Download - LIFTECH - Container Crane Design
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Container Crane DesignSTEER March 2007STEER March 2007
Erik Soderberg, S.E.Lift h C lt t ILiftech Consultants Inc.
www.liftech.net
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Liftech Overview
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Topics
Container Crane Overview
Design Criteria
Design ConsiderationsFatigue and ReliabilityFatigue and ReliabilityStorm Wind LoadsD i RDynamic Response
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Terminal Cross Section
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Crane Operation
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A-Frame
Articulated Boom
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Low Profile
Operating
Stowed
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Crane Size
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Dual Hoist Tandem 40Lifted Load up to 140 metric tonsLifted Load up to 140 metric tons
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Triple 40p
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Typical Boom Sections
Monogirder
Twin Girder
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Crane Design CriteriaPerformance based design specification No “Building Code”Designed to 90% of yield for expected overloadsProof load = 125% of rated load
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Fatigue and Reliability
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Fatigue and Reliabilityg y
1. Calculate Fatigue and Design for Specified Reliability2. Consider Details in Series3. Use Fatigue Tolerant Details
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Damage Tolerant DesignAllowable Cumulative DamageAllowable Cumulative DamageThe allowable damage in all specifications assumes a probability of failure of about 2.5%.BS 7608 assumes a probability 2.3%.This is based on:
Typical Design
ty
0.99860.97730.8423
Reliability
Rel
iabi
lit0.5000
Normal GaussianDistribution
0.0000Mean 2d1d 3d
d = 1 standard deviation
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PWM
Structural Details
ABBy ApprovedL I F T E C H C O N S U L T AN T S I N C .
Members in Series
RELIABILITY OF SYSTEM SHALL BECALCULATED BY DETERMINING THERELIABILITY “D” OF EACH LINK INCLUDING ALLCONNECTION DETAILS, AND CALCULATING THE
Structural MemberTYPICAL FORESTAY EXAMPLES
CONNECTION DETAILS, AND CALCULATING THERELIABILITY OF THE SYSTEM USING:
DSYSTEM = DA x DB x DC … DN
FOR EXAMPLE, THE RELIABILITY OF LINK A ISD = D1 x D2 x D3 x D4 x D5 x D6 x D7 x D8
THE VALUES OF Di ARE FOUND FROM TABLEFOR EACH Ri.Structural Member
Reliability – Consider Details in Series
NOTICE WHEN R < 0.4, D = 1AND WHEN THE CALCULATED STRESS RANGEIS < 0.74 X ALLOWABLE STRESS RANGE, R < 0.4.
NOTES: HOLE CLASS F MAY BE USEDFOR AVERAGE STRESS OR DETAILMAY BE ANALYZED USING STRESSCONCETRATION FACTOR.
N:\Liftech\Library Resources\Cranes\Specif ications\!StdSpecDocuments\structdetl7-11.vsd
Date Sht. ofJob No./Name S11 S11
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Fatigue Tolerant Details
AcceptableUnacceptableCirca 1965
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PWM ABBy ApprovedL I F T E C H C O N S U L T A N T S I N C .
Liftech Structural DetailsLiftech Standard S
Not Acceptable Acceptable
Structural Details p Acceptableeta s
Avoid Edge Distance
Date Sht. ofJob No./Name
Not Acceptable Acceptable
S1 S11
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PWM ABBy ApprovedL I F T E C H C O N S U L T A N T S I N C .
Hold welds back 10 mmP id li f h l
Structural Details
Provide relief holes
Not Acceptable Acceptablep p
Make plate centerlines coincident
Date Sht. ofJob No./Name
Not Acceptable Acceptable
S2 S11
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PWM ABBy ApprovedL I F T E C H C O N S U L T A N T S I N C .
Structural Details
Provide relief holes to reduce stress
PLATE b SLOTTED PLATE b SLOTTEDreduce stress concentration and discontinuities at ends of let in platesof let-in plates
Date Sht. ofJob No./Name
Not Acceptable Acceptable
S3 S11
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PWM ABBy ApprovedL I F T E C H C O N S U L T A N T S I N C . PWM ABBy ApprovedL I F T E C H C O N S U L T AN T S I N C .
Structural Details
Continued from Sht. S8.
