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Limits of the current VTCS Ann Van Lysebetten Bart Verlaat Martin van Beuzekom VELO upgrade meeting 14/11/2008 pix module construction kick-off 09/11/2009.

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Presentation on theme: "Limits of the current VTCS Ann Van Lysebetten Bart Verlaat Martin van Beuzekom VELO upgrade meeting 14/11/2008 pix module construction kick-off 09/11/2009."— Presentation transcript:

1 Limits of the current VTCS Ann Van Lysebetten Bart Verlaat Martin van Beuzekom VELO upgrade meeting 14/11/2008 pix module construction kick-off 09/11/2009

2 Limits & “bottlenecks” prim. System H2O 20  C Sec. System (freon) Tert. System (CO2) Detector waste heat (max 800W) 2 Tert. System (CO2) Detector waste heat (max 800W) Heat Transfer to the module! Limited by current compressor, freon injection, heat exchanger to CO2 Max massflow of pumps 18g/s Min CO2 temp -30  C heat exchanger to freon? prim. System air 20 stations * 10 Velopix -> 4 Watts/velopix = ~ 2W/cm2  T > 15 ‘C

3 Minimal upgrade allows ~ 6W/cm2 prim. System H2O 20  C Sec. System (freon) Tert. System (CO2) Detector waste heat (max 2.5kW) 3 Tert. System (CO2) Detector waste heat (max 2.5kW) new compressor, new freon injection, new heat exchanger to CO2 with CO2 massflow of 18g/s min at -35  C If necessary new heat exchanger to freon prim. System air But! to keep silicon at < -5  C  lower temp needed if interface not changed!

4 Cooling interface Current cooling interface (cookie) is one of limiting factors Try to integrate cooling pipe into module –But, no high pressure connectors in vacuum -> Orbital welding of module to cooling pipe Cut here

5 5Summary  Current system can cool up to 800W  With some modifications it can reach 2.5 kW  -> CO2 cooling plant can do the job!  Large  T due to large thermal resistance and long path this means either lower CO2 temp needed OUTSIDE range of current system new freon/CO2 chiller, this has limits! module on/off temp difference large  Integrate cooling pipe into module/station shorter path, smaller  T over module small temp differences on/off connect modules to cooling system via orbital welding

6

7 The VTCS cooling principle Condenser Pump Heat exchanger Flooded evaporator Restriction 2-Phase Accumulator Heat in Heat out 1 25 9 1013 prim. System H2O 20  C Sec. System (freon) Tert. System (CO2) Detector waste heat (max 800W) Tertiary System: two phase accumulator controlled system 7 Tert. System (CO2) Detector waste heat (max 800W) Freon system prim. System air SP -25  C

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