Complementary ISTC Projects #3888, 3889p

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Presentation transcript:

Complementary ISTC Projects #3888, 3889p for the construction of CCDTL accelerating section of Linac4 Within these 2 projects it is foreseen to develop, manufacture and test CCDTL accelerating section of Linac4 (21 accelerating cavities in 7 modules, ~25m). ►►► The developments and results of the project 2875 will be fully exploited ◄◄◄ Distribution of works will be similar: 1 The design of Linac4 CCDTL accelerating section will be developed jointly by all the participating parties. 2 Tanks and support frames will be built at VNIITF. After copper plating and a test assembly the modules will be shipped to BINP. BINP will build and install the drift tubes and take care of the rf tuning and final assembly. 3 Rf conditioning and high power tests of all the 7 modules will be done at CERN. Slide from kick-off meeting on the ISTC Linac4 Projects held at CERN on October 29, 2009

Complementary ISTC Projects #3888, 3889p for the construction of CCDTL accelerating section of Linac4 Although the CCDTL prototype built within the ISTC Project 2875 performed good, certain design and production technology improvements will be implemented to the CCDTL modules to be built. Drift tube will be brazed rather than EB-welded. Drift tube to tank connection will be dismountable rather than permanently welded. Alignment concept and procedure will be different. + modifications in the vacuum pumping scheme, optimization of the water cooling scheme This calls for more R&D activities, which are in progress now. We still believe we can follow the schedule in general Year 1 (June 2009 – May 2010) Year 2 (June 2010 – May 2011) Year 3 … Nov 2012 Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 304L OFHC Cu Auxiliaries Tanks VNIITF  BINP M 1 M 2,3 M 4,5,6 M 7 Modules BINP  CERN M 1 M 2,3 M 4,5 M 6,7 Slide from kick-off meeting on the ISTC Linac4 Projects held at CERN on October 29, 2009

Complementary ISTC Projects #3888, 3889p for the construction of CCDTL accelerating section of Linac4 Current status BINP Drift tube mock-ups and a test vacuum vessel with drift tube girder are being made and should be finished in Dec. 2009 Auxiliary tools. Assembly table is being made and should be finished in Dec. 2009 Drift tube alignment tools are being made and should be finished in Dec. 2009 Aluminum dummy drift tubes for measuring resonant frequencies of the cavities upon their arrival from VNIITF should be finished in Dec. 2009 Test and measurement area should be finished in Dec. 2009 As soon as the materials for drift tubes and tuners are delivered to BINP, manufacturing will start. Final machining will be done after rf measurements of actual tanks received from VNIITF. VNIITF Galvanic shop upgrade (aimed at handling large half-tanks of high energy modules) is in progress Technological tools have been designed, procurement of the materials for the tools and procurement of standard tools are in progress. Execution drawings of the tanks and coupling cells are prepared and will be transferred to the Workshop as soon as all the design modifications are finalized. Manufacturing will start as soon as the materials for tanks and coupling cells are delivered to VNIITF. Slide from kick-off meeting on the ISTC Linac4 Projects held at CERN on October 29, 2009

Complementary ISTC Projects #3888, 3889p for the construction of CCDTL accelerating section of Linac4 Current status BINP Drift tube mock-ups and a test vacuum vessel with drift tube girder are being made and should be finished in Dec. 2009 – completed in February 2010 Auxiliary tools. – completed by December 2009 Assembly table is being made and should be finished in Dec. 2009 Drift tube alignment tools are being made and should be finished in Dec. 2009 Aluminum dummy drift tubes for measuring resonant frequencies of the cavities upon their arrival from VNIITF should be finished in Dec. 2009 Test and measurement area should be finished in Dec. 2009 – completed in March 2010 As soon as the materials for drift tubes and tuners are delivered to BINP, manufacturing will start. – materials arrived in January 2010, during this meeting we expect to agree on the DT design and production technology. Final machining will be done after rf measurements of actual tanks received from VNIITF. VNIITF Galvanic shop upgrade (aimed at handling large half-tanks of high energy modules) is in progress Technological tools have been designed, procurement of the materials for the tools and procurement of standard tools are in progress. Execution drawings of the tanks and coupling cells are prepared and will be transferred to the Workshop as soon as all the design modifications are finalized. Manufacturing will start as soon as the materials for tanks and coupling cells are delivered to VNIITF.