Common Systems and Controls Holger Kollmus FAIR Machine

Common Systems and Controls Holger Kollmus FAIR - Machine Advisory Committee Meeting 10. 11. 2011 Common Systems – Holger Kollmus

WP 2. 14 - Common Systems WP (PSP No. ): WP leader Deputy 2. 14. 1 Electric power H. Ramakers H. Welker 2. 14. 2 Detector gas supply M. Schwickert P. Forck 2. 14. 8 Cryogenics M. Kauschke C. Schroeder 2. 14. 9 Alignment I. Pschorn T. Miertsch 2. 14. 10 Control system R. Bär U. Krause 2. 14. 11 Link existing facilities O. Kester (acting) H. Eickhoff 2. 14. 12 Installations/assembly H. Reich-Sprenger M. Bevcic 2. 14. 13 Magnet testing P. Schnizer E. Fischer 2. 14 Quench detection E. Floch Common Systems – Holger Kollmus

Status and progress Cryogenics 2. 14. 8 Cryogenics: § Constantly updated heat load definition. § Work on site planning for the compressor building. § Work on the compressor layout and the electrical power consumption. § Planning on He. Su cryo plant and the refurbishment of DESY cryo plant (not part of FAIR cost book but can be used for FAIR R&D and training). There is a detailed presentation this afternoon! Common Systems – Holger Kollmus

Status and progress Alignment 2. 14. 9 Alignment: § Study to develop a measurement system for use in highly activated machine environments is ongoing. § The general requirements for manufacturers as well as specific requirements for first magnet types in order to align are defined. § The performance requirements for all the accelerator alignments are defined. § Test measurements on superconducting magnets for the determination of the dynamic behavior of the cold mass vs. the cryostat. Common Systems – Holger Kollmus

Status and progress Controls § 2. 14. 10 Control system: § Advanced development of the FESA software framework for component control. § Advanced development on the accelerator-control data supply LSA. § Positive evaluation of the LSA framework with SIS 18 controls will fully § migrated in 2012. § There is a strong collaboration with CERN also to develop the timing and event § distribution system and on the production of first prototypes for switches and receivers. § The prototype manufacturing of a standard device controller is nearly finished. § Fruitful collaboration with CERN also on industrial slow control using PCL with § UNICOS and Win. CC OA (former PVSS). § A proposal for an in-kind contribution from Germany and Slovenia is submitted to the § next IKRB. Common Systems – Holger Kollmus

Status and progress Controls II Common Systems – Holger Kollmus

Status and progress Link Existing Facility 2. 14. 11 Link existing facility: § Strongly increased stripper efficiency. § Improved transmission through UNILAC. § World record intensity in the SIS 18 reproducible observed. § The dynamic vacuum effect is cured by a ion catcher system and high pumping speed in the injection Septum combined with a optimized injection. § NEG coating of dipole and quadrupole chambers finished. § The optical beam layout studies for the transfer lines from the p-LINAC to SIS 18 and from SIS 18 to SIS 100 are done. § Radiation safety calculations for shielding improvements are in progress. Common Systems – Holger Kollmus

Status and progress Assembly an Installation 2. 14. 12 Assembly and installation: § Pre mounting areas in testing hall (north part) are provided. § Storage areas are in preparation and different scenarios are investigated. § Call for tender for an internal logistic system is in preparation and will be completed in 2011. It will be commissioned in the next projects. § All technical guidelines are defined. Common Systems – Holger Kollmus

Status and progress Magnet Testing 2. 14. 13 Magnetic testing § Development of various options and scenarios for magnet testing. § Negotiations with CERN regarding Super. FRS magnetic testing. First meeting was on the 26 th of September. Further contact with KIT. § Evaluation of potential sites for SIS 100 quadrupole magnet testing. § Evaluation of potential sites for SIS 100 dipole magnet testing at GSI. § Proposal for an in-kind contribution from Germany. There is a detailed presentation this afternoon! Common Systems – Holger Kollmus

Status and progress Quench Detection 2. 14 Quench detection § The first functional specification will be ready end of November 2011. § A quench detection expert meeting (inviting specialists for CERN, Desy and KIT) will be organized for January 2012. § The complete functional specifications will be finalized in April 2012. § A collaboration with KIT was started in August 2011. § Development of quench protection at KIT is starting right now. Common Systems – Holger Kollmus

WP 2. 14 – Work Package Descriptions and Time Schedule WPD TS 2. 14. 1 Electric power ü x 2. 14. 2 Detector gas supply ü ü 2. 14. 8 Cryogenics ü in preparation 2. 14. 9 Alignment ü ü* 2. 14. 10 Control system ü ü 2. 14. 11 Link existing facilities ü in preparation 2. 14. 12 Installations/assembly ü Super. FRS 2. 14. 13 Magnet testing ü in preparation 2. 14 Quench detection ü in preparation *strongly dependent on other subproject schedules Common Systems – Holger Kollmus

WP 2. 14 – Summary § Time planning ongoing. The tasks strongly depend on other subprojects. Long term work packages: § Proposal for in-kind contributions for controls and magnet testing (SIS 100 dipoles) is submitted to the next IKRB. § Cryogenic He. Sub and Cryo 1 should be submitted to next IKRB. § Magnet testing scenario for Super. FRS and SIS 100 quadrupole magnets should be decided soon. Common Systems – Holger Kollmus

ENDE 2. 14. 1 Electric power: The planned electrical power topology is negotiated with the local power company. Two new 110 k. V lines are in planning. Empty tubes will be piped in spring 2012. The FAIR 20 k. V and 400 V grids are in planning. There is work ongoing on the magnet power supply. 2. 14. 2 Detector gas supply: Requirements are specified, detailing system design nearly finished (mid. October), strong collaboration with FAIR civil construction. The task is comparable with cabling and other CC staff. Next step: adoption of CC planing for module 0 to 3. Common Systems – Holger Kollmus

Some activities 2. 14. 8 Cryogenics: * Planning on He. Su cryo plant and the refurbishment of DESY cryo plant * Work on HTS current leads * Planning on buzz bar routing 2. 14. 9 Alignment: * Fiducialization of components at GSI benches for measurements, secure know how at GSI, training of staff 2. 14. 10 Control system: * Continue general system design and technical developments (Timing, FESA, etc. ) * FESA v 3. 0 -beta available for prototype device class developments * First timing system WR-switch hardware prototype available for testing * Project to deliver commissioning cs to CEA for p-source/LEBT in Q 3/2013 initiated 2. 14. 13 Magnet testing: * Planning on upgrade of existing test bench (Power supply) * Planning on the test benches for the series magnets * Estimation of required resources for the SIS 100 magnet testing (Personnel, invest) 2. 14 Quench detection: * Definition of voltage sensitivity of the system for the different magnets Common Systems – Holger Kollmus

Major problems and risks and according mitigation actions 2. 14. 10 Control system: * No experience for controls of cryogenic systems Collaboration with CERN (general support, training at CERN) hire 1 automation engineer gain experience on DESY cryo plant at GSI and S 100 dip. magnet testing installation 2. 14. 13 Magnet testing: * No man power for series testing * In case of external testing man power follow up * Quality assurance strategy for SC magnets * Cryo plant for testing Hiring temporary staff 2. 14 Quench detection: * Now R&D concerning quench detection done (Voltage detection long distances between magnets and electronic devices) * Lack of man power: A single person is working on a topic which requires 3 people * Missing know how at GSI on quench det. Electronics Get KIT and CERN involved, get EE at GSI involved, hiring of an engineer Common Systems – Holger Kollmus