Avoidance of Wrap Around WeldAcceptable
Structural DetailsSee Sht. S9 for Isometric View
Avoidance of Wraparound WeldAcceptable
PLAN
ELEVATION
Date Sht. ofJob No./Name
ISOMETRIC VIEW
S9 S11
N:\Liftech\Library Resources\Cranes\Specif ications\!StdSpecDocuments\structdetl7-11.vsd
Date Sht. ofJob No./Name S8 S11
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Connection Strength > Member Strength> Member Strength
Kobe Earthquake
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Through Thickness Joint RequirementsRequirements
Material Requirement Weld Requirement
For plates and sections subjected to th h thi k O C S O G
FOR COMPONENTSCARRYING CALCULATEDAXIAL STRESS
through thickness stresses, the material shall comply with ISO 7778 Steel
FOR FCMS: THE THROUGHTHICKNESS, YIELD, DUCTILITY, ANDCVN PROPERTIES SHALL COMPLYWITH THE REQUIREMENTS FOR INPLANE TENSION PLATES.
UT 100%
FILLETSIZE t/4BUT ATwith ISO 7778, Steel
Plate with specified through thickness characteristics
BUT ATLEASTAWS MIN.t
characteristics.U.T. TO CHECK FOR LAMELLARTEARS BEFORE WELDING AND36 HOURS AFTER WELDING.
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Wind Loads
Hurricane Katrina. Source: www.nhc.noaa.gov
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Wind Tunnel TestingDesign force coefficientsDesign force coefficientsDynamic response factor
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Wind Tunnel TestsTypical results Wind Tunnel
Test
Force
Test
Liftech E tiEquations
0 45 90 135 180
Angle of Attack
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Crane Securing ComponentsFree Body Diagram – Wind LoadingFree Body Diagram – Wind Loading
Ti DSt Pi Tie-DownStowage Pin
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Tie-downs
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Stowage Pin System
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Hurricane Wind Failures
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Wharf HardwareWharf connection may fail due to improper design …
and/or… and/or fabrication
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Typical Failure Modes: Fabrication Wharf tiedown anchorage: Anchor rods pulled out of wharfWharf tiedown anchorage: Anchor rods pulled out of wharf
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Dynamic Response
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Design for Tipping
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Design for Ductile Yielding
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Design For IsolationIsolation Between Lower Leg and Portal
BeamBeam
Liftech
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Isolation DetailIsolation Between Lower Leg and Portal Beam
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Hotel in China
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Summary
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Container Crane Design ConsiderationsConsiderationsSTEER March 2007
This presentation is available for downloadwww liftech netwww.liftech.net
Erik Soderberg, S.E.Liftech Consultants Inc.
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Dynamic ResponseT = 3.89 sec
Low Profile Study: Significant Modes for EQ Motion T = 1.39 sec
Y
X
Y
Z
Motion in Gantry Travel Direction Motion in Trolley Travel Direction
X
Y
Z
Motion in Gantry Travel Direction Motion in Trolley Travel Direction
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EQ Loads - Crane Seismic Response
1 5
2 0
One leg lifts
men
t
With Tiedowns5
1 0
Mov
em
-5
0
0 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0
-1 5
-1 0
Time Without Tiedowns-2 0
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Response to Gantry AccelerationAcceleration
Primary ModeyShape
UndeflectedU de ec edShape
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Poorly-Tuned Gantry Drive ResponseResponse
Time 1T 2T 2.5T1.5T
Upper WorksSill Displacement
Time 1T 2T 2.5T1.5TGantry
Acceleration
eler
atio
n
Time 1T 2T 2.5T1.5TAcce
eed Upper Works
Time
Spe
1T 2T 2 5T1 5T
Sill
Time 1T 2T 2.5T1.5T
Greatest Response—Acceleration Ends at a Half Period, (n +0.5)T
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Well-Tuned Gantry Drive ResponseUpper WorksSill
1T 2T
Displacement
Time 1T 2TGantry Acceleration
men
t
Time
1T 2TDisp
lacem
Time
Upper Works
peed
Sill
1T 2TTime
Sp
Smallest Response—Acceleration Time is a Multiple of Crane Period, nT
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Field Measurement of One CraneBoom Tip Acceleration in Gantry Travel Direction
0.04
0.05
6 s Acceleration8 A l ti
0 01
0.02
0.03
n (g
)
8 s Acceleration
-0.01
0.00
0.01
ccel
erat
ion
-0.04
-0.03
-0.02Ac
-0.050 4 8 12 16 20 24 28 32 36 40 44 48 52 56 60 64 68 72 76 80 84 88
Test Time (seconds)
Measured Crane Response for Acceleration Times of 1.5 and 2 Times the Boom Period