CONTENTS
CHAPTER 1:
INTRODUCTION.
1 1-1 SCOPE.1 1-2 GENERAL
FUNCTION.1 1-3 FUNCTIONAL
CATEGORIES.1 1-3.1 Type I
- Fueling, Ammunition,
and Supply.1 1-3.2 Type
II - General Purpose.2
1-3.3 Type III - Repair.2
1-3.4 Type IV -
Specialized.3 1-4
FLEXIBILITY OF BERTHS.3
1-5 APPURTENANCES AND
FEATURES.3
CHAPTER 2: FACILITY
PLANNING.
5 2-1 LOCATION AND
ORIENTATION.5 2-1.1
General.5 2-1.2
Orientation for
Environmental
Conditions.5 2-1.3 Vessel
Ingress and Egress.6
2-1.4 Water Depth.7 2-1.5
Dolphins.7 2-2
COORDINATION OF REPAIR.10
2-2.1 General.10 2-3
OVERALL DIMENSIONS AND
CLEARANCES.11 2-3.1
General.11 2-3.2 Pier and
Wharf Length.14 2-3.3
Pier and Wharf Width.15
2-3.4 Slip.26 2-3.5 Pier
and Wharf Deck
Elevation.28 2-4
UTILITIES.29 2-4.1
General.29 2-5
LIGHTING.30 2-5.1 Topside
Lighting.30 2-5.2 Lower
Deck Lighting.31 2-5.3
Underdeck Lighting.31 2-6
SECURITY.31 2-7 LANDSIDE
APPROACHES.31 2-7.1
Function.31 2-7.2 Roadway
Width.31 2-7.3 Walkway
Width.32 2-7.4 Roadway
Deck Elevation.32 2-7.5
Number of Approaches.32
2-7.6 Turning Room.33
2-7.7 Safety Barriers.33
2-8 STRUCTURAL TYPES.33
2-8.1 General.33 2-8.2
Selection of Type.33
2-8.3 Construction.42 i
CHAPTER 3. LOAD
REQUIREMENTS.
51 UFC 4-152-01 28 July
2005 3-1 GENERAL.51 3-2
DEAD LOADS.51 3-2.1
General.51 3-2.2 Unit
Weights.51 3-3 VERTICAL
LIVE LOADS.51 3-3.1
General.51 3-3.2 Uniform
Loading.52 3-3.3 Truck
Loading.52 3-3.4
Rail-Mounted Crane
Loading.52 3-3.5 Mobile
Crane Loadings.55 3-3.6
Forklift and Straddle
Carrier Loadings.59 3-3.7
Loading on Railroad
Tracks.59 3-3.8
Buoyancy.59 3-3.9 Wave
Loading.59 3-3.10
Application of
Loadings.60 3-4
HORIZONTAL LOADS.63 3-4.1
Berthing Loads.63 3-4.2
Mooring Loads.63 3-4.3
Wind Loads on
Structures.63 3-4.4 Loads
on Piles.63 3-4.5
Earthquake Loads.65 3-4.6
Earth and Water Pressures
.68 3-4.7 Thermal
Loads.69 3-4.8 Ice
Forces.69 3-4.9
Shrinkage.72 3-4.10
Creep.72 3-5 LOAD
COMBINATIONS.72 3-5.1
General.72 3-5.2 Load
Symbols.73 3-5.3 Load
Factor Design.74 3-5.4
Service Load Design.74
CHAPTER 4. STRUCTURAL
DESIGN.
