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Model Details

January 2014

PRY Model 293 - 31/01/2014
Solve Time = 7 hours 5 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
As model 288 but higher resolution in TOF region.

PRY Model 292 - 31/01/2014
Solve Time = 7 hours 8 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
As model 287 but higher resolution in TOF region.

PRY Model 291 - 31/01/2014
Solve Time = 6 hours 53 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
As model 286 but higher resolution in TOF region.

PRY Model 290 - 30/01/2014
Solve Time = 7 hours 40 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
As model 285 but higher resolution in TOF region.

PRY Model 288 - 28/01/2014
Solve Time = 5 hours 23 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Meshed as Model 280 but uTOF steel ran as Air for comparison with model 280.
As Model 280 but using MICE 1010 curve for VP and TOF.
Also run with Gas Panel Blocks.

PRY Model 287 - 28/01/2014
Solve Time = 5 hours 51 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
This has the uTOF cage in the model with the addition of a higher resolution meshed area within the uTOF.
As Model 280 but using MICE 1010 curve for VP and TOF.
Also run with Gas Panel Blocks.

PRY Model 286 - 27/01/2014
Solve Time = 5 hours 53 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Meshed as Model 280 but uTOF steel ran as Air for comparison with model 280.
As Model 280 but using MICE 1010 curve for VP and TOF.
Also run with Gas Panel Blocks.

PRY Model 285 - 27/01/2014
Solve Time = 5 hours 56 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
This has the uTOF cage in the model with the addition of a higher resolution meshed area within the uTOF.
As Model 280 but using MICE 1010 curve for VP and TOF.
Also run with Gas Panel Blocks.

PRY Model 281 - 22/01/2014
Solve Time = 2 hours 39 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Meshed as Model 280 but uTOF steel ran as Air for comparison with model 280

PRY Model 280 - 22/01/2014
Solve Time = 2 hours 57 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
This has the uTOF cage in the model with the addition of a higher resolution meshed area within the uTOF.

Model 135 - 21/01/2014
Solve Time = 60 hours. (hep 21)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - TRD
Momentum: 240 MeV/c
PRY: Yes

As Model 133 but including the SSB.

PRY Model 276 - 24/01/2014
Solve Time = 3 hours 00 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model.
As Model 271 but with tie down slots added to the PRY and with 25kg of mild steel placed in the centre of the bottom of the gas panel volume to emulate the mass of the scroll pump. JFE-EFE steel used in the PRY.

PRY Model 275 - 24/01/2014
Solve Time = 2 hours 56 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model.
As Model 270 but with tie down slots added to the PRY and with 25kg of mild steel placed in the centre of the bottom of the gas panel volume to emulate the mass of the scroll pump. JFE-EFE steel used in the PRY.

PRY Model 271 - 17/01/2014
Solve Time = 4 hours 27 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. This model has had the AFC and SS Gas Panels added (Air Blocks) so that the field in these regions can be examined.
As model 261 but using JFE EFE BH curve instead of AISI1010 on PRY structure.

PRY Model 270 - 17/01/2014
Solve Time = 5 hours 29 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. This model has had the AFC and SS Gas Panels added (Air Blocks) so that the field in these regions can be examined.
As model 260 but using JFE EFE BH curve instead of AISI1010 on PRY structure.

PRY Model 266 - 17/01/2014
Solve Time = 5 hours 49 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. This model has had the AFC and SS Gas Panels added (Air Blocks) so that the field in these regions can be examined.
As model 261 but with approximations to the steel supports added.

PRY Model 265 - 17/01/2014
Solve Time = 5 hours 34 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. This model has had the AFC and SS Gas Panels added (Air Blocks) so that the field in these regions can be examined. As model 260 but with approximations to the steel supports added.

PRY Model 261 - 11/01/2014
Solve Time = 4 hours 12 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - As Built
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. This model has had the AFC and SS Gas Panels added (Air Blocks) so that the field in these regions can be examined.

PRY Model 260 - 10/01/2014
Solve Time = 4 hours 08 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - As Built with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. This model has had the AFC and SS Gas Panels added (Air Blocks) so that the field in these regions can be examined.

Model 134 - 08/01/2014
Solve Time = 53 hours. (hep 21)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - TRD
Momentum: 240 MeV/c
PRY: Yes

As Model 133 but with both the NSW and SSW set to Air. This is run as a full model including the SSB.

PRY Model 251 - 07/01/2014
Solve Time = 6 hours 13 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Flip (centralised) - 'As built' magnet files.
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model.

PRY Model 249 - 07/01/2014
Solve Time = 4 hours 25 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - 'As Built with M1, M2 adj' with E2 adjusted to TRD value.
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. Using the 'As built with M1,M2' magnets but with E2 adjusted to match the Ampere Turns on the TRD magnet Files.

PRY Model 247 - 03/01/2014
Solve Time = 4 hours 01 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - TRD with E2 adjusted to as built.
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. Using TRD magnets but with E2 adjusted to match the Ampere Turns on the As Built Files.

PRY Model 245 - 03/01/2014
Solve Time = 4 hours 11 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - HW with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: Yes
Symmetry: Half Model
Standard resolution Model. Using Holger's as built magnet files with M1, M2 Adjustment, the magnets are centred between the VP. (moved -40mm in z)

PRY Model 244 - 03/01/2014
Solve Time = 1 hour 51 mins. (hep 39)
Model Element Type = Quadratic.
Surface Element Type = Quadratic.
Model Configuration: Step IV
Magnet Configuration: Solenoid (centralised) - HW with M1, M2 Adjustment
Momentum: 240 MeV/c
PRY: No
Symmetry: Half Model
Virostek plates only at standard resolution. Using Holger's as built magnet files with M1, M2 Adjustment, the magnets are centred between the VP. (moved -40mm in z)



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