Fiber optic sensors integration in magnets and in test facilities

Slides:

Advertisements

Similar presentations

Piero Rapagnani I.N.F.N. Sezione di Roma

Advertisements

EuCARD-HFM ESAC review of the high field dipole design, 20/01/2011, Maria Durante, 1/40 EuCARD-HFM ESAC Review of the high field dipole design Fabrication.

April 27th, 2006 Paola Puppo – INFN Roma ILIAS Cryogenic payloads and cooling systems (towards a third generation interferometer) part II: the Vibration.

Fault Localization of PON Yeung Chue Hei ( ) Lam Yi Kwan ( )

1 Preparation for MQXF Short Model Tests G. Chlachidze Fermilab.

Long-term monitoring of US202- NJ23 Bridge (Wayne, NJ) Branko Glisic 1, Daniele Inaudi 2, Dorotea Sigurdardottir 1 1 Princeton University, Princeton, NJ,

CompTest 2011 Monitoring key parameters during the elaboration of composite parts by resin transfer moulding process (RTM) Presented by Marc WARIS 15/02/2011,

Principle of operation. Applied on typical single mode fibers for telecommunication applications Core diameter ~10μ and Δn/n

Fiber Bragg Grating (FBG) Sensors For Micromegas

Fiber Bragg Gratings.

SIMULTANEOUS MEASUREMENT OF TEMPERATURE AND PRESSURE SENSOR USING BRAGG GRATINGS.

Brian Siller, Ryan Matz, and Helen Waechter Recent Progress in Developing a Commercial Fiber-Loop Cavity Ring-Down System International Symposium on Molecular.

Fiber Optic Sensors David Gunther Applied Optics 10 March 2005.

Coil Manufacture, Assembly and Magnetic Calibration Facility for Warm and Cold Magnetic Measurements of LHC Superconducting Magnets CERN AT-MTM 1 / 21.

Fundamental of Fiber Optics. Optical Fiber Total Internal Reflection.

ILC Main Linac Superconducting Cryogen Free Splittable Quadrupole Progress Report V. Kashikhin for Superconducting Magnet Team.

SPLICING OF FIBER CABLE

Landslide Monitoring by Optical Fiber Sensor SUGIMOTO, Hiroyuki Erosion and Sediment Control Research Group Public Works Research Institute 1.Principle.

HQ TEST CERN by Marta Bajko CERN TE-MSC TF For Hi Lumi and LARP the 16 th of November 2011 CERN.

Workshop on Beam losses, heat deposition and quench levels for LHC magnets, Geneva, 3-4 March 2005 Liquid helium heat transfer in superconducting cable.

MQXF Cold-mass Assembly and Cryostating H. Prin, D. Duarte Ramos, P. Ferracin, P. Fessia 4 th Joint HiLumi LHC-LARP Annual Meeting November 17-21, 2014.

SMC Plans for new SMCs for Fresca2 program J.C. Perez EUCARD-WP7-HFM Short Model Coil review 12 December 2011.

SC magnet developments at CEA/Saclay Maria Durante Hélène Felice CEA Saclay DSM/DAPNIA/SACM/LEAS.

NED Project P. MANIL – CEA/IRFU/SIS – Short Model Coils meeting #18 – 25/01/2008 – slide 1/18 SHORT MODEL COILS PROGRAM SMC meeting #18 Pierre MANIL CEA/IRFU/SIS.

Eucard-WP7-HFM 9 th Collaboration Meeting at Warsaw University of Technology Status on SMC & RMC Models J.C Perez on behalf of SMC collaboration team.

Frontier FibrR Optics seNsors for IndustRy Call for ITN – Horizon 2020 Martin Gastal for Frontier project team.

Arnaud Vande Craen (TE-MSC) 27/02/20131 EUCARD : ESAC Review – CEA Saclay.

Hugo Faria | 11 th September 2007 H 2 High Pressure On-Board Storage Considering Safety Issues André Vieira Hugo Faria Rui de Oliveira Nuno Correia António.

EuCARD-2 is co-funded by the partners and the European Commission under Capacities 7th Framework Programme, Grant Agreement WP9 TNA MagNet Marta.

Cryogenic Applications of Sensors based on Optical Fiber Technology 2/03/2011 Antonella Chiuchiolo.

Plan for test station Marta Bajko For the Technical Review of FReSCa2 June 2015 Saclay Paris.

Vacuum, Surfaces & Coatings Group Technology Department 22 nd January 2015 C. Garion2 Beam Line Interconnection: snapshot of present design principles.

MQXFB design, assembly plans & tooling at CERN J.C Perez On behalf of MQXF collaboration team MQXF Workshop on Structure, Alignment and Electrical QA.

1 MQXF(S) Magnet Interface Document MQXF(S) magnet interface document will describe electrical connection between the magnet and the header assembly Scope.

Status Francisco Rogelio Palomo University of Sevilla nTOF meeting Lisbon, 13 th -15 th Dec 2011.

17-18 December 2013 LARP VTF Workshop BNL Proposal 1 A.Marone

9 th March 2016 Presented at: ICEC 26 – ICMC 2016 New Delhi Numerical and experimental investigation of FBG strain response at cryogenic temperatures V.

Dan Cheng, Xiaorong Wang 12/15/2015 MQXFA Connectors Discussion Part II.

CERN –GSI/CEA MM preparation meeting, Magnetic Measurements WP.

3 rd ESAC Review, 27 th February to 1 st March 2013, CEA Saclay Fresca2 Dipole Structure Assembly J.C Perez on behalf of Fresca2 collaboration team.

TEST FACILITY STATUS FOR TESTING CERN Marta Bajko WP10. EUCARD 2 Task 4 - HTS Magnet Tests, June 2015.

