ild requirement for assembly space and time 2015/11/3 yasuhiro sugimoto @lcws2015 1
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ILD requirement for assembly space and time
2015/11/3
Yasuhiro Sugimoto
@LCWS2015
1
Introduction
• Recent status– Limitation on the transportable weight has become clear
(usually ~20t, >20t with special permission) Impact on iron yoke / HCAL assembly
– Assembly scenario of sub-detectors is getting clear– ILC Infrastructure & Planning Working Group requires us to
clarify the requirements for infrastructure
• General assembly plan of ILD has to be updated to cope with these changes
• Sub-detector assembly scenario has to be clarified more to make a detailed design of ILC campuses (Central campus and IP campus)
2
IRON RETURN YOKE ASSEMBLY
3
Assembly scenario
• Yoke assembly scenario has to be changed– Originally, it was assumed that ~200t blocks
(1/12 of a ring) are made at a factory and shipped to the interaction point (IP)
– It was turned out that transportation of yoke blocks of ~200t is almost unrealistic
– It seems we have to assemble the yoke blocks from iron slabs on site
• New space for yoke block assembly is necessary on or near IP campus
4
Assembly scenario
• There are three options
5
Iron slabs Iron slabs Block
Block Yoke ring
Iron slabstorage
Iron slabs Block
Block Yoke ring
Iron slabs Block
Block Yoke ring
Iron slabs
Iron slabs
Factory Remote campus IP campus
Pre-assembly hall Assembly hall
• Special trailer• Reinforced road
Kitakami area
Assembly scenario• 1st option
– Size of the pre-assembly hall depends on necessary storage space– If fabrication company can ship iron slabs in “Just-in-time” (JIT)
manner, minimum storage space for pre-assembly of one or two blocks is needed on IP campus cost effective
• 2nd option– If fabrication company cannot ship iron slabs “just-in-time”, we need
quite large storage space, which requires some storage space on or outside IP campus
– Minimum space for pre-assembly of one block on IP campus
• 3rd option– No need for additional building on IP campus– Relatively large assembly hall with 250t crane on remote campus– Requires a special trailer and reinforced road to IP campus– Highest cost
6
Yoke pre-assembly hall• A possible conceptual design in option 1 or 2
– Relatively small crane to lift up iron slabs (capacity<20t, TBD)– Yoke block is assembled on a pallet which moves by air pads– Completed block is slid to AH– We need 2 or 3 pallets (1 for block assembly, 1 or 2 for stand-by for installation
in main AH)– Also used as loading area for sub-detector (Endcap CAL, Muon) modules
(another pallet would be necessary)
7
Garage
Path for He pipes
Yoke blockpre-assembly hall
Entrance
Entrance
Vertical shaft
Platform for ILDPlatform for SiD
ASSEMBLY OF OTHER SUB-DETECTORS
8
Discussion at ALCW2015
• In ALCW2015 at KEK in April, we had a meeting to discuss sub-detector assembly scenario
• There were presentations on VTX/Si tracker, TPC, ECAL, AHCAL, and SDHCAL
• The discussion continued in ILD Topical Integration Meeting in Oct.
9
Space requirement for assembly and test Trailer
Si trackers
~150m2 clean room on IP campus and/or Central campus
TPC ~200m2 / 0m2 clean room on Central campus~100m2 / 200m2 clean room on IP campus
ECAL ~1000m2 space with crane on Central campus or on/near IP campus
15 t
HCAL AHCAL option
~200m2 air-conditioned space on Central campus or IP campus
20 t
SDHCAL option
~1200m2 space on/near IP campus 11 t or 125 t
Some consideration• Space for muon detector is not considered yet
• ECAL and SDHCAL groups assume parallel assembly of the barrel part and the endcap part
– Barrel part and endcap part can be assembled in series to reduce the space requirement (?)