77 4-1 CONSTRUCTION
MATERIALS.77 4-1.1
Timber.77 4-1.2 Steel.78
4-1.3 Concrete.78 4-1.4
Composites.79 4-1.5
Aluminum.79 4-1.6
Plastics.80 4-2 ALLOWABLE
STRESSES.80 4-2.1
General.80 4-2.2
Timber.80 4-2.3 Steel.80
4-2.4 Concrete.80 4-2.5
Other Materials.80 4-3
DECK STRUCTURE DESIGN.81
4-3.1 Deck Framing.81
4-3.2 Pile Caps.83 4-4
SUBSTRUCTURE DESIGN.83
4-4.1 Pile Bent
Framing.83 4-5 MOORING
HARDWARE.84 4-5.1
General.84 4-5.2 Hardware
Types.86 4-5.3
Strength.87 4-5.4
Placement.87 4-6 MOORING
DOLPHINS/PLATFORMS.88
4-6.1 Design.88 4-6.2
Construction.88 4-7
MISCELLANEOUS
CONSIDERATIONS.91 4-7.1
Expansion Joints.91 4-7.2
Drainage.91 4-7.3
Bullrail.91 4-7.4 Utility
Trench.91 4-7.5 Utility
Hoods.95 4-7.6 Wearing
Course.95
CHAPTER 5. FENDER
SYSTEMS.
97 5-1 GENERAL
CONSIDERATIONS.97 5-1.1
Description.97 5-1.2
Berthing Practice.97
5-1.3 Camels &
Separators.97 5-1.4
Systems Approach.98 5-1.5
Functional
Requirements.98 5-2
BERTHING ENERGY
DETERMINATION.100 5-2.1
Methods.100 5-3 TYPES OF
FENDER SYSTEMS.108 5-3.1
General.108 5-3.2 Fender
Piles.108 5-3.3
Fenders.113 5-4 SELECTION
AND DESIGN OF FENDER
SYSTEMS.122 5-4.1
General.122 5-4.2 Fender
System Behavior.126 5-4.3
Evaluation of Fender
Systems.127 5-4.4 Fender
System Design.129 5-4.5
Corner Protection.131
5-4.6 Support Chains.131
5-4.7 Chocks and
Wales.132
CHAPTER 6 CAMELS &
SEPARATORS.
134 6-1 FUNCTION AND
APPLICATION.134 6-1.1
Hull Maintenance.134
6-1.2 Overhangs and
projections.134 6-1.3
Special Hull
Treatments.134 6-1.4
Submarine Berthing.134
6-1.5 Multiple Berthing
(Nesting).134 6-1.6
Fender Protection.134 6-2
CAMELS.135 6-2.1 Log
Camels.135 6-2.2 Timber
Camels.135 6-2.3 Steel
Pontoon Camels.135 6-2.4
Deep-Draft Camels.135
6-2.5 Hydro-Pneumatic
Fenders.135 6-2.6
Composite Camels.136 6-3
Loads.136 6-4
GEOMETRY.137 6-4.1 Ship's
Lines.137 6-4.2 Length
and Width.137 6-4.3
Depth.138 6-5
STABILITY.138 6-6
LOCATION.138 6-7
MISCELLANEOUS
CONSIDERATIONS.138 6-7.1
Protection.138 6-7.2
Buoyancy Tanks.138 6-7.3
Abrasion.139 6-8 CAMEL
DESIGNS.139 6-8.1
Submarine Camels.139
6-8.2 Aircraft Carrier
Camels.140 6-9
SEPARATORS.142
CHAPTER 7 ACCESS.
143 7-1 GENERAL.143 7-2
SAFETY.143 7-3 LANDING
FLOAT.143 7-3.1
Materials.144 7-3.2
Mooring Systems.144 7-3.3
Live Loads.144 7-3.4
Freeboard.144 7-3.5
Fendering.144 7-3.6
Fittings.144 7-3.7
Finish.145 7-3.8
Reinforced Plastic
Landing Float.145 7-3.9
Concrete Float
Elements.145 7-4 BROW OR
GANGWAY.145 7-4.1
Length.148 7-4.2
Widths.148 7-4.3
Construction.148 7-4.4
Live Load.148 7-4.5
Handrails.148 7-4.6
Safety.148 7-5 BROW
PLATFORMS.148 7-6 BROW
AND PLATFORM DESIGNS.149
7-7 WALKWAY OR
CATWALK.149 7-7.1
Width.149 7-7.2 Live
Load.149 7-7.3
Construction.149 7-7.4
Handrails.149 7-8
RAMPS.149 7-9 ACCESS
LADDERS AND LIFE
RINGS.150
APPENDIX A
REFERENCES.152
APPENDIX B
GLOSSARY.156
FIGURES Figure 2-1.
