GIF++ implementation Adrian Fabich, Sylvain Girod, Dorothea Pfeiffer, EN-MEF-LE GIF++ 3rd users’ meeting, 11th July 2013
Contents 2 Gamma Irradiation Facility GIF++ Users’ requirements Layout Technical infrastructure Operation Radiation protection Safety 11/07/2013A. Fabich, EN-MEF-LE
Requirements for Physics 3 Purpose: Verifying detector performance in strong gamma background Investigating detector ageing Main requirements Strong photon field (background) from a source Increased demands also in view of LHC upgrades Secondary beam (signal): primarily muons, low intensity Infrastructure adequate for gaseous detectors Irradiation area ~100 m2 Operated in autonomous mode users not permanently present Requirements summarized in 11/07/2013A. Fabich, EN-MEF-LE
The present GIF in the West Area 4 Present GIF installed in former West Area Since 2004 secondary (muon) beam de-commissioned Since then only of limited use for physics Limited photon yield (137Cs, 650 GBq installed in `90s) Limited space for increasing number of users GIF will be decommissioned with the new GIF++ being operational. 11/07/2013A. Fabich, EN-MEF-LE West Area
Users’ requirements 511/07/2013A. Fabich, EN-MEF-LE
PH responsibilities 6 Defining users’ requirements Irradiator procurement On-going: Equipment in the gas (mixing) zone analysers, mixers … + ATEX conformity Construction of permanent -detectors Slow control of irradiator, gas equipment, logging DAQ system USING THE FACILITY 11/07/2013A. Fabich, EN-MEF-LE
H6 beam line H2 beam line H4 beam line H8 beam line GIF++ GIF++ location in EHN1 (North Area) 711/07/2013A. Fabich, EN-MEF-LE West Area EHN 1
811/07/2013A. Fabich, EN-MEF-LE Maintain possibility for H2 extension Maintain minimum 2m wide corridor (central) EHN1 – PPE154
GIF++ layout (1) 911/07/2013A. Fabich, EN-MEF-LE dump secondary beam PPE (entrance) MAD PPG PPX (only emergency) dump gas mixing zone Preparation zone cable trays to control room Irradiation area
GIF++ layout (2) 1011/07/2013A. Fabich, EN-MEF-LE secondary beam -field 2 -field 1 shielding preparation zone gas mixing zone shielding ±37° cut view at 2m height PPE PPG PPX
View from Saleve 11/07/2013A. Fabich, EN-MEF-LE11
View from Jura 11/07/2013A. Fabich, EN-MEF-LE12
Large material access 11/07/2013A. Fabich, EN-MEF-LE13
Iraddiation field (1) 11/07/2013A. Fabich, EN-MEF-LE14
Iraddiation field (2) 11/07/2013A. Fabich, EN-MEF-LE15
Your own 3D view Download 3DVia at the following address: composer/resource-center Open the EDMS document: 11/07/2013A. Fabich, EN-MEF-LE16
Secondary muon beam 17 From T2 target 99% of beam are within 10 cm x 10 cm, remainder spread over 1 m 2 Main user mode: couple of periods per year with each about two weeks duration Parasitic mode with muons: as much as possible (based on experience from previous years, one can expect parasitic muon beams for about 30-50% of the beam time, equivalent to about 2-4 months/year). Few periods per year of approximately two weeks duration in which a beam pipe is installed within the facility and electron beam is taken by CMS ECAL downstream from GIF++ 11/07/2013A. Fabich, EN-MEF-LE
General infrastructure 18 Electricity: 50 kW light (+emergency) Ethernet cabling, cable trays demineralised water NO cryogenics Beam equipment Beam instrumentation Gases Neutral and mixtures (containing flammable gases) 15 gas supplies from the gas hut (build. 909) 10 patch panels in bunker/preparation zone Each for 4 neutral and 4 hazardous gases Cooling and ventilation Optional Supply lines should mainly be installed in the raised floor. 11/07/2013A. Fabich, EN-MEF-LE Measurements: autumn 2012 – spring 2013 (courtesy: R. Guida)
Source Ground - Trigger Cable Trays False Floor: permanent supplies 1911/07/2013A. Fabich, EN-MEF-LE Dennis Haasler Same concept in preparation area 40 cm free height Reducing the source height to 2 meter
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GIF++ control room HNA 487 is the best choice with regard to accessibility of the GIF++ facility 11/07/2013A. Fabich, EN-MEF-LE22 GIF++
Personnel and Material Access PPG, Roof: If opened, patrol lost PPE & Turnstile: Access rights of people checked, key released and people counted PPE2: Key that was taken at turnstile has to be used in key access mode (patrol not lost) MAD: access for material up to PC size 11/07/201323A. Fabich, EN-MEF-LE Personal Protection Exit Personal Protection Gate Personal Protection Entry PPE & Turnstile Pre Zone Small material access
Cables irradiator – using PPE and gallery 11/07/ m Irradiator HNA 487 Cable tray height 2.5 m Roof height 4.8 m Under floor height 0 m A. Fabich, EN-MEF-LE24 D. Pfeiffer
