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ProtoDUNE Single Phase (NP-04) P&ID David Montanari (on behalf of Mark A, Johan B, Michel C, Joaquim C, Kevin H) CERN Neutrino Platform General Meeting.

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Presentation on theme: "ProtoDUNE Single Phase (NP-04) P&ID David Montanari (on behalf of Mark A, Johan B, Michel C, Joaquim C, Kevin H) CERN Neutrino Platform General Meeting."— Presentation transcript:

1 ProtoDUNE Single Phase (NP-04) P&ID David Montanari (on behalf of Mark A, Johan B, Michel C, Joaquim C, Kevin H) CERN Neutrino Platform General Meeting Mar 3, 2016

2 Outline Requirements Modes of Operations Process Flow Diagram Process and Instrument Diagram Summary 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID2

3 Requirements (From DUNE Far Detector) Cryo-se-4: The system shall allow recirculation and purification of the liquid argon inventory to achieve the needed LAr purity to meet the scientific requirements (Less than 10 days/volume change based on ICARUS experience). Cryo-se-6: The purification system shall be capable of removing contaminants from the LAr prior to filling and shall maintain purity during operation. LArFD-L2-se-44: Electron Lifetime > 3 ms. Cryo-se-5: The system shall provide an argon gas boil off recovery and reliquefaction system. Cryo-se-16: There shall be no sources of argon gas reliquefaction inside the cryostat, e.g. un-insulated pipes carrying liquid argon. Cryo-se-25: The cryostat and cryogenic systems shall be designed for using the piston-purge technique (introducing heavy gas at the bottom and taking out exhaust from the top) for removing initial electronegative impurities. Cryo-se-8: The cryogenics system shall be designed so as not to introduce unwanted noise into the electronics. Cryo-se-10: The detector cryostat shall provide a stable liquid argon environment for the detector. Cryo-se-28: The cryostat and cryogenic systems shall be designed to maintain a single phase in the entire liquid argon volume at a stable temperature. The chosen temperature is 88.3 K +/- 1 K. Full list available on DocDB n. 112.DocDB n. 112 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID3

4 Modes of operation 1)Piston Purge  GAr is slowly flown from the bottom of the tank to push the impurities out from the top. 2)Cool down  A mix of GAr and LAr is flown into sprayers to generate a mist of small liquid droplets that are moved around by another set of sprayers flowing GAr only. 3)Filling  Once the cryostat and TPC are cold, LAr is introduced in the cryostat. 4)Normal operations  LAr is continuously purified by means of an external LAr pump (2 are installed for redundancy, but only one is in use).  Boil-off GAr is recondensed outside of the cryostat and purified before being reintroduced as LAr. 5)Emptying  At the end of the operations (or if/when maintenance on the tank is needed), the tank is emptied and the LAr removed. 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID4

5 Engineering parameters (from Detector Requirements) ModeParameterValueNotes 1 GAr purge flow rate88 m 3 /hrFrom 1.2 m/hr 2 Maximum cool-down rate TPC 40 K/hr 10 K/m T sensors to be defined and placed by Internal Cryogenics/Detector 2 Maximum Delta T between any two points in the detector 50 K T sensors to be defined and placed by Internal Cryogenics/Detector 3 LAr filling flow rate (*)18 l/minAssuming 2 trucks/day (**) 4 Cryostat static heat leak3.0 kWGAr boil-off (18 g/s) 4 Other heat loads (estimate)5.0 kWTotal estimate is ~ 8 kW 4 LAr circulation (5 days turnover)72 l/min (19 gpm)Nominal value (1 pump) 5 Max emptying (w both LAr pumps)144 l/min (38 gpm)Limited by size of tank/truck 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID5 Note: Noise, micro phonics and vibrations inside the LAr volume will be studied with an external pump configuration. * Value might be limited by the pressure inside the LAr storage dewar. ** We need to contact the supplier to confirm availability of 2 trucks/day of LAr.

6 Cryogenic systems Internal Cryogenics:  Inside the cryostat.  GAr/LAr distribution for cryostat purge, cool down, fill. Proximity Cryogenics:  Circulate and purify LAr.  Achieve and maintain LAr purity.  Recondense and purify boil off GAr. Infrastructure/External Cryogenics:  Receive Ar/N2.  Transport GAr/LAr, GN2/LN2 to Proximity.  Vents. 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID6 This tender covers Proximity and External Cryogenics only. Not part of this tender.

7 Process Flow Diagram 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID7 EDMS: 1566415

8 Cryogen supply (Sheet 3/3) 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID8 EDMS: 1566415

9 LAr/GAr Filtration (Sheet 2/3) 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID9 EDMS: 1566415

10 Cryostat (Sheet 1/3) 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID10 EDMS: 1566415

11 1a) Purge in Open Loop 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID11 EDMS: 1566415

12 1b) Purge in Closed Loop 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID12 EDMS: 1566415

13 2) Cool down 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID13 EDMS: 1566415

14 3) Filling 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID14 EDMS: 1566415

15 4) Normal Operations 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID15 EDMS: 1566415

16 5) Emptying 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID16 EDMS: 1566415

17 Summary We have identified the type, size and location of the penetrations (through the cryostat top and sides) for the cryogenic services and instrumentation. We are developing the P&IDs for Single Phase and Dual Phase. We would like them to be as identical as possible to minimize the cost (and duration) of the design (by vendor). We have identified the spaces required inside the cryostat and in EHN1 for the installation of the cryogenic systems. We are starting the 3D space allocation and integration in EHN1. The documentation (including bids, etc.) needs to be submitted to CERN Finance Committee by Jun 24, 2016. The schedule for tendering will be presented in the next talk, it is very aggressive and we need to proceed quickly. 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID17

18 Thanks 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID18

19 List of available documents P&ID and PFD:  EDMS 1566415. EDMS 1566415 3D model and drawings:  EDMS 1566416. EDMS 1566416 LAr filtration information:  EDMS 1566420. EDMS 1566420 Cryo-Piping design:  EDMS 1566421. EDMS 1566421 GAr purge CFD Simulations:  DUNE DocDB n. 903.DocDB n. 903 LAr cool down CFD Simulations:  DUNE DocDB n. 866.DocDB n. 866 This presentation:  https://indico.cern.ch/event/504712/. https://indico.cern.ch/event/504712/ 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID19

20 Cryostat with pump towers 03.03.16David Montanari | ProtoDUNE Single Phase (NP-04) P&ID20 EDMS: 1566416 13.1 2 pumps for redundancy. Only 1 running during normal ops.

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