Pier and Wharf Types.8
Figure 2-2. Wharf Types.9
Figure 2-3. Length and
Width of Slip.18 Figure
2-4. Location of Crane
Rails, Railroad Tracks,
and Utilities.19 Figure
2-5. Single Deck Pier.21
Figure 2-6. Double Deck
Pier.22 Figure 2-7. Open
and Solid Type
Piers/Wharves.35 Figure
2-8. Floating Double Deck
Pier.36 Figure 2-9. Open
Type Wharf Concepts.44
Figure 2-10. Closed Type
Wharf Concepts.45 Figure
2-11. Solid Type,
Cellular Construction.47
Figure 2-12. Solid Type,
Caisson and Concrete
Block Construction.50
Figure 3-1. Wheel Loads
for Portal Cranes.54
Figure 3-2. Configuration
and Wheel Loads for
Container Cranes.56
Figure 3-3. Wheel
Loads and Dimensions for
Truck Cranes.57 Figure
3-4. Wheel Loads for
Forklifts.61 Figure 3-5.
Wheel Loads for Straddle
Carriers.62 Figure 3-6.
Principal Modes of Ice
Action.71 Figure 4-1.
Concrete Deck
Construction.82 Figure
4-2. Substructure Framing
Concepts.85 Figure 4-3.
Bullrail Details.89
Figure 4-4. Mooring
Dolphins.90 Figure 4-5.
Railroad Track Support.92
Figure 4-6. Crane Rail
Support.93 Figure 4-7.
Utility Trench Concept.94
Figure 4-8. Utility
Hoods.96 Figure 5-1.
Energy Model of a Fender
System.99 Figure 5-2.
Eccentricity Coefficient,
Ce.103 Figure 5-3.
Berthing Velocity for
Small Ships (up to 20,000
tons).105
Figure 5-4. Berthing
Velocity for Large
Ships.106 Figure 5-5
Foam-filled Fender
System.111 v Figure 5-6
Fiberglass Fender Pile
System.112 Figure 5-7
Plastic Fender Pile
System.113 Figure 5-8.
Side-loaded and
End-loaded Rubber
Fenders.116 Figure 5-9.
Shear Fender.117 Figure
5-10. Buckling Fender
with Contact Panel.118
Figure 5-11. Pneumatic
Fenders.121 Figure 5-12
Hydro-pneumatic
Fender.122 Figure 5-13.
Monopile Fender
System.123 Figure 5-14.
Evaluation of Fender
System Types.128 Figure
5-15. Corner
Protection.133 Figure
6-1. Composite Camel.137
Figure 6-2. Aircraft
Carrier Camel.141 Figure
7-1. Small Floating
Stage.146 Figure 7-2.
Reinforced Plastic
Landing Float.147 Figure
7-3. Transfer Bridge for
LHAs.151
TABLES Table 2-1 Ship
Characteristics for
Selected Ships.12 Table
2-2 Typical Single Deck
Pier and Wharf Widths.20
Table 2-3 Estimated Space
Requirements for PMA.27
Table 3-1 Unit Weights.51
Table 3-2 Vertical Live
Loads for Pier and Wharf
Decks.52 Table 3-3
Outrigger Float Loads for
Mobile Cranes.58 Table
3-4 Values of CS,
modifier for short-period
spectral acceleration.66
Table 3-5 Values of C1,
modifier for 1-second
period spectral
acceleration.67 Table 3-6
Load Combinations -
LRFD.75 Table 3-7 Load
Combinations - Allowable
Stress Design.76
EQUATIONS
EQUATION 3-1.66
EQUATION 3-2.73 EQUATION
5-3.100 EQUATION 5-4.101
EQUATION 5-5.101 EQUATION
5-6.102
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