Presentation to MPE at TM #52 on 27.03.2014 TE/MPE/EE System Upgrades and Individual System Tests of the 13 kA Energy Extraction Facilities - related to LS1 Agenda: 1. Setting the scene: Short introduction to the system and fault statistics from operation. Knud - 8 mins. 2. Upgrades applied to the DQS extraction switches. Mikhail Ovsienko (IHEP, Russia) - 15 mins. 3. Upgrades applied to the DQRB energy absorbers. Marek Ciechanowski (AGH, Poland) - 10 mins. 4. Upgrades applied to the DJPC switch control systems. Bozhidar Panev (AGH, Poland) - 10 mins. K. Dahlerup-Petersen TE/MPE/EE – 23.03.2014 5. The IST Test Program. Sandor Feher (FNAL, IL, USA) - 10 mins. 6. MPE participation in the Thermal Validation (heat runs). Edward Nowak (AGH, Poland) and Steven Pemberton - 10 mins. 7. Closing Remarks. Knud - 5 mins. 1/6
Presentation to MPE at TM #52 on 27.03.2014 TE/MPE/EE The LHC machine deploys 32 such extraction systems in the 24 superconducting Main Powering Circuits. They are safety critical for the safeguard of the main dipole and quadrupole circuits. One system consists of: Individual dc breaker 4.5 kA, 1500 VDC EnergoMash, Ekaterinburg Powering and controls Interface module cabinet (DJPC) for signal dispatch ECIL, Hyderabad, India and local controls EFACEC, PT The combined extractions switch with bus system - top view. DQSQF/D enclosure for noise reduction and safety IHEP, Protvino, RU Power bus for improved DQR control circuits current balance. BINP (Morosov) BINP, K. Dahlerup-Petersen TE/MPE/EE – 23.03.2014 Novosibirsk Novosibirsk Three dipole extraction resistors, each rated 430 MJ, assures the safe deposit Snubber capacitance across the of the stored energy. In total 48 such Quadrupole extraction switches for arc suppression / DQRCS Cooling station absorbers. IHEP, Protvino, RU resistors, 24 MJ each commutation assistance for three DQRB’s IHEP, Protvino, RU Electronicon, DE ‘ Roese ’, DE 2/6
Presentation to MPE at TM #52 on 27.03.2014 TE/MPE/EE LS1 intervention plan: 1. Installation and connection of snubber capacitors and their associate fuse protection across the DQSQ switches in all main quad. circuits - for voltage transient suppression during commutation. 2. Installation and connection of new arc chambers with higher voltage rating (1050 VDC) on the quadrupole extraction switches - as replacement of the existing 200 V version (sectors 12 & 23 were already equipped during TS’s in 2012). 3. Mechanical modifications to all 48 (+spares) DQRQ extraction resistors in the main dipole circuit. Will prevent damage and short-circuit of a part of the resistor body in the case of double energy deposit (i.e. A hypothetical non-opening of one of the two EE facilities in a sector). 4. Replacement of the ailing and drifting, Curie-temperature based thermostats on the DQRB’s by a bimetal type with higher switching point (80 C). 5. Replacement in all 64 switch controller units (DJPC) of the power switching relays which are judged too weak for a reliable protection of the breaker ‘holding’ coils. The new version has higher current rating and AgSnO2 hardened contact surfaces. 6. Re-configuration of all DQR’s, back to the origin (2 x 70 m Ω for dipole circuits and 7.7 K. Dahlerup-Petersen TE/MPE/EE – 23.03.2014 m Ω /6.6 m Ω for quads). 7. Relocation of EE components in LHC points 1 and 5 (both sides): DQRB#3 moved in P1 and DQRCS installed on DQRB#1 in P5. 8. General preventive maintenance program applied to all 32 switch facilities, with gap and pressure adjustments, cleaning of main & arcing contacts, delay measurements and µ- switch checks. 9. Complete verifications of all bolted contacts and of all multi-pin connectors in all elements. 3/6