Mechanical strain measurements on MQXFS1 Magnet using CERN system M.Guinchard and P.Grosclaude European Organization for Nuclear Research (CERN) 27 April,

Use of fiber optic technology for Relative Humidity monitoring in RPC detectors- M.A. RPC Use of fiber optic technology for Relative.

TE-MSC-MDT. FTEC Follow-Up Meeting Juan Carlos Perez TE-MSC-MDT Jose Ferradas TE-MSC-MDT 28/04/2016.

HTS and LTS Magnet Design and Prototyping for RAON

Commissioning of the Fiber-Optical-Sensor (FOS) environmental and structural monitor AIDA 3nd Annual meeting WP9.4 Iván Vila Álvarez Instituto de Física.

Optical Fiber Sensors for Cryogenic applications Presented by: Daniele Inaudi, CTO SMARTEC

Instrumentation for status monitoring of SST-1 superconducting magnets

Model magnet test results at FNAL

11 T Dipole Integration & Plans M. Karppinen

Marta Bajko X EUCARD2 Annual Meeting Malta 2016

HFM Test Station Main Cryostat

ESAC Review February 2013 CEA Saclay

EPFL-SPC, 5232 Villigen PSI, Switzerland

J.C. Perez on behalf of SMC collaboration team J.C. Perez

Feather_0.4: 4-run test report

FRESCA2 Update on the dipole design and new calculations

Z. Szillasi On behalf of GEM Alignment group November 15, 2017

EN-ICE Technical Committee SM18 activities & projects

SMC Design overview of the construction and project issues

TKM College of Engineering

David Gunther Applied Optics 10 March 2005

FRESCA Cryostats Outer cryostat during pressure test at the manufacturer Top plate and lambda plate for the outer cryostat Inner cryostat during reception.

Updated concept of the CBM dipole magnet

as a prototype for Super c-tau factory

MQXFS1e – PH-to-Coil hipot tests

News from the FNAL test facility

Optical fiber based sensors for low temperature and superconductors

Review Bloc 4 and SM18 facilities and upgrade

J. Fleiter, S. C. Hopkins, A. Ballarino

Presentation transcript:

Fiber optic sensors integration in magnets and in test facilities Antonella Chiuchiolo (TE-MSC-TF)

Antonella Chiuchiolo TE - MSC - TF Outline Fiber Optic Sensors (FOS) integration in the test facility Example of magnets equipped with FOS Example of FOS configuration Antonella Chiuchiolo TE - MSC - TF

Fiber integration in the test facility SM18 Sensors procurement Single Mode fiber Commercial sensors for temperature and strain monitoring Customized sensors layout Data Acquisition System Optical Interrogators: sm125, sm130 and Hyperion modules and Enlight software From 4 to 16 channels , 2 Hz - 1 KHz, 90 – 160 nm Connections and feedthrough Fusion Splice Machine for fiber reparation Optical connectors, feedthrough, cable extentions to equip the test facility Antonella Chiuchiolo TE - MSC - TF

Fiber integration in the test facility SM18 Vertical cryostat for testing magnets down to 4.2 K and 1.9 K: Liquid and Superfluid Helium Horizontal cryostat for HTS cable of 20 to 60 meter length: Helium Gas cooling For magnet cold powering up to 30 kA Horizontal benches RF test area Visitors Cryogenics Vertical cryostats SC - Link Cluster D Fiber Lab Cryogen free cryostat for testing FOS with 4.2 K Pulse Tube Refrigerator Vertical cryostat for testing mechanical properties of large magnet structures down to 77 K: Liquid Nitrogen Antonella Chiuchiolo TE - MSC - TF

Example MQXFS 5 installation on the insert Lambda plate Fischer connectors: 4 fibers each connector MQXFS 5 MQXFS 5 connection to the facility Antonella Chiuchiolo TE - MSC - TF

Integration in the magnets Embedding in the impregnated Racetrack model coils Gluing on the Al structure Gluing on the Al structure and on the Ti pole Aluminum structure Iron yoke Coil pack Instrumentation plate SMC RMC MQXFS Antonella Chiuchiolo TE - MSC - TF

Integration in the magnets Embedding in the impregnated Racetrack model coils Gluing on the Al structure Gluing on the Al structure and on the Ti pole FBG transverse direction (Ti Pole) FBG axial direction (Nb3Sn winding) Strain Gauges FBGs azimuthal direction axial direction Instrumentation plate FBG axial direction (Ti Pole) FBG azimuthal direction (Ti Pole) Strain and Temperature Strain Strain SMC RMC MQXFS Antonella Chiuchiolo TE - MSC - TF

Fiber optic sensors configuration (9 µm) (125 µm) (155-400 µm) (1-3 mm) Optical Interrogator Cladding Core Broadband light Fiber Bragg Grating sensor Multiple sensing points along a single fiber Antonella Chiuchiolo TE - MSC - TF

Fiber optic sensors configuration 22 FBG sensors on 4 channels Antonella Chiuchiolo TE - MSC - TF

Thank you for you attention

Antonella Chiuchiolo TE - MSC - TF Backup slides Antonella Chiuchiolo TE - MSC - TF

Antonella Chiuchiolo TE - MSC - TF Fiber Bragg Grating working principle Longitudinal periodic variation of the refractive index in the optical fiber core Strain and Temperature sensitive: DlB (T, e) Cladding Core Broadband light : photo elastic coefficient : thermo-optic coefficient : thermal expansion coefficient lB: Bragg Wavelength neff : effective refractive index of the core L : grating period Antonella Chiuchiolo TE - MSC - TF