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3.9 GHz Cryomodule Transport December 17, 2007 Mike McGee, Chuck Grimm & Warren Schappert 3.9 GHz CM Transport Review.

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Presentation on theme: "3.9 GHz Cryomodule Transport December 17, 2007 Mike McGee, Chuck Grimm & Warren Schappert 3.9 GHz CM Transport Review."— Presentation transcript:

1 3.9 GHz Cryomodule Transport December 17, 2007 Mike McGee, Chuck Grimm & Warren Schappert 3.9 GHz CM Transport Review

2 Courtesy of DESY 3.9 GHz Cryomodule Shock Evaluation 4th T4CM Workshop at FermilabMike McGee and Chuck Grimm, 20 Jul 07 Preliminary Shock Criteria: 4g Vertically 5g Axially (along beamline) 0.5g Transverse To be updated for 3.9 GHz, based on impact properties of materials at RT (e.g. input coupler, study by D. Olis and Germano G.) T. Whitlatch et al., “SHIPPING AND ALIGNMENT FOR THE SNS CRYOMODULE”

3 Courtesy of DESY 3.9 GHz Cryomodule Shock Evaluation 4th T4CM Workshop at FermilabMike McGee and Chuck Grimm, 20 Jul 07 Base Frame Isolators Fork Truck Dummy Load (w/ lower C.G.)

4 Courtesy of DESY Preliminary 3.9 GHz Transport Fixture Vertical Shock Results  Drop tests using a fork truck Geophones and accelerometers were used to evaluate isolator designs at maximum shock load (~ 8-g vertical)  Isolators Coil type Goodyear air spring type  Inflated to 35 psi  Inflated to 50 psi  Inflated to 80 psi 4th T4CM Workshop at FermilabMike McGee and Chuck Grimm, 20 Jul 07

5 Courtesy of DESY Transverse Displacement Response to Vertical Shock Coil Isolator (blue-line) had the least displacement with the quickest recovery 4th T4CM Workshop at FermilabMike McGee and Chuck Grimm, 20 Jul 07 Under-damped systems

6 Courtesy of DESY Coil Versus Air Spring Isolator Design 4th T4CM Workshop at FermilabMike McGee and Chuck Grimm, 20 Jul 07  Coil design benefit over air spring Reduces shock to roughly same level Handles greater shear loads Reduces vibratory motion after impact Leads to greater over-the-road stability Offers passive design (no maintenance) Reduced failure rate

7 Courtesy of DESY 3.9 GHz CM Transport Philosophy  Two Tier System Applied Relatively stiff (slightly under-damped) isolation system with shock reduction of 1/2 Require an air ride trailer to/from Airport Supervision of transitions (loading/unloading) Specific details of transport have been discussed with American Overseas Transport (AOT) Mike McGee, 28 Nov 07JLab Presentation

8 3.9 GHz Cryomodule Transport Studies  Characterize vibratory motion in terms of displacement and frequency Measurement of excitation frequencies  For example, a diesel engine running at 1400 rpm has a 23.3 Hz excitation frequency  Measurement of shock loads during transport Found from our experience with 1.3 GHz coldmass transport that air ride trailer provided good protection against shock 3.9 GHz CM Transport Mini-ReviewMike McGee, Chuck Grimm & Don Mitchell, 9 Nov 07

9 Modal Studies 3.9 GHz CM Transport Review  Modal analysis can provide resonant frequencies, mode shape, ect…  Determine appropriate instrumentation location  Confirm and refine analytic models (such as FEA) M. McGee, C. Grimm & W. Schappert, 17 Dec 07

10 Courtesy of DESY Preliminary Results  Coldmass Mockup transport Dry run results (excitation frequencies) Ringing of Mockup (resonant frequencies) Transport of Coldmass Mockup 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

11 Courtesy of DESY 3.9 GHz Coldmass Mockup (fft) Data 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Excitation FrequenciesResonant Frequencies

12 Courtesy of DESY 3.9 GHz Coldmass Mockup Table 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 ModeDirection FEA (Hz) Ringing (Hz) Dry Run (Hz)Comment(s) x & y5 z7 9 x, y & z10.8 1z14.314 Movement at support brackets x, y & z16 2y16.8Frame movement 3z22.424 Movement at support brackets 4y22.9Coldmass movement z27 5z30.731Frame movement

13 Courtesy of DESY 3.9 GHz Coldmass Mockup Table 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 ModeDirection FEA (Hz) Ringing (Hz) Dry Run (Hz)Comment(s) 6y31.431HeGRP movement 7x36.335Coldmass twist x, y & z37 8y37.9Local GRP movement x, y & z41 9z42.242 Mid support bracket movement x, y & z45 10x & y51.5Coldmass twist x, y & z55

14 Courtesy of DESY 3.9 GHz Cryomodule Mockup Results  Cryomodule Mockup transport Dry run results (excitation frequencies) Ringing of CM Mockup (resonant frequencies) Transport of CM Mockup  Peak Shock  Acceleration (rms) versus Truck Speed  Shock of Transitions 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

15 Courtesy of DESY 3.9 GHz Cryomodule Mockup (fft) Data 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Excitation FrequenciesResonant Frequencies

16 Courtesy of DESY 3.9 GHz Cryomodule Mockup Table 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 DirectionRinging (Hz)Dry Run (Hz) x & y5 z5 9 x, y & z10.8 z & y15 x, y & z16 z27 z & y34 x, y & z37 x, y & z41 z43 x, y & z45 x, y & z55 z57 Longitudinal resonant condition (at 5 Hz) can be addressed by constraining ends

17 Courtesy of DESY Initial Transport Study Truck Speed 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Study on Fermilab Site (36 mph Max.)

