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Beam induced heating assessment on LHC beam screens Arcs + DSs + ITs L. Tavian LBOC, 27 September 2011.

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Presentation on theme: "Beam induced heating assessment on LHC beam screens Arcs + DSs + ITs L. Tavian LBOC, 27 September 2011."— Presentation transcript:

1 Beam induced heating assessment on LHC beam screens Arcs + DSs + ITs L. Tavian LBOC, 27 September 2011

2 Assessment method (I) Assessment of the mass flow using the flow characteristics of the BS loop control valves: – Main issue: the rangeability R of the valves are not known ! (specified at 50 but a large dispersion suspected) kv_max_Arc = 0.39 m 3 /h kv_max_Arc34= 0.22 m 3 /h kv_max_IT= 0.26 m 3 /h

3 Assessment method (II) Without beam (Q bs = 0) – Enthalpy balance with Pc, Tc, Tout, Q S & Q EH allows to calculate m 0 – m 0, Pc, Tout, Pd, %, kv_max allow to calculate R With beam: – R, %, kv_max, Pc, Tout & Pd allow to calculate m (In some cases, possible cross-check by enthalpy balance with Pc, Tc, Q s, Q EH and Tin : Thermal mass-flow meter) – Enthalpy balance with m, Q s, Q EH, Pc, Tc, Tout, allows to calculate Q bs

4 What about: What about: Pout= Pc (~3 bar) ? Up to 100 W: - OK for Arc half-cell (DP < ~5 % of Pc) - Not true for IT loop (more iteration required!) Reminder: Arc half-cell: 4 capillaries in // IT string: 2 capillaries in //

5 Two typical behaviors for Arc and DS 29L6 left 15R5 right Behavior with a power peak correlated with energy ramp Behavior within expected SR + IC loads (reduced power peak)

6 Fill 1836 (02/06/2011): Arc + DS Qbs (SR+IC scaled w/r to DR) Qbs (SR+IC+EC scaled w/r to DR) Half-cell Half-cell with wrong BS type Bunch spacing: 50 ns Bunch number: 1092 Bunch length: 1.13 ns Beam intensity: 1.27E14 p Bunch intensity: 1.13E11 p Some outliers w/r to DR scaling

7 Fill 1852 (05/06/2011): Arc + DS Bunch spacing: 50 ns Bunch number: 1092 Bunch length: 1.22 ns Beam intensity: 1.29E14 p Bunch intensity: 1.18E11 p Qbs (SR+IC scaled w/r to DR) Qbs (SR+IC+EC scaled w/r to DR) Half-cell Half-cell with wrong BS type

8 Fill 2022 (12/08/2011): Arc + DS Bunch spacing: 50 ns Bunch number: 1380 Bunch length: 1.19 ns Beam intensity: 1.79E14 p Bunch intensity: 1.30E11 p Qbs (SR+IC scaled w/r to DR) Qbs (SR+IC+EC scaled w/r to DR) Half-cell Half-cell with wrong BS type

9 Fill 2025 (13/08/2011): Arc + DS Bunch spacing: 50 ns Bunch number: 1380 Bunch length: 1.23 ns Beam intensity: 1.86E14 p Bunch intensity: 1.35E11 p Qbs (SR+IC scaled w/r to DR) Qbs (SR+IC+EC scaled w/r to DR) Half-cell Half-cell with wrong BS type

10 Fill 2022 (12/08/2011): Sector 56 Beam induced heating on 52 BS (Arc + DS) Peak correlated with energy ramp and/or bunch compression! e-cloud? (but no energy and bunch- length dependence in scaling laws!) Recovery of expected SR+IC loads after 1-2 hours!  Correct BS impedance!

11 Beam-induced heating: Scaling laws Beam-induced loadEnergy E Bunch Population N bunch Bunch Number n bunch Bunch Length σ z [rms] Beam- screen aperture b Temp. Level Synchrotron radiationE4E4 N bunch n bunch BS Image currentE 0.5 N bunch 2 n bunch σ z -3/2 b -1 BS Photo-electron cloud?N bunch 3 n bunch ? b -2 BS Beam gas scatteringN bunch n bunch CM

12 Rangeability distribution ? (416 valves (Arc + DS)) ? Specification ! Average: 32

13 Location of valves having R > 40

14 Heating with valves having R>40 Fill 2022 (12/08/2011) Qbs (SR+IC scaled w/r to DR) Qbs (SR+IC+EC scaled w/r to DR) Half-cell Half-cell with R > 40

15 Fill 2022 & 2025 (12-13/08/2011): Inner Triplets Fill 2022 Fill 2025 L1, R1 R2 L5, R5 L2 L8, R8 HL more correlated to beam injection

16 Steady state beam-induced loads according to the Design Report Design Report data Today for the ITs already a factor 1.3 to 2 w/r to the nominal values of the complete LSS (IT + MS) ! (but with a larger bunch population) Local limitation due to valve size and BS pressure drop: ~150 W

17 Beam-induced heating: Scaling laws Beam-induced loadEnergy E Bunch Population N bunch Bunch Number n bunch Bunch Length σ z [rms] Beam- screen aperture b Temp. Level Synchrotron radiationE4E4 N bunch n bunch BS Image currentE 0.5 N bunch 2 n bunch σ z -3/2 b -1 BS Photo-electron cloudN bunch 3 n bunch b -2 BS Beam gas scatteringN bunch n bunch CM

18 Fill 1836: Inner triplets with nominal bunch population & 1092 bunches Scaling to nominal beam (2808 bunches i.e. factor 2.6): 130 W ! (Just OK with local limitation)

19 Conclusion A new method is available for beam induced heating assessment on the LHC beam screens. First analyses: – Confirm the strong dependence of the peak value of beam induced heating with the bunch length. – Do not show yet specific issues due to wrong beam-screen types in S34… but according to TE-VSC, BS saw-teeth are not efficient below 3.5 TeV. – Confirm that extra transient heating (e-clouds? other?) is generated in the Arcs/DS by the ramp in beam energy. If this transient heating is due to e- clouds: Confirmation of the dependence of e-cloud w/r to beam energy and or bunch length. What about beam scrubbing scenario ? (today only at 450 GeV). – Relax the worry about possible local impedance degradation (PIMs contacts,…). – Confirm that, w/r to the Design Report, the beam induced heating is: For the Arc/DS: Well within the expected value scaled from the DR (if the bunch length is not too small – see fill 1836)… but the nominal bunch length is 1.06 ns For the Inner Triplets: Already above the nominal value (factor ~2) and at about 50 % of the local cooling limitation. – Confirm that the rangeability of BS control valves is not very good (~30 in average for 50 specified). A distribution singularity still to be understood

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