Cable routing – shortest to control room 11/07/2013 ca. 75 m HNA 487 Cable tray height 2.5 m Roof height 4.8 m Under floor height 0 m A. Fabich, EN-MEF-LE25 D. Pfeiffer
Cable routing for cosmic trigger 26 11/07/2013 ca. 24 m Cable tray height 2.5 m Roof height 4.8 m Under floor height 0 m ca. 8 m A. Fabich, EN-MEF-LE D. Pfeiffer
Temperature/humidity 27 Users’ requirements: °C, humidity 30-50%. Optional: small ventilation unit Not required for safety aspects 11/07/2013A. Fabich, EN-MEF-LE Measurements: autumn 2012 – spring 2013 (courtesy: R. Guida)
Photon yields to muon detectors 2811/07/2013A. Fabich, EN-MEF-LE roof chamber Average flux 1.0 e5 s^-1 cm^ -2 floor chamber Average flux 1.2 e3 s^-1 cm^ -2 Downstream beam trigger: average flux 1.8 e4 s^-1 cm^ -2 Upstream beam trigger: average flux 5.9 e4 s^-1 cm^ -2 fine tracker Average flux 5.1 e5 s^-1 cm^ -2 D. Pfeiffer
Trapezoid shaped collimator yz 2911/07/2013A. Fabich, EN-MEF-LE Point source Cylindrical source No difference between point and cylindrical source D. Pfeiffer
Safety responsibility for implementation 30 with SBA (together with CERN expert groups) Radiation shielding Flammable gas detection and ODH (in bunker) Fire detection Access system/personnel protection Interlock(s), also with irradiator Gas zone: ATEX conform (PH) 11/07/2013A. Fabich, EN-MEF-LE
GIF++ irradiation zone 31 The irradiation zone hosting the irradiator is a controlled area (PPE154). inside a supervised area (EHN1). No risk of activation due to low intensities of secondary beam Presence of high intensity photon source requires additional precautions due to the prompt radiation levels: Extended shielding Access system Entrance chicanes 11/07/2013A. Fabich, EN-MEF-LE
Risk analysis 32 Carried out with general safety, radiation protection, equipment owners and access system. Radiation simulation for conceptual layout available Defines required shielding Full scale radiation simulation by end summer 2013 Needs for maintenance Regular inspection of irradiator system by CERN-RP and vendor Operations Access Controls Standard procedure(s) of EHN1 apply. No additional implications by the presence of the photon source. Incidents Additional hazards Gases (non and flammable) Electricity Heavy handling Civil engineering (concrete walls up to 6.5 m high) Safety file is in preparation. 11/07/2013A. Fabich, EN-MEF-LE
Radiation levels 33 Keeping lateral exterior limit well below 3 Sv/h At least 80 cm concrete Accordingly adapted chicanes Roof (no stay area) shielding adjusted for < 15 Sv/h Final design based on these conceptual shielding studies 11/07/2013A. Fabich, EN-MEF-LE horizontal cut at source height ( 2m) 160 cm
Radiation shielding 34 Shielding blocks Double layer closing the block joints Roof gaps closed with dedicated iron beams Chicanes for entrances 11/07/2013A. Fabich, EN-MEF-LE -field 2 -field 1 Vertical cut view Top cut view 160 cm max. 3 Sv/h max. 15 Sv/h max. 3 Sv/h
Radiation protection 35 RP monitoring Inside the irradiation area Monitoring of the source operation Dedicated RP monitoring 2 redundant ionization chambers connected to RAMSES Veto to the source operation In the surrounding EHN1 area Monitoring by existing beam monitoring (EHN1 standard) Access system EHN1 standard Access safety elements compliant with SIL3 Single Access System (SAS) for counting persons in the area. 11/07/2013A. Fabich, EN-MEF-LE
Operational controls 36 Users’ interface: CESAR For personnel access and beam control Standard HW/SW integration into SBA controls environment Access controls Beam controls Safety elements Irradiator provided with its own console. Only link to SBA controls via veto line and status logging. 11/07/2013A. Fabich, EN-MEF-LE
Safety conditions for active irradiator 37 Exclude direct exposure to -source Source out of parking position only possible if GIF++ access chain is CLOSED AND (protecting in upstream zone) Upstream beam dump is IN-BEAM OR PPE144 is CLOSED (no access) AND (protecting in downstream zone) Downstream beam dump is IN-BEAM OR PPE164 is CLOSED (no access) AND (no alarms) No fire No power failure No emergency stop button Irradiator controls included in industrial delivery. Veto from CERN safety chain will force source into parking position. 11/07/2013A. Fabich, EN-MEF-LE upstream dump downstream dump
Next steps 38 Safety file to be completed until August 2013 Risk analysis Full scale radiation simulation based on final layout Construction starts in September 2013 Commissioning with beam in autumn 2014 Expecting irradiator delivery in September /07/2013A. Fabich, EN-MEF-LE
Spare slides 39 SPARE SLIDES 11/07/2013A. Fabich, EN-MEF-LE
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