Presentation is loading. Please wait.

Presentation is loading. Please wait.

ENEN TCP.B6L7.B1: ANALYTICAL AND NUMERICAL EVALUATION OF UNEXPECTED HEATING LHC Collimation Working Group - 10.09.2012 M. Garlasché A. Bertarelli, F. Carra,

Published byMadeline Phelps Modified over 8 years ago

Similar presentations

Presentation on theme: "ENEN TCP.B6L7.B1: ANALYTICAL AND NUMERICAL EVALUATION OF UNEXPECTED HEATING LHC Collimation Working Group - 10.09.2012 M. Garlasché A. Bertarelli, F. Carra,"— Presentation transcript:

1 ENEN TCP.B6L7.B1: ANALYTICAL AND NUMERICAL EVALUATION OF UNEXPECTED HEATING LHC Collimation Working Group - 10.09.2012 M. Garlasché A. Bertarelli, F. Carra, M. Calderon, A. Dallocchio, L. Gentini

2 ENEN EN-MME-PE Marco Garlasché TCP Geometry 204/09/2012 Ref. dwg LHCTCP__0002 2x T-sensor Pt100(Al 2 O 3 case) Glidcop CuNi 304L stainless steel AC 150 Carbon-Carbon

3 ENEN Temperature Data 04/09/2012EN-MME-PE Marco Garlasché ISSUES: General unexpected heating up Cooling down times in the order of days Inconsistency between T sensors (left vs. right; left upstream vs. downstream) 3 17 th July 27 th July Interesting intervals Pt100 readout sets: T [C] time T [C] time

4 ENEN EN-MME-PE Marco Garlasché4 Summary Unexpected heating:  Analytical evaluation of possible cooling conditions (active cooling vs. radiation)  FEM validation (static & transient)  Analytical estimation of instant power deposition Inconsistency of left jaw temperature data  Eccentric P deposition?  Positioning of sensors? Conclusions 04/09/2012

5 ENEN EN-MME-PE Marco Garlasché5 Unexpected heating – active cooling? Fit with only convection (unphysical) leads to heat transfer coeff. values around 4.5 W/m2K (in the range of free convection..) 04/09/2012 Active cooling is not present! Analytical fit of T data (17 th July) Only active cooling (i.e. convection from water flow in pipes) the model used..

6 ENEN 04/09/2012EN-MME-PE Marco Garlasché6 Unexpected heating – what about only radiation? Q RAD T AMB ε SS =0.3 ε CC =0.7÷0.9 ε Cu =0.05÷0.15 Analytical fit of T data (17 th July) Only radiation 1 jaw considered Consistent material data ‘Only radiation’ condition is compatible with T data! TANK1 JAW the model used..

7 ENEN 04/09/2012EN-MME-PE Marco Garlasché7 CaseActive Cooling Contact between absorber & other components (*) P [W] needed for constant 65°C 1√√4300 2X√13 3√X14 4XX7 Unexpected heating – what about only radiation? Results consistent with an. estimation WE CAN RULE OUT: Case 1 – out of range P and t intervals.. (*) Except cooling pipes in case 3 Symmetric FEM analysis Power on absorbers such that initial temperature is met in correspondence of the T sensor

8 ENEN 04/09/2012EN-MME-PE Marco Garlasché WE CAN RULE OUT: Case 3 - not an equilibrium condition Unexpected heating – what about only radiation? Case 3 with reduced active cooling (1 W/m2K)

9 ENEN 04/09/2012EN-MME-PE Marco Garlasché9 Unexpected heating– instant power deposition Only case 2 & 4 analysed Upgraded analytical model considers presence of other jaw P deposition per jaw at different jaw gaps determined starting from T data (17th-24th July) Model benchmarked with estimations (B. Salvant) from RF induced power loss. Case 4 WE CAN RULE OUT: Case 4 – less likely, low P values TANK Case 2

10 ENEN INCONSISTENCY OF LEFT JAW TEMPERATURE DATA 04/09/2012EN-MME-PE Marco Garlasché

11 ENEN 04/09/2012EN-MME-PE Marco Garlasché Left jaw Temperature data Can inconsistency be given by eccentric P deposition? P LEFT =0 W P RIGHT =9 W I.o.t obtain similar T, deposition should be completely eccentric… Case 2 Is inconsistency given by detached T sensor? No contact Case 2 Contact Absence of contact causes only tenths of degree difference T [C] time

12 ENEN 04/09/2012EN-MME-PE Marco Garlasché Left jaw Temperature data Left Jaw max temperatures and cool down profile are not compatible with nominal cooling condition absence of active cooling T [C] time Cool-down curve of left jaw should ‘quickly’ meet the one of right jaw..

