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Thermosyphon workshop, CERN, July 6, 2009 Possible Operation with Fluorocarbon blends of C 3 F 8 /C 2 F 6 G. D. Hallewell Centre de Physique des Particules.

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Presentation on theme: "Thermosyphon workshop, CERN, July 6, 2009 Possible Operation with Fluorocarbon blends of C 3 F 8 /C 2 F 6 G. D. Hallewell Centre de Physique des Particules."— Presentation transcript:

1 Thermosyphon workshop, CERN, July 6, 2009 Possible Operation with Fluorocarbon blends of C 3 F 8 /C 2 F 6 G. D. Hallewell Centre de Physique des Particules de Marseille, France;

2 INITIAL MOTIVATION: Exhaust pressure drop problem (heaters, HeX and return tubing) will not allow present C 3 F 8 compressor system to maintain an evaporation temperature of -27ºC (to operate silicon below -7°C (TDR spec.) after significant irradiation (increased I leak )) Possibilities for operation with C 3 F 8 /C 2 F 6 blends Thermosyphon workshop, CERN, July 6, 2009

3 Present C 3 F 8 implementation (from evaporative cooling paper) Enthalpy ~75 J/g Thermosyphon workshop, CERN, July 6, 2009

4 Requires ~ -28°C evaporation temperature in on-detector cooling channel Example of temperature gradients across (pixel) cooling & support structures.  Example of temperature gradients across (pixel) cooling & support structures. (Temperature differences to be subtracted from -7°C to get in-tube evaporation temperature: mass flow ~4.7 g.s -1, enthalpy ~50 J.gm -1 ) Thermosyphon workshop, CERN, July 6, 2009

5 So where are the actual pressure drops? Backpressure regulator Exhaust Heat exchanger Exhaust heater for unevaporated C 3 F 8 Thermosyphon workshop, CERN, July 6, 2009

6  More recent estimates for SCT barrel @ 8.9 gm.s -1 (exhaust hex, heaters, ‘internal’ tubes, BPRs, tubes to compressor) suggest 520 mbar as a more reasonable figure  However, including the losses in SCT end-of-barrel exhaust manifolding, and losses along staves pushes this to 1190mbar!  T Si +2°C (Spec +9°C!)  Far from TDR specification on T Si post-irradiation… AND THIS WAS BEFORE ‘FAR HEATER’ PROPOSAL STARTED TO BE CONSIDERED, WHICH ADDS ~220 mbar  T Si +4°C (Spec +11°C!!) WHAT TO DO?? Original exhaust  P budget (Olcese): 350mbar Thermosyphon workshop, CERN, July 6, 2009

7 CERN/P.BONNEAU/02/12/2004 Si temp spec Déverseur/ Back-pressure regulator for groups of circuits (Individual P evap ) Original Intention Thermosyphon workshop, CERN, July 6, 2009

8 CERN/P.BONNEAU/02/12/2004 Si temp spec Déverseur/ Back-pressure regulator for groups of circuits (Individual P evap ) Recent situation: SCT barrel Practical limit ~800 mbar with high comp ratio Thermosyphon workshop, CERN, July 6, 2009

9 Fluorocarbon blending Already experience with C 3 F 8 /C 4 F 10 Thermosyphon workshop, CERN, July 6, 2009

10 C3F8 properties: p-H diagram C 3 F 8, the third lightest saturated fluorocarbon Present fluid: Perfluoro-propane (C 3 F 8 ) for reference (T evap ~ -25°C) Liquid delivery @  60°C (T critical ): clearly no problem But C 3 F 8 evaporation  @ -27°C  P evap < 1.7 bar a  Present C 3 F 8 system will need modifications (reduced exhaust pressure drops) for temperature margin to achieve stable long-term operation with irradiated Si(see later) Thermosyphon workshop, CERN, July 6, 2009

