Difference between revisions of "April 09, 2024 KLONG CPS Design Meeting"
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** Can we use less expensive resin? What is the actual expected radiation levels at coils now? | ** Can we use less expensive resin? What is the actual expected radiation levels at coils now? | ||
* Copper cooling update - [[media:CPS Absorber cooling 8 holes.pdf]] | * Copper cooling update - [[media:CPS Absorber cooling 8 holes.pdf]] | ||
+ | * DeGauss test summer 2024 | ||
== Minutes == | == Minutes == | ||
+ | * Discussed minutes from last meeting | ||
+ | * Looked at positioning of components in Z. Stephanie has updated the model to the latest. | ||
+ | * Pavel looked at radiation after experiment and it is decided we can remove the poly shielding 1 week after the end of beam in order to move the assy closer to the north wall | ||
+ | * Discussed Magnet design | ||
+ | ** High rad resistant resin (CTD403) has hazardous characteristics with cyanide. It may be better (and cheaper) to use a resin such as CTD101K which is much cheaper but still radiation hard (10^5 grey). | ||
+ | ** Give Pavel the current magnet model to run in Fluka to determine the needed radiation levels | ||
+ | ** Magnet positioned 2cm below beam center | ||
+ | * Discussed the portion of the CPS that will be moved north after experiment | ||
+ | ** May be a good idea to move the magnet with the absorber/shielding assembly | ||
+ | ** Supporting magnet from the absorber assy support may be useful | ||
+ | ** Steel shielding over magnet may be attached (not required) and moved with magnet to keep radiation levels down | ||
+ | * Radiator design | ||
+ | ** may be a long shaft to bring motor outside shielding | ||
+ | ** may be a rack and pinion or worm gear type of set up | ||
+ | ** thick target, thin target and empty space needed | ||
+ | ** target will be in air | ||
+ | * Vacuum window downstream of diagnostic girder may be 100um aluminum (2.5 cm diameter) | ||
+ | * Vacuum window on US end of permanent magnet may be Kapton if needed | ||
+ | * Pavel requests a nitrogen purge in copper absorber area | ||
+ | * Copper absorber | ||
+ | ** Hovanes shows 52.9KW absorbed from Pavel model 78 | ||
+ | ** Tim's ANSYS model shows 51.14KW. Maybe ok sine the 8 1/2" water holes are in the model | ||
+ | ** Eugene was concerned with brazed joints for water cooling | ||
+ | ** After More discussion after the meeting, we will prsue brazing 3/8 inch tube into the absorber | ||
+ | *** Keith will work with JLAB vacuum brazing to come up with a prototype model to test | ||
+ | * Josh came up with a possible way to transfer models to Fluka from ANSYS. He will get a model to Pavel to see if this works | ||
+ | * The lead bricks are here from SLAC. A PR is written to get them painted | ||
== Action Items == | == Action Items == |
Latest revision as of 16:03, 9 April 2024
Meeting Time and Place
Tuesday, April 09, 2024, 1pm Hall D Counting House
- Invited - Hovanes Egiyan, Stephanie Worthington, Keith Harding, Pavel Degtiarenko, Tim Whitlatch, Eugene Chudakov, Josh Ballard
Agenda
- Review minutes from last meeting https://halldweb.jlab.org/wiki/index.php/March_26,_2024_KLONG_CPS_Design_Meeting
- Review new basic 3D model and compare to Pavel's model (Pavel, Keith)
- Copper Absorber translatable model to Fluka?
- Layout of magnet and components (Stephanie/Keith)
- Power supply status - On order, due March 2025
- Magnet update (Josh/Stephanie) media:CPS Magnet Design_v2.pdf
- Can we use less expensive resin? What is the actual expected radiation levels at coils now?
- Copper cooling update - media:CPS Absorber cooling 8 holes.pdf
- DeGauss test summer 2024
Minutes
- Discussed minutes from last meeting
- Looked at positioning of components in Z. Stephanie has updated the model to the latest.
- Pavel looked at radiation after experiment and it is decided we can remove the poly shielding 1 week after the end of beam in order to move the assy closer to the north wall
- Discussed Magnet design
- High rad resistant resin (CTD403) has hazardous characteristics with cyanide. It may be better (and cheaper) to use a resin such as CTD101K which is much cheaper but still radiation hard (10^5 grey).
- Give Pavel the current magnet model to run in Fluka to determine the needed radiation levels
- Magnet positioned 2cm below beam center
- Discussed the portion of the CPS that will be moved north after experiment
- May be a good idea to move the magnet with the absorber/shielding assembly
- Supporting magnet from the absorber assy support may be useful
- Steel shielding over magnet may be attached (not required) and moved with magnet to keep radiation levels down
- Radiator design
- may be a long shaft to bring motor outside shielding
- may be a rack and pinion or worm gear type of set up
- thick target, thin target and empty space needed
- target will be in air
- Vacuum window downstream of diagnostic girder may be 100um aluminum (2.5 cm diameter)
- Vacuum window on US end of permanent magnet may be Kapton if needed
- Pavel requests a nitrogen purge in copper absorber area
- Copper absorber
- Hovanes shows 52.9KW absorbed from Pavel model 78
- Tim's ANSYS model shows 51.14KW. Maybe ok sine the 8 1/2" water holes are in the model
- Eugene was concerned with brazed joints for water cooling
- After More discussion after the meeting, we will prsue brazing 3/8 inch tube into the absorber
- Keith will work with JLAB vacuum brazing to come up with a prototype model to test
- Josh came up with a possible way to transfer models to Fluka from ANSYS. He will get a model to Pavel to see if this works
- The lead bricks are here from SLAC. A PR is written to get them painted