– But still large space is needed even with series assembly
• Transportation of 125t ring of SDHCAL is a big challenge• Additional assembly hall for HCAL is necessary on or near IP campus (<1km)
• Required assembly space for trackers (Si trackers and TPC) are relatively small, and can be located in the research office building
10~15t ECAL stave ~125t SDHCAL ring
Research Office Building at IP
• Requirements for the research office building– Control rooms of experiments– Meeting rooms– Clean rooms for Si (and TPC)– Office rooms– Laboratory space equipped with a
crane and flammable gas ventilation (TPC)
• An example design was presented at SiD workshop at SLAC in January, but there were strong criticisms – Too gorgeous (too many office rooms) – Assembly space for sub-detectors is
too small
11
Example of ROB at KEK
• 3rd building (Sangokan)– 7F– Many office/meeting rooms– Large conference room– No lab space– No crane– High cost
• Advance Instrumentation Lab– 2F/1F– Large lab space
• 5t crane• Gas can be used (CO2, Liq. Ar, Liq.
Xe)
– Some office space– Meeting room 12
Advance Instrumentation Lab at KEK
13
20m
13.5m
Work shop
More office rooms in 2F
Advance Instrumentation Lab at KEK
14
A possible design of ROB on IP campus
15
1F
2F
Lab Lab
Workshop WorkshopControl room Control room
Cle
an r
oom
Cle
an r
oom
Ent
ran
ce h
all
70m
25m
18m
14m
Office rooms for Si/TPC/DAQ (Office spacefor CAL groups in HCAL assembly hall)
IP campus layout
16
Research Office bldg.25m x 60m 1500m2
Cooling Towers20 units
Cooling Towersfor CGP 5 units
He Gas tanks 1,600m3
Integrated Utility bldg.40 m x 100m
Cryogenic plant40m x 30m
Utility plant40m x 40m
Electric facility20m x 20m
Shaft entrance space40m x 30m
Parking space
Parking space
Assembly bldg.27m x 181m
Emergency Generator
20m x 20m
Based on Nishimoto-san’s slides
Very limited free space
Track of trailer
IP campus with 600m2 HCAL-AH
17
Research Office bldg.
Cooling Towers20 units
Cooling Towersfor CGP 5 units
He Gas tanks 1,600m3
Integrated Utility bldg.40 m x 100m
Cryogenic plant40m x 30m
Utility plant40m x 40m
Electric facility20m x 20m
Shaft entrance space40m x 30m
Parking space
Assembly bldg.27m x 181m
Emergency Generator
20m x 20m
Yoke pre-assembly building
HCAL assembly hall
Space here is necessaryfor coil transportation (trailer)
Based on Nishimoto-san’s slides
Open questions• Yoke
– JIT possible ?– Size of yoke pre-assembly building: 20mx20m?– Capacity of the crane: 20t ?
• Muon detector– Location of module storage/test space: Central campus or IP campus?
(Probably Central campus)– Size of the storage/test space (size for one sector (1/12) of a yoke ring would be
enough)
• ECAL– Location of module storage/test space: Central campus or on/near IP campus? – Reduction of the size (1000m2) possible? (Endcap and barrel in series)
• SDHCAL– Location of module storage/test space: on or near IP campus – Reduction of the size (1200m2) possible? (Endcap and barrel in series)
• AHCAL– Location of module storage/test space: Central campus or IP campus? (probably
IP campus) 18
ILD ASSEMBLY TIMELINE AND PROCEDURE
19
Update of ILD assembly timeline
• Assumption– New timeline for CFS
• Ground breaking (GB) 4 years after project approval • AH becomes ready ~2.5 years after GB• DH becomes ready ~6.5 yeas after GB
– Yoke module assembly and ring assembly in parallel– CMS style solenoid assembly
• 1/3 coil modules are delivered to AH, and assembled into one coil• Outer vacuum tank and inner vacuum tank are also fabricated in AH from smaller
pieces
– Magnetic field measurement on surface after barrel ECAL installation– TPC and silicon inner trackers are installed after lowering the detector to
DH– AH is used only for iron yoke assembly, solenoid assembly, and
installation of ECAL, HCAL, solenoid, and muon detector– AH has a 250t crane and an 80t crane for ILD– Installation period of each sub-detector is based on TDR
20
Gantt chart
21
1 2 3 4 5 6 7 8 9 10
Simplified table
• Definition of T0 here is the beginning of the land development = Ground Breaking (consistent with CFS group)
22
Land develop.AHDHYokeMuonSolenoidEndcap HCALEndcap ECALBarrel HCALBarrel ECALTrackerQD0CommissioningBeam tuning
2015/ 9/ 16
Low
erin
g
Ins.Ins.