11 6-8 December 2006ATLAS HLUTW, Liverpool Perfluoro-ethane (C 2 F 6 ) less difficult to manipulate Liquid delivery @  20°C (T critical ) Evaporation at a higher temperature than possible with CF 4 e.g. Evaporation C 2 F 6  @ -45°C  P evap 4.5 bar a Maximum enthalpy ~ 110 J.gm -1 C 2 F 6, the second lightest saturated fluorocarbon…

12 USA15 Remote control pressure (flow) regulators P in ~ 14-17bar Haug compressors in USA15 Low temperature surface condenser Tracker Liquid pump (if necessary, depends on whether Liquid supply tubing remains uninsulated): Hydraulic/pneumatic drive for high B-field operation Must generate ~14-17 bar C 3 F 8 capillary input pressure Compressorless primary loop operation  Priming height (maximum possible)  h (liquid)  m   bar(C 3 F  ) (boosts pump output) Maybe still use Haug compressors..? to cool local condensers in UX (no longer in primary cooling loop) Or else oil CO 2 compressors on surface? Oil CO 2 compressors on surface? Thermosyphon workshop, CERN, July 6, 2009

13 Tune mixture to target evaporation temperature -28ºC? Tune to ~ 2 bar abs ?  P (  T) between Evaporation & Condensation determined by sizing of exisiting internal services Pressure regulators & present choice of capillary (Ø,L)  P liquid via Gravity + possible pump Thermosyphon workshop, CERN, July 6, 2009

14 Tune mixture to target evaporation temperature -28ºC? Tune to ~ 3 bar abs ?

15 Tune mixture to target evaporation temperature IBL @ -45ºC? Tune to ~ 2bar abs ? Thermosyphon workshop, CERN, July 6, 2009

16 Fluorocarbons can be mixed (blended ) to arrive at compromise thermodynamic properties (many modern refrigerants are blends)  This was tested with C 3 F 8 /C 4 F 10 (2 papers in Fluid Phase Equilibria 2000-2001) Mixture thermodynamic, transfer properties calculated & set up as ‘temporary’ folders in NIST database Thermosyphon workshop, CERN, July 6, 2009

17 CERN/P.BONNEAU/02/12/2004    C3F8C3F8 C2F6C2F6 Possible to calculate a blend for C 3 F 8 and C 2 F 6 having P evap = 3 bar abs @ -25°C Using molecular dynamics (vacek, Prague) or modified Benedict-Webb-Rubin equation of state, and avoiding low critical temperature problem of pure C 2 F 6 (Sidesteps pressure drop problem and raises aspiration pressure) But needs mixing set-ups and batch assay (ultrasonic or GC…) Question of heat transfer coefficient: measurements needed

18 Paire de transduceurs ultrasoniques Polaroid (45kHz) ; écart ~1m (  1mm), dans un tube thermostaté ou l’enceinte du radiateur à gaz RICH Not a new idea: C5F12/N2 mixed for SLD RICH and analysed by sonar (1988  ) Thermosyphon workshop, CERN, July 6, 2009

19 Real time ultrasonic Gas Analyzer Polaroid camera ultrasonic transducer Computer screen real time display

20 Fluorocarbon Blend Assay  Speed of sound the most convenient way to verify predictions of NIST calculations* for combined superheated state * Modified Benedict-Webb-Rubin equation of state Demonstatration (measurement) of differential condensation of the heavier component with increasing pressure: * Test of NIST database prediction (~ 2%): * Sound velocity increases once C 4 F 10 concentration in superheated phase starts to decrease (@ saturated liquid line) Thermosyphon workshop, CERN, July 6, 2009

21  Thermodynamic cycle calculations on good theoretical basis (Vacek, Prague)  Have ideas on how to mix small samples and measure mixture by ultrasound but these need more work  Extensive HTC measurements will be needed in trial blends of C 2 F 6/ C 3 F 8 @ realistic power loads and evaporation temps -25°C  -45°C (IBL?) C 2 F 6 / C 3 F 8 Fluorocarbon Blending Thermosyphon workshop, CERN, July 6, 2009

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