Fatigue and Fracture Mechanics Based FFS Assessment of ... · – Stiffness of piping determined...
Transcript of Fatigue and Fracture Mechanics Based FFS Assessment of ... · – Stiffness of piping determined...
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Fatigue and Fracture Mechanics Based FFS
Assessment of Vessels Subjected to High Frequency
Nozzle Vibrations
by
Bill Macky of MESL
in conjunction with
Matrix Applied Computing Ltd
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Introduction
– Contact Energy have several separators undergoing first inspection.
– Variety of vessel manufacturers with different designs and the vessels installed
in different geothermal fields.
– Post commissioning it was apparent that all main inlet nozzles are subject to
relatively high frequency vibration loads.
– Purpose of the analysis brief was to determine critical crack sizes for the
inspection authority to allow an “on the spot” FFS assessment if cracks were
discovered during the inspections
– Decisions
– Cracks benign
– Immediate Repair Required
– Cracks to be repaired at future planned shutdown
– Cracks to be re-inspected during future shutdowns
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Typical Separator
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Typical Separator
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Tri-axial Accelerometer
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Inherent difficulties
– There was some current vibration data but measured well away from the nozzle
– More data requested close to the inlet nozzle flange.
– Displacement measured in 3 orthogonal directions for 1 hour
– Later realised this does little to define the load causing the measured
displacements.
– Possible scenarios are upstream loads at tees and elbows or slugs impacting on
vessel.
– Most existing FEA models required modification to make suitable for this
analysis.
– Some separators did not have pipestress models which had to then be
developed
– Analysis and reports to be done prior to inspections (time constraints)
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– Data analysis
– Determined frequency content – some correlation with natural frequencies of
system.
– Checked if time duration sufficient by comparing two halves of data
– Effect of binning compared with “no binning”
– Some surprising data on Te Mihi units – very large displacements on one unit–
identified as probably caused by slug of water hitting side of lemniscate wall
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- Large event at 1700 seconds – Causes ½ of all damage
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- Large event detail – in phase suggesting the driving cause
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After the event – back to normal, fundamental indicated in transverse trace
Scale 20 times previous slide
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– Conversion of Displacements to Stresses around the Nozzles
– Unless the actual load application point is known, stresses cannot be
determined from an applied displacement (or displacement plus rotation)
– Displacements and rotations have to be known at the boundaries of the area of
interest and also the loads in the area need to be known.
– Loads due to an enforced displacement are dependent on the system stiffness
including that of the attached piping.
– Stiffness of piping determined from the AutoPIPE model using a stiffness matrix
approach.
– Effective stiffness matrix of piping upstream of FEA model included by using a
connector element with all stiffness matrix terms included (procedure verified on
test models)
– Three different loading locations used (to allow for lack of knowledge of
application point) to give unit displacements (with associated rotations) in each
of the 3 orthogonal direction at the measurement point.
– Stresses could then be linearly scaled to get stress amplitudes in regions of
interest due to the measured displacement.
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– FEA models
– Relatively fine mesh in regions around the nozzle.
– Shell element models with all the inherent limitations in the region of the welds
(plate junctions)
– Models extended by including some piping upstream of nozzles modelled with
shell elements and the model terminated with an appropriate stiffness matrix
element.
– 19 locations around the nozzles chosen and stress paths defined perpendicular
to the plates using local coordinate systems
– Underlying stress due to internal pressure and nozzle loads extracted for Failure
Assessment Diagram (FAD)
– Stress amplitudes due to vibrations extracted for crack growth studies
– Stresses extracted using various interpolation procedures.
– Stress variation through the plate thickness at each location determined using
the membrane and upper and lower surface stresses
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Typical Separator showing plate thickness with nozzle extended
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Typical Separator showing global FEA mesh
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Typical Separator showing zoomed in FEA mesh
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Operating von Mises stress (MPa) for a separator
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Typical Separator showing location of paths for stress extraction
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Typical Separator showing path where stresses extracted
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Typical Separator showing stress variation in region of weld due to
measured displacements
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– Critical Crack Size FFS assessment
– Underlying stress distribution determined from internal pressure and nozzle
loads
– Stresses at the 19 locations (more on other vessels) used to calculate the critical
crack size at that location using code based stress intensity and reference stress
solutions to produce Failure Assessment Diagrams (FADs).
– Determine failure either by rapid crack propagation or failure of remaining
ligament
– Considered surface breaking on inside and outside surfaces
– Also embedded located at ¼, ½ and ¾ through
– Crack lengths 2 x thick and 500mm (long but not infinite for surface, infinite for
embedded).
– Above information then formed basis of crack growth study.
– Cracks described in terms of overall dimensions, rather than ellipse measure.
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– Crack Growth Study
– Used a Paris law – essentially looking crack growth due to the change in stress
intensity caused by time varying loads.
– Took lower bound stress intensity as per the code of 2 MPa√m.
– Critical question to answer was, given a crack length and depth below surface
and crack growth rate, what did the crack size need to be such that after 2 years
and 30 years growth, it reached the critical size determined by FAD limit.
– Crack growth rate was adjusted as crack geometry developed.
– Used an approximate curve fitting procedure for Paris law for different values of
stress intensity – greatly sped up growth study with little loss of accuracy.
– Thus at each designated location around the nozzle/shell/pad locations
determine a crack size for embedded or surface cracks that would allow an
inspector during an NDT which found a crack at some location to be able to
decide if it needed to be repaired immediately (failed FFS) or needed to be
repaired within 2 years or could be ignored as benign.
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– Numerical Difficulties
– There are rules covering whether a crack is treated as embedded or surface
breaking
– Thus during a crack growth study where the crack could grow in depth upwards
or downwards, a crack could suddenly jump from embedded to surface breaking
and thus required different analytic equations.
– Literally 1000’s of critical crack sizes developed and thus computationally
difficult.
– Often for relatively large crack growth rates time step had to be small to capture
the growth leading to long computational times.
– Software logic difficult, often with many branches in producing a solution
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Typical Crack Depth Limit showing effect of re-characterisation to surface
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Typical Separator showing surface crack growth to failure
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Typical Separator showing FAD with surface crack growth to failure
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– Documented Results
– Comprehensive table of allowable crack sizes for each of the 3 assumed
location points
– Summary for vessel highlighting results.
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Table showing crack growth over 2 years for 3 separators
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Table showing maximum crack sizes for the criteria
(small crack sizes still of interest in red)
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– Conclusions
– Probably at least 5 times the effort initially envisaged – aged all involved about
10 years!
– Results have been used in the recent inspections working with the client and
inspection authority.
– Have developed a procedure that can be used in the future
– Need to come up with a better way of getting measurement data to allow a more
accurate assessment of stress and strain variation – perhaps the basis of some
research work involving strain gauging once a methodology has been posited
and tested numerically.
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Questions?