Presentation is loading. Please wait.

Presentation is loading. Please wait.

Progress and Plan for Superconducting RF Cavity RF Group.

Published byAubrie Hoover Modified over 9 years ago

Similar presentations

Presentation on theme: "Progress and Plan for Superconducting RF Cavity RF Group."— Presentation transcript:

1 Progress and Plan for Superconducting RF Cavity RF Group

2 Progress in Last Year Transport two SC cavity modules and couplers from harbor to IHEP by air-suspended truck Transport two SC cavity modules and couplers from harbor to IHEP by air-suspended truck Leak check after transportation (instructed by Prof. Mitsunobu, MELCO send a Supervisor to check all of things) Leak check after transportation (instructed by Prof. Mitsunobu, MELCO send a Supervisor to check all of things) Evacuate niobium cavity cell and insulation vacuum vessel, high pressure rising up of helium vessel and nitrogen cooling channel. Evacuate niobium cavity cell and insulation vacuum vessel, high pressure rising up of helium vessel and nitrogen cooling channel. Do leak test for niobium cavity cell and insulation vacuum vessel. Do leak test for niobium cavity cell and insulation vacuum vessel. Prepare clean work environment Prepare clean work environment Design and construct clean room of class 10 ’ 000 for cavity assembly in RF hall of building six. Design and construct clean room of class 10 ’ 000 for cavity assembly in RF hall of building six. Design and construct clean booth of class 100 for HOM damper assembly. Design and construct clean booth of class 100 for HOM damper assembly. Design and construct clean cap of class 100 for coupler assembly. Design and construct clean cap of class 100 for coupler assembly.

3 Progress … con ’ t (1) Assembly of beam taper, RF bellow, gate valve and ion pump, as well as vacuum gauge and mass analyzer together. It include two SBP and two LBP module Assembly of beam taper, RF bellow, gate valve and ion pump, as well as vacuum gauge and mass analyzer together. It include two SBP and two LBP module Ultrasonic washing, ultrapure water rinsing for each beam taper. Ultrasonic washing, ultrapure water rinsing for each beam taper. Connected all components on to the beam taper. Connected all components on to the beam taper. Leak test and high temperature baking. Leak test and high temperature baking. HOM damper baking (Prof. Furuya, a S.V from MELCO ) HOM damper baking (Prof. Furuya, a S.V from MELCO ) Ferrite surface check. (There exist a remarkable cracking on the ferrite of the SBP2 HOM damper, KEK borrowed their spare one to us via Melco) Ferrite surface check. (There exist a remarkable cracking on the ferrite of the SBP2 HOM damper, KEK borrowed their spare one to us via Melco) Connect HOM damper on the beam taper. Connect HOM damper on the beam taper. Baked four HOM damper by heated cycle water around 45 Celsius degree for two months. Baked four HOM damper by heated cycle water around 45 Celsius degree for two months.

4 Progress … con ’ t (2) Assembly of the No.2 SCC module (Prof. Mitsunobu and Furuya, a S.V from MELCO ) Assembly of the No.2 SCC module (Prof. Mitsunobu and Furuya, a S.V from MELCO ) Slow leak cavity, coupler and HOM damper in sequence. Slow leak cavity, coupler and HOM damper in sequence. Mount coupler on the cavity module. Mount coupler on the cavity module. Connect SBP and LBP HOM damper on to the both side of cavity module separately. Connect SBP and LBP HOM damper on to the both side of cavity module separately. Evacuate whole module and do leak test. Evacuate whole module and do leak test. Ion pump baking. Ion pump baking. Move the No.2 SCC module to the horizontal test room Move the No.2 SCC module to the horizontal test room Preparation for final performance test (Furuya, a S.V from MELCO ) Preparation for final performance test (Furuya, a S.V from MELCO ) Locate and adjust module to the right site in test room. Locate and adjust module to the right site in test room. High power waveguide connection. High power waveguide connection. Connect cryogenic transfer line and safety valve, some modification will be done. Connect cryogenic transfer line and safety valve, some modification will be done. Test the cooling air and water for doorknob and coupler. Test the cooling air and water for doorknob and coupler. …

