SC Project Review of NCSX, April 8-10, 2008 NCSX Cryogenics Systems WBS-62 Steve Raftopoulos NCSX Cryogenic Systems WBS(62) Manager.

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Presentation transcript:

SC Project Review of NCSX, April 8-10, 2008 NCSX Cryogenics Systems WBS-62 Steve Raftopoulos NCSX Cryogenic Systems WBS(62) Manager

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 2 Content of Presentations Overview Requirements Interfaces Design plans Procurement plans Cost and schedule estimates Staffing Risks Assessment

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 3 Overview The stellarator core is supported by three cryogenic facility systems: –WBS 621 delivers LN 2 to the machine area. –WBS 622 performs heat removal from the field coils –WBS 623 Cools and maintains structure(s) within the cryostat at desired operating temperatures (~80K).

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 4 Requirements WBS621 –Provide LN2 for distribution to: LN2 Coil Cooling system LN2/GN2 Structure Cooling WBS622 –Provide LN2 psig ) to coil distribution manifold (WBS16) for extracting heat from PF, TF and Modular Coils. –Maintain single phase flow. WBS623 –Cool structures without introducing thermal stresses –Maintain cold N2 atmosphere within Cryostat.

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 5 Interfaces WBS621 –C-Site 9200-gallon LN2 tank –WBS-622 Coil LN2 circulation pump skid –WBS-623 LN2 supply to Cryostat –Test Cell Air monitoring system WBS622 –Coil LN2 distribution manifold –HVAC exhaust WBS623 –Cryostat (WBS-171) –HVAC exhaust –All structures within Cryostat

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 6 Design Plans (WBS-621 LN2 supply) This is very straightforward. Flow rates, heat loads and pressure drops are already reasonably well known. This gives us confidence that the current estimate is reasonably accurate. Design will incorporate flow diagrams, and isometric piping drawings. Detailed component drawings will be minimal. This will allow many elements of the design of the system to proceed without requiring the “final” parameters. When final requirements for flow rates, heat loads and pressure drops are available, the components shall be procured, assembled and installed.

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 7 Design Plans (WBS-622 Coil Cooling) A pressurized, LN 2 heat removal loop is required for the field coils. The prototype for this loop was operated for the coil testing. A scaled up version of the Coil Test Facility’s pump skid is required to support these requirements. WBS-622 scope provides system capable of supporting full power operation. Heat removal requirements are ~50 MJ in a 15 minute recovery interval (about 56 kW avg.)

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 8 Design Plans (WBS-622 Coil Cooling) The C1 coil was cooled to the point that single phase liquid flow was established in the winding pack’s coolant channels –A success! –The single phase flow approach is validated –Technical risk is low

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 9 Design Plans WBS-623 Develop system to deliver LN2/GN2 for heat extraction from structures. Currently considering a system that evaporates LN2 to remove the heat. R&D - Have included funding in budget to prototype the cooling strategy –Develop better mixing of cold gas for improved convective heat transfer. –Electric and/or air motors are candidate drivers. Design Opportunities –Conduction cooling via plates or tubing will be considered (Alcator C-MOD recommendation).

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 10 Procurement Plans WBS 621 & 622 –Components for these WBS elements are either common “off the shelf” items, or can be specified to order and delivered by vendors (i.e. the LN2 circulating pump) WBS 623 –TBD: R&D efforts will drive design and procurements.

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 11 Costs and Schedule

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 12 Staffing WBS manager/Technical Expert – 1800 man-hours budgeted Cryogenics Consultant – 1200 man-hours budgeted Electrical/Controls Engineer – 1300 man-hours budgeted Thermal Analysis – 400 man-hours budgeted Designer/Draftsman – 1500 man-hours budgeted. Fabrication/Installation – Performed by PPPL technical staff ~ 6000 man-hours budgeted for mechanical, electrical and controls.

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 13 Risk Assessment WBS-621 LN2 supply – Low Design Maturity, Low Complexity –Sizing of piping is straight forward –Based on identified (calculated) heat loads, the capacity of existing C-site LN2 tank 9200 (gallon) is adequate. –Off-the-shelf components are used. –Providing a bit of reserve capacity should guaranty success. WBS-622 Pressurized LN2 cooling for coils – Low Design Maturity, Low Complexity –Coil testing cooling loop validates design. –Full power coil heat loads have been calculated. –Required flow rates and pressure drops have been calculated. –LN2 delivery system can be sized to accommodate requirements –Standard industrial products make up the system. –Providing a bit of reserve capacity should guaranty success.

SC Project Review of NCSX, April 8-10, 2008 S. Raftopoulos - page 14 Risk Assessment –cont. WBS-623 Cooling of structures – Low Design Maturity, High Complexity –Risks Heat loads (from hot vessel and conduction thru insulation) can be calculated, but imperfections in installation and the modular nature of the cryostat may negatively affect performance and reliability. Condensation of liquid at bottom of cryostat may cause sealing issues resulting in LN2 and cold gas leaks. Stratification of GN2 temperatures may result in uneven cooling of the structures. –Mitigation Seeking experience of other facilities that employ cryostats. Cooling structures via conduction (as opposed to liquid spray & evaporation) Prototyping the LN2/GN2 cooling concepts will quantify risk and will lead to solutions.