13 ENEN 04/09/2012EN-MME-PE Marco Garlasché CONCLUSIONS Unexpected heating:  High T & long cool down intervals, nominal option (1) not possible  Absence of equilibrium and low estimated P, option 3 & 4 not likely  Most likely option is nominal contact between components and no active cooling (i.e. heat evacuation only through radiation)  Good agreement between analytical and FEM evaluations Inconsistency of left jaw temperature data  No active cooling also on left jaw  T LEFT vs. T RIGHT : eccentrical P deposition highly unlikely  T upstream vs. T downstream :sensor not in contact with jaw may only partly cause difference  Sensor not working properly? Readout calibration?

14 ENEN 04/09/2012EN-MME-PE Marco Garlasché Further slides

15 ENEN 04/09/2012EN-MME-PE Marco Garlasché Material Properties: ρ [Kg/m3]C [J/kgK]K [W/mK] AISI 304L793050015 Glidcop8900390365 AC150 C-C170071015&31 CuNi890038040 Al2O3--30

16 ENEN 04/09/2012EN-MME-PE Marco Garlasché16 Unexpected heating – what about only Radiation? Case 1: active cooling ( √ ) contact ( √ ) Case 2: active cooling (X) contact (√) Case 3: active cooling ( √ ) contact (X)Case 4: active cooling (X) contact (X)

17 ENEN 04/09/2012EN-MME-PE Marco Garlasché Emiss Cu 0.15 Emiss Cu 0.05 Q RAD T AMB ε SS =0.4 ε CC =0.7÷0.9 ε Cu =0.05÷0.15 An. Estimation: Comparison for different in range emissivity of Glidcop & CuNi

18 ENEN 04/09/2012EN-MME-PE Marco Garlasché Left jaw Temperature data Is inconsistency given by detached T sensor? Case 2 eccentric P deposition No contact Case 2 Contact Absence of contact causes only tenths of degree difference

19 ENEN 04/09/2012EN-MME-PE Marco Garlasché Temperature Data Comparison with nominal working cooling system (same position on B2) PT100 on beam 1 PT100 on beam 2 70 °C 27 °C

20 ENEN DATA SET : 27 th July 04/09/2012EN-MME-PE Marco Garlasché20

21 ENEN DATA SET : 17 th July 03/08/2012EN-MME-PE

Download ppt "ENEN TCP.B6L7.B1: ANALYTICAL AND NUMERICAL EVALUATION OF UNEXPECTED HEATING LHC Collimation Working Group - 10.09.2012 M. Garlasché A. Bertarelli, F. Carra,"

Similar presentations

How does energy transfer through our atmosphere?

How does energy transfer through our atmosphere?
Thermal Tests Analysis of transient response 29.10.2014 Elena Daskalaki Alex Vamvakas Athanasios Zelios.

Thermal Tests Analysis of transient response Elena Daskalaki Alex Vamvakas Athanasios Zelios.
Chapter 7 : Convection – External Flow : Cylinder in cross flow

Chapter 7 : Convection – External Flow : Cylinder in cross flow
ENEN RF-induced heating on TCTP ferrite: comparison between different support materials 01.10.2012 F. Carra, A. Bertarelli, A. Dallocchio, M. Garlasche’,

ENEN RF-induced heating on TCTP ferrite: comparison between different support materials F. Carra, A. Bertarelli, A. Dallocchio, M. Garlasche’,
Mike Fitton Engineering Analysis Group Design and Computational Fluid Dynamic analysis of the T2K Target Neutrino Beams and Instrumentation 6th September.

Mike Fitton Engineering Analysis Group Design and Computational Fluid Dynamic analysis of the T2K Target Neutrino Beams and Instrumentation 6th September.
Analysis of Simple Cases in Heat Transfer P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Gaining Experience !!!

Analysis of Simple Cases in Heat Transfer P M V Subbarao Professor Mechanical Engineering Department I I T Delhi Gaining Experience !!!
R.Valbuena NBI 14-19 March 2002 CNGS Decay Pipe Entrance Window Structural and Thermal Analysis A.Benechet, P.Cupial, R.Valbuena CERN-EST-ME.

