LHC Insertions Upgrade Working Group (LIUWG) Space available in tunnel Y. Muttoni
LHC Insertions Upgrade Working Group (LIUWG) Overview Geographical location Study inputs and limitations Equipment in place UJ14 Study implantation new equipment UJ14 Equipment in place RZ54-USC55 Equipment in place UJ56 Conclusion
LHC Insertions Upgrade Working Group (LIUWG) Geographical location
LHC Insertions Upgrade Working Group (LIUWG) Geographical location USC55
LHC Insertions Upgrade Working Group (LIUWG) Equipment (compared to existing solution). Add energy extraction (DQR-DQS). Electrical feed box outside beam. Warm magnet or cold D1 magnet with surface powering assumed for current study. Limit Implantation studied around Pt1 in UJ14 (UJ16 symmetrical). Electrical feed box like DFBL used, DSL (Superconducting bus bar line) and QRLX (Cryogenic line extension) should be necessary. In future new DQR (not mechanical but semiconductor) should be studied (K. Dahlerup-Petersen/R. Denz). Implantation around Pt5 did not study but kept in mind. Study inputs and limitations
LHC Insertions Upgrade Working Group (LIUWG) Study inputs and limitations
LHC Insertions Upgrade Working Group (LIUWG) Point 1
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ14
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ14
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ14 Access control Removable Sector wire fencing removable
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ14
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ14 UL14 IP1 Access control Removable
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ14 UJ14 IP1 UJ13 Space reserved for transport
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ14 UJ14 1 st floor IP1 UJ13 UTA
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14 DFBL 2x13KA 6x600A 2x120A
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14 Cryogenic link Electrical link Routing link should be studied more in detail
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14 Holes through shielding wall
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14
LHC Insertions Upgrade Working Group (LIUWG) New equipment in UJ14 D1 cold Cryogenic link Electrical link
LHC Insertions Upgrade Working Group (LIUWG) Point 5
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place RZ54-USC55
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place RZ54-USC55
LHC Insertions Upgrade Working Group (LIUWG) Typical cross section in R542
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ56
LHC Insertions Upgrade Working Group (LIUWG) Equipment in place UJ56
LHC Insertions Upgrade Working Group (LIUWG) Conclusion D1 cold: Increases the number of racks underground, necessary to find place for DFBL. Choice DFBM in main tunnel: More space in service cavern but in point 5 small tunnel to install DFBM. Not necessary to have cryogenic link and electrical link Not necessary to drill new hole in the shielding wall. New rack layout New cable routing required. New water pipe routing required. Audit of rack use required with all owners (optimize space?). New energy extraction Required for space constraints Checking metallic structure. Future integration studies More progress with P1 design (components and layout) before progressing with P5 studies