Presentation to MPE at TM #52 on 27.03.2014 TE/MPE/EE IST test plan applicable to each of the 32 complete systems, however with reduced program in the odd points: Note: An important part of the measurements and validations can (evidently) only be performed after connection of the cold magnet chain. Program: 1. HVQ -with PC disconnected and safety measures applied at DFBA and PC in case that the cooled cables are connected to the EE system. 2. Functional Tests (no dc current through the system) using dummy quench loop source. Local controls through dedicated Labview application similar to ‘ QPSExpert ’ and communication link to the DQAMS – RS232. 3. IST with dc currents up to 13 kA - with separate interlock line to PC. In odd points replaced by testing to 600 A. 4. Participation in the thermal validation runs, 13 kA, min. 10 - 12 hours – where applicable (P4L, P6R+L, P8R+L). 5. Hardware commissioning with participation of a QPS expert in CCC and two K. Dahlerup-Petersen TE/MPE/EE – 23.03.2014 field teams for tunnel interventions. Note: The order is of importance (example: HV application during 1 can, in particular in case of breakdowns, cause damage to the electronics). Safety: Tests are always performed with observation/application of the strict rules of condemnation/consignation - with no deviations, no derogations w.r.t. the baseline rule that only the person in possession of the ‘Test Authorization’ (yellow sheet from G. Pastor) are entitled to power the circuit. This is valid also for the HVQ. 4/6
Presentation to MPE at TM #52 on 27.03.2014 TE/MPE/EE Draft of test program – now being probed through IST in P6. K. Dahlerup-Petersen TE/MPE/EE – 23.03.2014 5/6
Presentation to MPE at TM #52 on 27.03.2014 TE/MPE/EE Fault Statistics – all 32 systems, 2010, 2011 & 2012. Source: MPE on-call intervention team TYPE of Faults Number Remarks OPENING FAULTS 0 Any other number than 0 would be unacceptable Faults linked to the SYSTEM 0 Any other number than REDUNDANCY in the opening 0 would be worrying process Faults affecting SYSTEM 15* This number must be AVAILABILITY (CLOSING improved! problems, SPURIOUS openings, etc.) Year 2010 2011 2012 Number of faults affecting 10 2 3 availability K. Dahlerup-Petersen TE/MPE/EE – 23.03.2014 Faults mainly had their origin in auxiliary equipment (µ-switches, relays, fans, cooling station, L.V. power supply) but also due to items sucked-into the breaker, defect contacts, visit of rat and damage to two holding coils) Note: A number of spurious openings were never reported to the MPE on-call team, therefore not included in this statistics. For RB,UA67 at least 11 such spurious openings occurred. 5/6
Presentation to MPE at TM #52 on 27.03.2014 TE/MPE/EE Presentation of the teams LS1 Upgrades: TEAM 1 (IHEP, Russian experts): TEAM 2 (AGH/UST Poland, specific missions + in training): Mikhail Ovsienko Marek Ciechanowski Sergei Avramenko Maciej Kosik Alexander Pushkarev Tadeusz Jeziorek Viktor Iaichkov Stanislav Cyganik Pawel Baran Mariusz Blaszczyk Bozhidar Panev Supporting team (mainly CERN, all part-time): Mathieu Favre, Grzegorz Seweryn, Steven Pemberton, Joaquim Mourao, Felix Rodriguez Mateos, Yan Bastian, Edward Nowak, Pawel Dubert and Sandor Feher. IST (needs permanent staffing of 2 x 3 people, 1 shift/day): Bozhidar Panev, Mikhail Ovsienko, Alexander Pushkarev, Joaquim Mourao, Sandor Feher, Aleksander Skala, Edward Nowak, Pawel Dubert, Mathieu Favre. Planning and coordination: Felix Rodrigues Mateos and Knud. Thermal validation (heat) runs: Steven Pemberton, Grzegorz Seweryn, Edward Nowak, Pawel Dubert, Katarzyna Turaj, Anna Braczek, K. Dahlerup-Petersen TE/MPE/EE – 23.03.2014 Bozhidar Panev and Krzysztof Baran. HWC: CCC staff: Bozhidar Panev, Aleksander Skala, Alexander Erokhin, Sandor Feher, Edward Nowak, Anupama, Viraj, Yogendra and Barapatre. Two Field Teams of 4 people: Mathieu Favre, Yan Bastian, Joaquim Mourao, Grzegorz Seweryn, Steven Pemberton, Pawel Dubert, Krzysztof Baran, Mikhail Ovsienko, Alexander Pushkarev, Marek Ciechanowski and Macej Kosik. 5/6
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