5 Plan for next 2006/4/26~29. Assemble the No.1 SCC module. After assembly, it will be stored in the clean room of building 6 (Prof. Mitsunobu, a S.V from MELCO ) 2006/4/26~29. Assemble the No.1 SCC module. After assembly, it will be stored in the clean room of building 6 (Prof. Mitsunobu, a S.V from MELCO ) 2006/4/30~5/2. Room temperature aging for the No.2 SCC coupler (Prof. Furuya, a S.V from MELCO ) 2006/4/30~5/2. Room temperature aging for the No.2 SCC coupler (Prof. Furuya, a S.V from MELCO ) 2006/5/8~5/31. Performance test for the No.2 SCC (Prof. Furuya, a S.V from MELCO ) 2006/5/8~5/31. Performance test for the No.2 SCC (Prof. Furuya, a S.V from MELCO ) Cooling down. Cooling down. Coupler aging at cold stage. Coupler aging at cold stage. Performance test (Q 0 ~Eacc, Emax, static loss, tuning range, Q ext for the coupler port and etc.) Performance test (Q 0 ~Eacc, Emax, static loss, tuning range, Q ext for the coupler port and etc.) Warm up. Warm up.

6 Plan … Con ’ t 2006/6/1~8/31. Tunnel installation for the No.2 SCC (Prof. Mitsunobu a S.V from MELCO ) 2006/6/1~8/31. Tunnel installation for the No.2 SCC (Prof. Mitsunobu a S.V from MELCO ) Move to tunnel, locate and align this module Move to tunnel, locate and align this module connect both side gate valve with vacuum chamber. connect both side gate valve with vacuum chamber. Prepare and test for LLRF, Interlock, WG, Transfer line, Cooling water, Gas line for G.V, etc. Prepare and test for LLRF, Interlock, WG, Transfer line, Cooling water, Gas line for G.V, etc. 2006/6/7. Move the No.1 SCC to the horizontal test room 2006/6/7. Move the No.1 SCC to the horizontal test room 2006/6/8~7/7. Preparation for performance test for the No.1 SCC 2006/6/8~7/7. Preparation for performance test for the No.1 SCC 2006/7/8~7/31. Horizontal test for the No.1 SCC (Prof. Mitsunobu a S.V from MELCO ) 2006/7/8~7/31. Horizontal test for the No.1 SCC (Prof. Mitsunobu a S.V from MELCO ) 2006/8/1~8/31. Tunnel installation for the No.1 SCC 2006/8/1~8/31. Tunnel installation for the No.1 SCC 2006/9/1~9/24. RF co-adjustment and signal check with other system 2006/9/1~9/24. RF co-adjustment and signal check with other system 2006/9/25~ … Beam commissioning 2006/9/25~ … Beam commissioning

7 Assembly of beam taper, RF bellow, gate valve, ion pump, vacuum gauge and mass analyzer

8 Clean room, clean booth and clean cap

9 Check the ferrite surface of HOM damper by microscope

10 HOM damper baking by the heated cycle water

11 The No.2 SC cavity is ready for horizontal test

12 Request … Ask vacuum group to fabricate a section of substitution beam pipe for SC Cavity module. Ask vacuum group to fabricate a section of substitution beam pipe for SC Cavity module. Set a quick valve to isolate linac and storage ring in emergency to protect the SC cavity from a severe vacuum leak. Set a quick valve to isolate linac and storage ring in emergency to protect the SC cavity from a severe vacuum leak. Prepare some spare key components and one whole spare cavity module. Prepare some spare key components and one whole spare cavity module. >>>> THANKS >>> THANKS <<<<<

Download ppt "Progress and Plan for Superconducting RF Cavity RF Group."

Similar presentations

MICE RF and Coupling Coil Module Outstanding Issues Steve Virostek Lawrence Berkeley National Laboratory MICE Collaboration Meeting October 26, 2004.

MICE RF and Coupling Coil Module Outstanding Issues Steve Virostek Lawrence Berkeley National Laboratory MICE Collaboration Meeting October 26, 2004.
SRF Cryomodule Assembly Facility Plans Tug Arkan AAC, May 10-12, 2005.

SRF Cryomodule Assembly Facility Plans Tug Arkan AAC, May 10-12, 2005.
RF Measurement Plan Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory January 20, 2011 MICE Video Conference Meeting.

RF Measurement Plan Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory January 20, 2011 MICE Video Conference Meeting.
Superconducting Cavities for Super- KEKB S. Mitsunobu.

Superconducting Cavities for Super- KEKB S. Mitsunobu.
Safety Review: RF Issues Derun Li Absorber Safety Review December 9-10, 2003 Lawrence Berkeley National Laboratory Berkeley, CA 94720.