R.Valbuena NBI March 2002 CNGS Decay Pipe Entrance Window Structural and Thermal Analysis A.Benechet, P.Cupial, R.Valbuena CERN-EST-ME.
ME 322: Instrumentation Lecture 20 March 6, 2015 Professor Miles Greiner myDAQ A/D converter, temperature uncertainty, First-order, centered numerical.

ME 322: Instrumentation Lecture 20 March 6, 2015 Professor Miles Greiner myDAQ A/D converter, temperature uncertainty, First-order, centered numerical.
Cooling Hot Chocolate in an insulated container James Jackson and Jordan Peterson.

Cooling Hot Chocolate in an insulated container James Jackson and Jordan Peterson.
Matt Robinson Thomas Tolman.  Describes Convective Heat Transfer  Needed for all external and internal flow situations.

Matt Robinson Thomas Tolman.  Describes Convective Heat Transfer  Needed for all external and internal flow situations.
Engineering Department ENEN Choice of the material for TCTP ferrite supports Collimation Working Group 22.04.2013 F. Carra, G. Cattenoz, A. Bertarelli,

Engineering Department ENEN Choice of the material for TCTP ferrite supports Collimation Working Group F. Carra, G. Cattenoz, A. Bertarelli,
PAX DETECTOR THERMAL SIMULATION 1Vittore Carassiti - INFN FEFz-Juelich, 27/10/2008.

PAX DETECTOR THERMAL SIMULATION 1Vittore Carassiti - INFN FEFz-Juelich, 27/10/2008.
Engineering Department ENEN 16/08/2013 LR - BBC Pre-Study 1 STATUS of BBC DESIGN and ENGINEERING : PRELIMINARY RESULTS G. MAITREJEAN, L. GENTINI.

Engineering Department ENEN 16/08/2013 LR - BBC Pre-Study 1 STATUS of BBC DESIGN and ENGINEERING : PRELIMINARY RESULTS G. MAITREJEAN, L. GENTINI.
Dynamic thermal rating of power transmission lines related to renewable resources Jiri Hosek Institute of Atmospheric Physics, Prague, Czech Rep.

Dynamic thermal rating of power transmission lines related to renewable resources Jiri Hosek Institute of Atmospheric Physics, Prague, Czech Rep.
MECHANICAL DESIGN OF TCSP COLLIMATORS Secondary Collimators Embedding BPMs L. GENTINI, A. Dallocchio, A. Bertarelli, F. Carra, M. Garlasche.

MECHANICAL DESIGN OF TCSP COLLIMATORS Secondary Collimators Embedding BPMs L. GENTINI, A. Dallocchio, A. Bertarelli, F. Carra, M. Garlasche.
HMRT23: Overview of calculations performed HRMT23 Internal Review, 3/7/2014 F. Carra, M. Garlasché, P. Gradassi, G. Maitrejean, A. Salgado Paz EN-MME-EDS.

HMRT23: Overview of calculations performed HRMT23 Internal Review, 3/7/2014 F. Carra, M. Garlasché, P. Gradassi, G. Maitrejean, A. Salgado Paz EN-MME-EDS.
Collimation Meeting 30.07.2012 Tests on a Fully Assembled TCT Collimator in the HiRadMat Facility M. Cauchi, D. Deboy, on behalf of the Collimation Team.

Collimation Meeting Tests on a Fully Assembled TCT Collimator in the HiRadMat Facility M. Cauchi, D. Deboy, on behalf of the Collimation Team.
Engineering Department ENEN Status of TCSP manufacturing Collimation Working Group (CWG) 24 June 2013 A. Dallocchio, A. Bertarelli, F. Carra, L. Gentini,

Engineering Department ENEN Status of TCSP manufacturing Collimation Working Group (CWG) 24 June 2013 A. Dallocchio, A. Bertarelli, F. Carra, L. Gentini,
LHC Phase II Collimator Compact jaw simulations New FLUKA => ANSYS mapping scheme New 136mm x 950mm jaw –60cm primary collimator –Helical cooling channel.

LHC Phase II Collimator Compact jaw simulations New FLUKA => ANSYS mapping scheme New 136mm x 950mm jaw –60cm primary collimator –Helical cooling channel.
06-November-2013 Thermo-Mechanical Tests BE-RF-PM Review of the CLIC Two-Beam Module Program Thermo-Mechanical Tests L. Kortelainen, I. Kossyvakis, R.

06-November-2013 Thermo-Mechanical Tests BE-RF-PM Review of the CLIC Two-Beam Module Program Thermo-Mechanical Tests L. Kortelainen, I. Kossyvakis, R.

Similar presentations

Ads by Google