The project High Luminosity Large Hadron Collider (HL-LHC) calls for a streaking beam intensity and brightness in the LHC machine. In such a scenario, beam-environment electromagnetic interactions are a crucial topic: they could lead to uneven power deposition in machine equipment. The resulting irregular temperature distribution would generate local thermal gradients, this would create mechanical stresses which could lead to cracks and premature failure of accelerator devices. This work presents a method to study this phenomenon by means of coupled electro-thermomechanical simulations. Further, an example of application on a real HL-LHC device is also discussed.
A multi-physics approach to simulate the RF heating 3D power map induced by the proton beam in a beam intercepting device / Teofili, Lorenzo; David Carbajo Perez, ; Francesco, Giordano; Inigo Lamas Garcia, ; Giacomo, Mazzacano; Migliorati, Mauro. - (2018). [10.18429/jacow-ipac2018-thpak093].
A multi-physics approach to simulate the RF heating 3D power map induced by the proton beam in a beam intercepting device
TEOFILI, LORENZO;Mauro Migliorati
2018
Abstract
The project High Luminosity Large Hadron Collider (HL-LHC) calls for a streaking beam intensity and brightness in the LHC machine. In such a scenario, beam-environment electromagnetic interactions are a crucial topic: they could lead to uneven power deposition in machine equipment. The resulting irregular temperature distribution would generate local thermal gradients, this would create mechanical stresses which could lead to cracks and premature failure of accelerator devices. This work presents a method to study this phenomenon by means of coupled electro-thermomechanical simulations. Further, an example of application on a real HL-LHC device is also discussed.| File | Dimensione | Formato | |
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