 Wednesday, March 13, 2013, 15:26, Bevan Moss, Conditioning Station, Development, TM4, CS Test Target #1, Roughing Started
|
Roughing pumps were turned on at 15:23 13/03/2013. |
|
Wednesday, March 13, 2013, 14:31, Bevan Moss, Conditioning Station, Standard Operation, TM4, CS Test Target #1, Module Move
|
TM4 with CS Test Target #1 was moved from the SHC to the Conditioning Station. All went well. The welding cables came a little close to the cage, David will bend them in more in the future. |
|
Wednesday, March 13, 2013, 14:30, Bevan Moss, Conditioning Station, Development, , , Faraday Cup
|
Dave Morris and I investigated the Faraday Cup today. It was found to be plumed in the wrong direction (fails in). This is not an issue for the conditioning station as there is nothing down stream from the cup. Dave will change the controls to reflect this. |
|
Wednesday, March 13, 2013, 11:23, chad fisher, South Hot-Cell, Repair, TM4, , Ground Electrode Leak
|
The containment box has been re-installed and the window waterlines reconnected and leak checked.
The window lines did pass the leak check, however the leak dectoctor did not pump down past 5.8 x 10-9.
The front cover has also been reinstalled.
I have requested that the module have an electrical check before it moves as the containment box has been off as well as the water blocks being leak checked. Either one of these procedures could causes the water liunes and blocks to alter there position sightly which could cause as short...this is why I have requested an electrical check.
|
Wednesday, March 13, 2013, 07:22, chad fisher, South Hot-Cell, Repair, TM4, , Ground Electrode Leak / Inspection Results 
|
Further attempts to localize the leak were unsucessful. The circuit was pressurized with 60 psi air and snoop solution was applied to both the braze joints and the mating surface between the two halfs of the water blocks. Unfortunately, no visible bubbles could be dectected.
This was reported to Grant and Pierre and it was decided to continue with removing one of the vcr gaskets from the optics cooling lines (on the same circuit) and replacing it with a gasket with a sector cut out to allow this circuit to be pumped out and eliminate any virtual leak type response. The feedthru at the service cap will be capped.
Areas that had snoop solution on them were rinsed with methonal.
A cursory inspection of the extraction column was preformed and some pictures of the back side of the mounting plate and surrounding area were taken as there was some interesting discoloration found in the area below the back of the 9 pin connectors.
Picutres of the snoop procedure can be found at https://documents.triumf.ca/docushare/dsweb/View/Collection-9994
|
|
Tuesday, March 12, 2013, 09:18, chad fisher, South Hot-Cell, Repair, TM4, , Ground Electrode Leak
|
On Monday, March 11 the containment box was removed from TM4 and a vacuum leak check preformed in an attempt to locate the leak in the ground electrode circuit.
Following Pierre's work plain helium was sprayed was the highest joint accessible towards the lowest.
A two second spray of helium was applied to the first joint (the reducer from the service tray to the line that goes to the service tray side of the water block connection), no response from the leak detector after 1 minute.
two second spray of helium was applied to the braze joint of the servive tray side of the waterblock connection; almost immediate response from the leak detector (see David Wand for actual values for leak rate).
The inital joint at the reducer was rechecked to insure the response was not just a risidual slow response from the reducer joint and confirmed by no response after 2 miniutes that it was not.
The braze joint at the service tray block was then tested again with a two second spray and again almost an imediated response.
A meeting was conveined and decided to pressurize this circuit with air and apply snoop solution to the suspect area to try to identify wether the leak is in the braze joint or possibly c-seal...This will take place on Tuesday, March 12th.
|
|
Friday, March 08, 2013, 15:50, Bevan Moss, ITE, Standard Operation, TM4, CS Test Target #1, Module Move from ITE to SHC
|
Today David and I moved the module from ITE to the SHC. Move went very smoothly, David operated the cameras and has had basic training in how to manually lock out the controls. |
|
Wednesday, March 06, 2013, 14:12, David Wang, ITW, Repair, , , ITW EXIT1 tank to module o-ring replacement
|
ITW EXIT1 o-ring replacement is fininshed today. The ITW EXIT 1 is back to ITW. The old o-ring lost most its elastic property and changed to stiff sqaure shape inside the slot.The flange surface around the o-ring slot was dirty. I cleaned the o-ring surface completely before putting the new o-ring . Everything should be fine now. There will be a leak check late on this new installed o-ring.
|
|
Wednesday, March 06, 2013, 12:50, Travis Cave, South Hot-Cell, Maintenance, , , module move
|
ITW EX1 have been moved back to the west target station from the south hot cell. |
|
Wednesday, March 06, 2013, 10:09, Travis Cave, ITW, Maintenance, , , module move
|
ITW EX1 has been moved from the west target station to the south hot cell for the seal replacement on the west station. |
|
Friday, March 01, 2013, 11:35, David Wang, ITE, Maintenance, TM4, , Leak check on ITE and TM4.