Ins.
FM
Ins.
Assembly on site Ins.Ins.
Phase-1Civil construction
-2Utility
Assembly on siteInstallation
Y9 Y10Q2Q3Q4Q3Q4Q1
Y2 Y3 Y4 Y5 Y6 Y7 Y8Q1Q2Q3Q4Q1Q2Q3Q4Q1Q2Q3Q4
Y1Q1Q2Q3Q4Q1Q2 Q3Q4Q1Q2Q1Q2Q3Q4Q3Q4Q1Q2Q3Q4Q1Q2
Assembly procedure
• Summary of tasks at each step
23
Step-1 Step-2 Step-3 Step-4 Step-5 Step-6 Step-7 Step-8YB0 Yoke OVT Muon Coil/ IVT Coil/ IVT CAL CALYE+ Yoke Muon CAL CALYE- Yoke Yoke Muon CAL CALYB+ Yoke Yoke MuonYB- Yoke Muon
YB0: Central barrel yokeYB+: Barrel yoke on + sideYB-: Barrel ypke on – sideYE+: Endcap yoke on + sideYE-: Endcap yole on – sideOVT: Outer Vacuum TankIVT: Inner Vacuum Tank
Magnet high field test
• We assume full current test with all iron yoke rings and the magnetic field measurement can be done after barrel CAL installation, because assembly of yokes YB+ and YB- can be completed quite late
• This procedure has a risk of uninstalling barrel CALs if something wrong is found in solenoid
• If iron yoke assembly can be done in much shorter time (~4y ~3y), we can avoid this risk by installing barrel CALs after full current test of the magnet
Discussion with manufacturer would be indispensable for more reliable scheduling and cost estimate
24
SUMMARY
25
Summary
• Yoke pre-assembly hall attached to main AH is necessary• Iron slab storage building might be necessary on or off IP campus if “just-in-
time” delivery of iron slabs cannot be done• HCAL assembly building is necessary on (or near) IP campus• Assembly and test of Si trackers and TPC can be done in Research Office
Building on IP campus• More detailed study and discussion are necessary to fix the size of these
buildings• (There is a possibility of new IP campus site with larger area)
• ILD timeline has been re-considered to cope with the change of iron yoke assembly scenario
• Still possible to complete detector integration in 9 years• Each sub-detector group will study the assembly timeline more in detail, and
the timeline will evolve• Discussion with iron yoke manufacturing company is indispensable to establish
both space requirement and schedule26
BACKUP SLIDES
27
Step 1
• Platform construction• YB0 Yoke assembly• Coil assembly preparation
28
YB0
Yoke pre-assemblybuilding
Step 2
• YE+ Yoke assembly• YB0 outer vacuum tank
(OVT) assembly• Coil assembly
29
YB0
YE+
Step 3
• YE- Yoke assembly• YE+ Muon detector
installation• Inner vacuum tank (IVT),
Coil assembly
30
YB0
YE+
YE-
Step 4
• YE- Yoke assembly• YB0 Muon detector
installation• YE+ Calorimeter
installation• IVT, Coil assembly
31
YB0
YE+
YE-
Step 5
• YB+ Yoke assembly• YE- Muon detector
installation• YE+ Calorimeter cabling• Coil, IVT installation
32
YE+YE-
YB+
YB0
Step 6
• YB+ Yoke assembly• YE- Calorimeter
installation• Coil, IVT installation
33
YE+YE-
YB+
YB0
Step 7
• YB- Yoke assembly• YB+ Muon detector
installation• YE- Calorimeter cabling• YB0 Calorimeter
installation
34
YE+
YE-
YB+
YB0
YB-
Step 8
• YB- Muon detector installation
• YB0 Calorimeter installation
35
YB0
YE+
YE-
YB+
YB-
Step 9
• YE-, YB-, YB0, YB+, YE+ shuffle the position
36
YB0
YE+
YE-
YB+
YB-
Step 10
• Close the detector• Field mapping
37
YB0
YE+
YE-
YB+
YB-
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