Safety Review: RF Issues Derun Li Absorber Safety Review December 9-10, 2003 Lawrence Berkeley National Laboratory Berkeley, CA
11/26/2002Edgar L Black IIT MICE Video Conference November 27, 2002 Summary of safety implementation for proposal.

11/26/2002Edgar L Black IIT MICE Video Conference November 27, 2002 Summary of safety implementation for proposal.
ANL HWR Cryomodule Status Update 27 January 2015 Zachary Conway On behalf of the ANL Linac Development Group Argonne National Laboratory Physics Division.

ANL HWR Cryomodule Status Update 27 January 2015 Zachary Conway On behalf of the ANL Linac Development Group Argonne National Laboratory Physics Division.
EPICS on TPS RF System Yu-Hang Lin Radio Frequency Group NSRRC.

EPICS on TPS RF System Yu-Hang Lin Radio Frequency Group NSRRC.
Possible Assembly and Test of the Crab cryomodule in SM18 at CERN P. Maesen LHC Crab Cav meeting, 17 Sep’ 09 LHC-CC09Cryomodule Assembly & Test Stand.

Possible Assembly and Test of the Crab cryomodule in SM18 at CERN P. Maesen LHC Crab Cav meeting, 17 Sep’ 09 LHC-CC09Cryomodule Assembly & Test Stand.
Alignment and assembling of the cryomodule Yun He, James Sears, Matthias Liepe MLC external review October 03, 2012.

Alignment and assembling of the cryomodule Yun He, James Sears, Matthias Liepe MLC external review October 03, 2012.
ILCTA_NML Progress at Fermilab Jerry Leibfritz September 10, 2007.

ILCTA_NML Progress at Fermilab Jerry Leibfritz September 10, 2007.
Progress of SC RF Cavity during the 2006-2007 RF Group May 10, 2007.

Progress of SC RF Cavity during the RF Group May 10, 2007.
R&D Status and Plan on The Cryostat N. Ohuchi, K. Tsuchiya, A. Terashima, H. Hisamatsu, M. Masuzawa, T. Okamura, H. Hayano 1.STF-Cryostat Design 2.Construction.

R&D Status and Plan on The Cryostat N. Ohuchi, K. Tsuchiya, A. Terashima, H. Hisamatsu, M. Masuzawa, T. Okamura, H. Hayano 1.STF-Cryostat Design 2.Construction.
Date Event Global Design Effort 1 Technical System Review John Noonan, ANL Yusuke Suetsugu,KEK Paolo Michelato, INFN Milano.

Date Event Global Design Effort 1 Technical System Review John Noonan, ANL Yusuke Suetsugu,KEK Paolo Michelato, INFN Milano.
ATLAS Intensity and Efficiency Upgrade ATLAS USERS MEETING Speaker: Mike Kelly Physics Division May 15, 2014.

ATLAS Intensity and Efficiency Upgrade ATLAS USERS MEETING Speaker: Mike Kelly Physics Division May 15, 2014.
2007.10.11 BDS 11 Vacuum System for BDS [Completeness of RDR] Y. Suetsugu J. Noonan and P. Michelato Design principle Basic design Cost estimation.

BDS 11 Vacuum System for BDS [Completeness of RDR] Y. Suetsugu J. Noonan and P. Michelato Design principle Basic design Cost estimation.
STF EP, VT commissioning by FNAL AES001 H. Hayano, KEK 11.17.2008.

STF EP, VT commissioning by FNAL AES001 H. Hayano, KEK
July 9-11 2014 LEReC Review 9 - 11 July 2014 Low Energy RHIC electron Cooling Sergey Belomestnykh SRF and RF systems.

July LEReC Review July 2014 Low Energy RHIC electron Cooling Sergey Belomestnykh SRF and RF systems.
Low-Level RF of BEPCII Sun YI IMAC’07 May. 11, 2007 IHEP.

Low-Level RF of BEPCII Sun YI IMAC’07 May. 11, 2007 IHEP.
4th BEPCII IMAC Meeting - 1 - April 26 - 28, 2006 Status of BEPCII Storage Rings Ma Li April 26, 2006.

4th BEPCII IMAC Meeting April , 2006 Status of BEPCII Storage Rings Ma Li April 26, 2006.

Similar presentations

Ads by Google