18 Courtesy of DESY Initial Transport Study Peak Shock 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 GPS data used to estimate acceleration/de-acceleration of truck

19 Courtesy of DESY Peak Shock on Cavities (transverse (x)) 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Cavity #4 had only 3 (of 4) bearing lug supports Noticed instability of partially supported cavity #4

20 Courtesy of DESY Off-Site Transport Study Truck Speed 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Study taken off-site onto I-88 (57 mph Max.)

21 Courtesy of DESY Vertical Peak Acceleration (Shocklog) 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

22 Courtesy of DESY Transverse Peak Acceleration (Shocklog) 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

23 Courtesy of DESY Longitudinal Peak Acceleration (SL) 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

24 Courtesy of DESY Fixture (x) Acceleration Vs Truck Speed 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Large transverse acceleration with increasing truck speed!

25 Courtesy of DESY Fixture (z) Acceleration Vs Truck Speed 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Large longitudinal acceleration with increasing truck speed!

26 Courtesy of DESY Cavity (x) Acceleration Vs Truck Speed 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Large longitudinal acceleration also seen at cavities

27 Courtesy of DESY Transition Points (Loading Truck) 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Transverse peak shock load while moving with crane Averaged fft during move

28 Courtesy of DESY Preliminary Observations 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07  During the coldmass transport studies in November our isolation system was much softer with a natural frequency ~ 4Hz  Results for the coldmass transport show peak acceleration of 1.5 g (in any direction) while moving at 40 mph

29 Courtesy of DESY Preliminary Observations 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07  Natural frequency of our current system ~ 5 Hz is overly stiff  During the cryomodule transport studies we have found resonant conditions at low frequency  Below ~5 Hz resonant conditions induce large transverse (x) and longitudinal (z) accelerations  Above 5 Hz, this system damps shock very well

30 Courtesy of DESY Transport Improvements 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07  Soften isolation system down to ~4 Hz  Orientate vertical cavity geophones upward

31 Courtesy of DESY Base Frame & Isolation Fixture Design Low Profile Cradle Design 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07 Out-riggers for securing

32 Courtesy of DESY Update of Constraints for Transport  Addition of constraints for cold post supports (in 6 dof) 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

33 Courtesy of DESY Alignment  As found before/after transport to assess impact of transport to alignment  Alignment Panel Design & Function 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

34 Courtesy of DESY Devices & Supporting Equipment  NI 24-Bit resolution 4-channel module Digitizer with USB connection to Laptop  6 Modules (24-channel system)  System can be expanded to support 32- input channels  5K per second sample rate 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

35 Courtesy of DESY Geophone – Shocklog Correlation  Shocklog (tri-axial accelerometer) data- logging device designed for transport  Hammer tests at random g-loads Geophones are calibrated against Shocklog devices in terms of g-loading 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

36 Instrumentation Configuration  18 Geophones 3 geophones per cavity (x, y and z) evenly spaced in z (longitudinally) 3 geophones on isolation fixture (in x, y and z) 3 geophones on base frame (in x, y and z) Geophones cannot be attached during actual transport to DESY Addition  Accelerometer on bellows  Geophones on adjacent flanges 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

37 Courtesy of DESY Instrumentation Configuration  Actual transport instrumentation is limited to (3) Shocklog devices  A Shocklog device has three internal accelerometers (in x, y and z) Shocklog “A” on base frame Shocklog “B” on isolation fixture Shocklog “C” on Cryomodule  Geophone to Shocklog correlation Used as comparison to geophones Post Transport to DESY Evaluation 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

38 Courtesy of DESY Current Instrumentation Configuration 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

39 Courtesy of DESY Carrier Support  American Overseas Transport (AOT) Supervised shipment Cap ends of 3.9 GHz CM vacuum vessel and pressurize with dry N2 Jacket for vacuum vessel and monitor assembly temperature Apply foam clam-shell connections at warm end of ICs (no rigid connects to vacuum vessel) Constrain beamline ends 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

40 Courtesy of DESY Transport Shock & Vibration Data 3.9 GHz CM Transport Mini-Review  Transportation Load Limit Factors (NASA) Loads in terms of “g” or peak Does not consider accumulate effect of repeated loads of varying magnitudes and frequencies  Air: +- 0.5 (z), +- 2.5 (x) & +- 2.5 (y)  Truck: +- 3.5 (z), +-2 (x) & + 6 (y) Mike McGee, Chuck Grimm & Don Mitchell, 9 Nov 07

41 Courtesy of DESY Transport Shock & Vibration Data 3.9 GHz CM Transport Mini-Review  Lufthansa (G-forces for cargo aircraft) Shipment must withstand 9 g’s fore/apt (longitudinal), 3 g’s vertical Source: Jim Hammond of Clarke Packing & Crating Co. (Contracted by AOT) M. McGee, C. Grimm & W. Schappert, 17 Dec 07

42 Courtesy of DESY Thank You! 3.9 GHz CM Transport ReviewM. McGee, C. Grimm & W. Schappert, 17 Dec 07

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