7Managed by UT-Battelle for the U.S. Department of Energy IDS-NF Videoconference, 9 Mar 2010 Future Work – Continue development of Target Building infrastructure conceptual design – Look further into the mechanics of the region upstream of the nozzle Remote maintenance / assembly / disassembly Mercury flow

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