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Long Bo FT and Flanges

Long Bo FT and Flanges. April 12, 2012 talk Hans Jostlein. Based on Comments and Requirements from the April 4 presentation: Increase the distance between HV Feed and TPC Increase the distance between central purity monitor and TPC / HV feed

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Long Bo FT and Flanges

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  1. Long Bo FT and Flanges April 12, 2012 talk Hans Jostlein Long Bo FT and Flanges

  2. Based on Comments and Requirements from the April 4 presentation: Increase the distance between HV Feed and TPC Increase the distance between central purity monitor and TPC / HV feed Raise the HV FT flange above the insulation atop the big 33 ½”) flange to diminish icing danger Requested Design Changes from 4/4/2012 Long Bo FT and Flanges

  3. Move the TPC away from the Tank Center. • This frees up radial space for the purity monitor and the HV Feed • Raise the TPC to the same elevation as the central purity monitor, • maintaining the same minimum LAr depth. Implementation of new Design Requirements Long Bo FT and Flanges

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  7. Analyze bubble paths and Bubble Size Control • Add a tight fitting seal at the bottom of the PE sleeve. It will sea when cold • Conical bottom end of the PE sleeve to prevent bubble aggregation • Venting of the space surrounding the 7/8” center tube to its inside • Venting the 7/8 tube inside through tiny holes in the contact cup at the bottom. Hole size 0.2 mm requires 2 cm LAr head; we will use 0.5 mm or larger. Additional Design Features: Bubbles Long Bo FT and Flanges

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  9. Purge the space surrounding the PE sleeve into the GAr space at the top. • Purge the GAr space near the top into an external purge line • Purge the GAr space near the TPC Signal Feedthrough into an external purge line Additional Design Features: Purging Long Bo FT and Flanges

  10. New Feedthrough Design New Features: • Top Flange raised above the top insulation • Bubble stop insert at bottom of PE Sleeve (See later slide) • Inverted cup/ spring contact arrangement (see later slide) • Extended to great depth to avoid having an insulated support • Bubble and purge management (see later slide) Long Bo FT and Flanges

  11. In order to minimize the TPC assembly diameter, thus maximizing the stand-off distances of HV FT and Purity monitor, • We invert the usual arrangement: • The spring loaded finger is attached to the TPC cathode HV tubing, while the (inverted) cup is welded to the HV FT center tube. • This change turns out useful and effective for bubble control (see previous slide) Additional Design Features: HV Contact Area Long Bo FT and Flanges

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  13. We will have two windows, both existing: • An 8” CF window and a 6” CF window. • These will help during HV FT installation Additional Design Features: Windows Long Bo FT and Flanges

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  17. Making the Long Bo High Voltage Fedthrough Cutting grooves into the PE: Long Bo FT and Flanges

  18. Making the Long Bo High Voltage Fedthrough Cutting grooves into the PE: Long Bo FT and Flanges

  19. Making the Long Bo High Voltage Fedthrough Cutting grooves into the PE: Long Bo FT and Flanges

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