European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire 1CERN - 4th November 2011 Experience from Construction.

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Presentation transcript:

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire 1CERN - 4th November 2011 Experience from Construction and Operation of the LHC Experiments Detectors Cooling Systems Michele Battistin CERN Engineering Department Cooling and Ventilation Group Detector Cooling Section Workshop on Quality Issues in Current and Future Silicon Detectors CERN 4 th November 2011 M. Battistin

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire 2CERN - 4th November 2011 Agenda The contest: LHC Experiments Detector Cooling installations Examples from LHC construction The life of a project for Detector Cooling installations Document management in EN/CV/DC Conclusions M. Battistin

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire 3CERN - 4th November 2011 EN/CV/Detector Cooling Installations M. Battistin Water leak-less Monophasic PFC Biphasic PFCBiphasic CO 2 ALICE52 ATLAS6331 CMS8 LHCb13 TOTEM1 Others51 Total cooling stations built from 2001 to 2011 Cooling power: 1 to 150 kW Distribution lines: 2 to 204 per installation Overall installations value about 10 MCHF

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire An integration of competencies Fluid energy cycle:  inside the detector  inside the cooling station Specific competencies: hydraulic components, electricity, control, … structural design, silicon technology, electronics technology… Shared competencies: heat transfer, connections, … Underestimate quality during the R&D and construction phases can lead to… EN/CV/DC Cooling station Connection piping Distribution manifolds Distribution lines Detector electronics component CERN/EN responsibility CERN/EN responsibility Experiment responsibility Experiment responsibility Detector EN/CV Cooling network CERN - 4th November 2011M. Battistin4

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire CERN - 4th November 2011M. Battistin5

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire 6CERN - 4th November 2011 Some example Pixel cooling loops: 8 bar  4 bar Leak-less 1.2 bar. Pressure test. Components ware: filters Connections selection: different solutions for each sub- detector. Leaks. … M. Battistin To recover conformity: major works or main operation problems…

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire M. Battistin7CERN - 4th November 2011 Could we do better? Synergy engineering components control supervision technical documentation CAMMS resources optimization Flexibility planning adaptation technical aspects Solutions across Experiments cross-fertilization debugging Cost material selection (technical-cost drivers) Integration with the experiment leak requirements pressure test connections commissioning procedure quality management Lay-out M&O approach Communication with detectors communities technical consulting specification evolution Which problems have we (TS and Experiments) faced during these years?

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire M. Battistin8CERN - 4th November 2011 During the Project Development Many different detector communities have dealt at least with the following issues: How shall I do a leak test? What is the leak tightness level I have to assure? What is the pressure value I have to test my detector? How shall I perform a pressure test? Which kind of connections are good for the pipes inside my detector? How can I assure the cleanliness of my pipes? How can I measure it? Which phases I have to perform during commissioning? … Did the detector communities have resources to deal and solve these issues? Yes:high quality standard for the correspondent detector Partially:the technical solution has NOT been uniform across the detectors No:the problem has been partially solved or simply neglected Proposal from our experience

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire M. Battistin9CERN - 4th November 2011 End of TS/CV/DC proposals Collaboration to the LHC upgrade projects of the Experiments (connections, pressure tests, leak test, cooling performances, cooling path evaluation, etc.): active participation to the debates and reviews; follow up the cooling need evolution; definition of the new specifications. Agreement for the construction of cooling system prototypes. Structured integration of the CFD (Computational Fluid Dynamic) activity into the R&D process since the beginning. Definition of roadmaps with common “ validation ” steps to reduce or avoid the sliding of the project. Development of knowledge on new cooling concepts. Set-up and coordination of common a “ cooling test facility ” at CERN to validate the cooling performances on the detectors ’ prototypes. In the meantime EN/CV/DC improved the quality approach to project management

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire CERN - 4th November 2011M. Battistin10 Project management for a DC cooling station Technical RequirementsEngineering SpecificationEngineering review(s)ConstructionTest and commissioning documents approval

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire Earned Value Management (EVM) technique Engineering Specification Definition Project Breakdown Structure Equipment coding convention PBS Work Breakdown Structure List of Working Units WBS & WU’s Resource Responsibility Matrix RRM Work Units dictionary WU Planning & Cost Follow-up Project coordination schedule 11CERN - 4th November 2011M. Battistin

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire M. Battistin Project Breakdown Structure 12 Water Chiller Brine Condenser Piping USA15 Civil eng. Instrumenta tion Control CERN - 4th November 2011

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire M. Battistin13 WBS & RRM CERN - 4th November 2011

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire 14 Cost tracking Cost variance Schedule variance CERN - 4th November 2011M. Battistin

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire CERN - 4th November 2011M. Battistin15 Working document are stored on sharepoint

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire CERN - 4th November 2011M. Battistin16 Installation P&I – component unique name

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire CERN - 4th November 2011M. Battistin17 Part list for all components Circuit: TS Brine Water Status of the order: Review/Pending Offer requested Offer received Ordered Arrived/Stock Description of the components Function P&I reference Supplier Price Order number P&I reference P&I reference Order status Supplier info main technical info Purchase document link Excel to manage the components supply

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire CERN - 4th November 2011M. Battistin18 Technical Purchase Specifications are defined for each component FluidC6F14 Flow [kg/s]40 Flow [m3/h]75 T[°C]-70 Density [kg/m3]1920 Head [m]40 NPSHa [m]7.5 NPSHr (pump) [m]<<7.5

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire CERN - 4th November 2011M. Battistin19 Final technical dossier are stored on EDMS for the cooling system operation The stable URL link guarantees the long term link consistency

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire 20CERN - 4th November 2011 We assumed a “mantra” as a general rule M. Battistin Write what you do Do what you write document: -Who -When (date) -Doc Number -Version number (+ history) -Consistent link to referred documents -References to international standards

European Organization for Nuclear Research - Organisation européenne pour la recherche nucléaire M. Battistin21CERN - 4th November 2011 Conclusions Quality shall enter in the day-by-day habits of Detector Cooling design and construction on both cooling station and detector sides. Quality is not a constraint! Quality can guarantee the success of our work! Quality costs! Training and resources are needed. Quality allows to communicate effectively in large communities. When “the cooling is not working” we cannot say: