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

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Presentation transcript:

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

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

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

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

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)

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

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