|
The leak check on TM4 and ITE is done. All primary vacuum vessel , secondary vacuum vessel on TM4 and ITE are leak tight. There is no any response had been found on leak detector(leak detector base LR 0.0xE-9 arm.cc/sec). All water lines had been pressurized to 70 psi helium for 3 minutes. They are all perfect leak tight( I cant find even a tiny response on leak detector) except GE water cooling line. On the GE water line, the leak detector got a instantaneous response once I applied the helium to the circuit.The leak rate climbed directly from 0.0xe-9 atm.cc/sec to 1.5 xe-5 atmcc/sec even if I stopped the helium pressurizing immediately. Once I purged the helium out of the line, the leak rate return to 0.0XE-9 atm.cc/sec quickly. I repeated the test on GE water line again and got exactly same result as the before. I would say the leak on the ITE GE water circuit isn't a small leak. The same test could be fulfilled once the TM4 is in CS later. |
|
Tuesday, February 26, 2013, 13:53, David Wang, Conditioning Station, Repair, TM4, , Replaced TM4 TP1
|
Bevan and I replaced TM4 TP1 today at conditioning station .The pump will be started this week when I do ITE and TM4 leak check . |
|
Tuesday, February 26, 2013, 13:24, Travis Cave, Conditioning Station, Standard Operation, TM4, CS Test Target #1, module move
|
TM#4 with CS Test Target #1 (dummy target) moved from the conditioning station to the east target station. Move went well. |
|
Tuesday, February 26, 2013, 10:26, Travis Cave, ITW, Standard Operation, TM1, , module move
|
TM1 moved from the west station to the southwest silo. Move went well. |
|
Friday, February 22, 2013, 13:13, Bevan Moss, Conditioning Station, Development, TM4, CS Test Target #1, Broken Turbo Pump
|
Today while putting the cover on the cord that goes to the controller was bumped. This bent the connector down and caused a vacuum leak. I tried to tighten the bolts in the hope the leak would go away but it did not and I sheared one of the bolts off. David is inquiring with Edi if the pump can be repaired or if it needs to be replaced. The good news is that the interlocks work exactly as planned. Upon detecting a leak they shut the turbos down and closed all of the valves they even beat the turbo controllers for overload.
David believes we can rotate the pump slightly to avoid this problem in the future. Hopefully repairs can start on Monday.
The conditioning station will be shut down for the weekend. |
|
Friday, February 22, 2013, 13:02, Bevan Moss, Conditioning Station, Development, TM4, CS Test Target #1, HV test with Water
|
Hello Ray and Yi
Completed a HV test with the water flowing today.
8.96 Mohm
56.4 PSI across the load
16.5 GPM through the loads
some sparking occurred see attached file.
module was biased with all items tied to common to 40kV. Leakage current was less than 100uA.
This was a very successful test. |
|
Thursday, February 21, 2013, 14:05, David Wang, ITW, Repair, TM1, , Disconnected EXIT1 in ITW.
|
Disconnected EXIT1 in ITW. All cables , wires and air lines are label marked. |
|
Thursday, February 14, 2013, 09:31, David Wang, ITW, Repair, , , ITH MP1 is replaced.
|
Edi and I replaced the broken ITH MP1 in target hall with a new pump. The old pump was leak on oil. There were no oil had been left in the old pump by checking the sight glass.Thats the reason of the pump failure.The tray which the old pump sat on was full of leaking oil ( highly contaminated ). The old pump was bagged in 3 thick plastic bags ,and the tray was cleaned before the new pump was installed. The working area had been cleaned up and surveyed couple of times after the job. Everything is good. The new pump had been tested after the installation. It works fine. |
|
Friday, February 08, 2013, 11:42, Grant Minor, ITE, Maintenance, , , TAPC 477 resolved - ISAC elec. room gas cylinder
|
See attached TAPC 477 documentation. |
|
Wednesday, February 06, 2013, 14:34, Bevan Moss, Conditioning Station, Development, TM4, CS Test Target #1, 40kV All Common w/o Water Test
|
Today the module was biased to 40kV in the conditioning station. The current draw was 0uA. Sparking started at 27 kV. I have attached the recording from the strip tool of the vacuum while we were testing. After consulting Pierre if we should take the module to a higher voltage it was decided not to. The purpose of this test we to check the interaction between the module, cover, new cooling line, EE and EINZEL cables. This test was considered a success and although there are no anticipated problems care should be taken when taking the module past 40kV for the first time. |
|