lhc performance workshop - chamonix 2010
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LHC Performance Workshop - Chamonix 2010 Session 3 - Optimise Interventions and Recovery from Collateral Damages on Cold Sectors Decoupling of Adjacent Cryogenic Sectors Gerard FERLIN, TE-CRG-Operation for Accelerators - PowerPoint PPT PresentationTRANSCRIPT
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Decoupling of adjacent cryogenic sectors
Chamonix 2010, Session 3_ 06; TE_CRG_OA_GF
128 Jan 2009
LHC Performance Workshop - Chamonix 2010
Session 3 - Optimise Interventions and Recovery from Collateral Damages on Cold Sectors
Decoupling of Adjacent Cryogenic Sectors
Gerard FERLIN, TE-CRG-Operation for Accelerators
This presentation and propositions are the result of 3 years of operation of LHC cryogenic system.
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 2
AbstractThe LHC sectors are coupled two by two via interconnection boxes allowing cryoplant cooling redundancy and efficient stand-by or low-beam-intensity operation. The present LHC cryogenic sectorization allows to performed mechanical interventions on the magnet cold-mass circuit of a sector, like diode or interconnection splice repairs while the adjacent sector remain in nominal cryogenic operation. However this sectorization does not allow exchanging a magnet or a QRL service module in a sector while keeping the adjacent sector in nominal cryogenic operation and the cooling redundancy ability. This presentation will describe, based on different scenarios, hardware update proposals allowing a complete separation of the two adjacent sectors.
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 3
ContentsActual configuration
Running configurationIntervention on sector
Scenarios proposed for intervention-One sector cooled by “normal” cryoplants, One sector under intervention.-One sector cooled by “redundant” cryoplants, one sector under intervention.
Summary
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 4
Courtesy L.Tavian
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 5
Actual running configurationNominal scheme
Each sector coupled with corresponding cryoplant.
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 6
Thermal shield E
Helium refrigeration
plant; 18 kW @ 4.5 K
Rm
Line C
Line D
Line F
Line B0
Q D D DQ D D D Q DD Q
Thermal shield E
Helium refrigeration
plant; 18 kW @ 4.5 K
Rm
Line C
Line D
Line F
Line B0
QDDD QDDDQDDQ
Nominal
scheme
1.8K unit1.8K unit
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 7
Actual running configuration
Low-intensity beam or stand-by scheme orCryoplant major failure redundancy scheme
Two sectors coupled with one cryoplant.
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 8
Thermal shield E
Helium refrigeration
plant; 18 kW @ 4.5 K
Rm
Line C
Line D
Line F
Line B0
Q D D DQ D D D Q DD Q
Thermal shield E
Helium refrigeration
plant; 18 kW @ 4.5 K
Rm
Line C
Line D
Line F
Line B0
QDDD QDDDQDDQ
Low-intensity or
stand-by
scheme
1.8K unit1.8K unit
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 9
ContentsActual configuration
Running configurationIntervention on sector
Scenarios proposed for intervention-One sector cooled by “normal” cryoplants, One sector under intervention.-One sector cooled by “redundant” cryoplants, one sector under intervention.
Summary
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 10
Overall configuration during intervention on one sector
SafetyThe sector must be “consigned” from pressure and
gas flow.Cryo operation
Cold valves must be protected from air and moisture condensation/ice.Configuration adopted for each affected circuit
Two valves locally consigned with helium gas buffer in between at room temperature and 1 bar (pressure monitored)
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 11
C
D
B
F
E
B
C
D
C
D
B
F
E
B
C
D
F E D C F E D C
QRL(5-6)
QURCB
QSRB QSRA - QURA
QURCA
QRL(6-7)
temporary tool
Present status
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 12
Present status during magnet exchange.
Circuits C (LHe 4.5K), D (Return GHe 20K), E (Magnet thermal screen 70 K), F (QRL thermal screen 85 K) are protected by GHe buffer,but protection for Header B (GHe pumping line, 15 mbar, 4K) improvable.
Exchanging a magnet or a QRL service module in a sector while keeping the adjacent sector in nominal cryogenic operation is not possible without important risk!
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 13
ContentsActual configuration
Running configurationIntervention on sector
Scenarios proposed for intervention-One sector cooled by “normal” cryoplants, One sector under intervention.-One sector cooled by “redundant” cryoplants, one sector under intervention.
Summary
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 14
C
D
B
F
E
B
C
D
C
D
B
F
E
B
C
D
F E D C F E D C
QRL(5-6)
QURCB
QSRB QSRA - QURA
QURCA
QRL(6-7)
QRL Header , 1 bar, air and moisture condensation/icing not controlled
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 15
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 16
Courtesy G. Riddone, N. Veillet, 2006
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 17
Add DN250 valve on header BTo be done
Validation of design for the 5 valve boxes. In particular free space in QUI, point 18 and point 2 needs to be carefully checked.Impact on proximity piping & safety valves to be checked.
Cost estimation (design, materiel, installation, pressure and X-ray tests): from 120 to 150 kCHF/sector
Duration: 3 to 4 weeks.
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 18
Add DN250 valve on header BPros:
-Gas flow safety guaranteed during mechanical intervention.-Air and moisture condensation/icing prevented.-Warm up and de-icing of the cold compressor inlet filter much more easier.-Restore possibility of leak-tight insulation between header B and QURC (repair inlet valve, Cold Compressor exchange…)
Cons:-Possible only with the two sectors at room temperature.-Time schedule impact.
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 19
ContentsActual configuration
Running configurationIntervention on sector
Scenarios proposed for intervention-One sector cooled by “normal” cryoplants, One sector under intervention.-One sector cooled by “redundant” cryoplants, one sector under intervention.
Summary
![Page 20: LHC Performance Workshop - Chamonix 2010](https://reader035.vdocuments.net/reader035/viewer/2022062501/56816497550346895dd66d24/html5/thumbnails/20.jpg)
Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 20
C
D
B
F
E
B
C
D
C
D
B
F
E
B
C
D
F E D C F E D C
QRL(5-6)
QURCB
QSRB QSRA - QURA
QURCA
QRL(6-7)
Add a new valve-box on QRL junction region
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 21
Example Sector 8-1
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 22
Add new valve box on junction region with 6 cryo-valves
To be doneValidation of design for the 8 junction region. Impact on proximity piping & safety valves to be checked.
Cost estimation (design, materiel, installation, pressure and X-ray tests): from 300 to 350 kCHF/sector
Impact on LHC time schedule: 4 to 6 weeks.
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 23
Add new valve box on junction region with 6 cryo-valves
Pros:-Same than previous solution plus-Redundancy of cryoplant guaranteed
Cons:-Integration design to be checked and validated.-Possible only with the two sectors at room temperature.-Cost (time schedule and money)
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 24
Other points not detailedHRL valves to be remotely drivenWRL by pass in QUI areaQUI purge panel to be separate in two half parts (one part/sector).…
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Decoupling of adjacent cryogenic sectors
28 Jan 2009Chamonix 2010, Session 3_ 06;
TE_CRG_OA_GF 25
SummaryHeavy intervention (exchanging a magnet or a QRL service module) while keeping the adjacent sector in nominal cryogenic operation will be possible only by upgrading the gas buffer system on header B. To restore possibility of leak-tight insulation between header B and Cold Compressor unit, a new valve is needed.If the cryoplant redundancy is mandatory during the magnet exchange, a valve box must be added on the junction region.Thank you