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2010 course brochure

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Integrity management of subsea pipelines - Part 1
01) Corrosion defects
02) Corrosion overview
03) Dent assessment
04) External inspection
05) Flow assurance
06) Internal inspection
07) Isolation
08) Life extension and decommissioning
09) Offshore repairs
10) Pipeline Integrity Management System
11) Spans
12) Stability
13) Thermal buckling

Construction of subsea pipelines
14) Bundles and towed installation
15) Decommissioning and abandonment
16) Diving and ROV operations
17) Health, safety and environment
18) Installation of flexibles
19) J-lay
20) Landfalls
21) Management systems
22) Pipe supply, welding, NDT and ECA
23) Post-lay trenching and burial
24) Pre-commissioning
25) Reel-lay
26) S-lay
27) Seabed modification
28) Survey
29) Tie-ins

Installation calculations for subsea pipelines
30) Abandonment and recovery
31) Anchors and piles
32) Barge Stability
33) Bending
34) Catenaries
35) Lugs and seafastenings
36) Pipe pull forces
37) Pipelifting
38) Reeling
39) Ropes, winches and chains
40) Sagbend Buckling
41) Steelwork

Stability of subsea pipelines
42) Codes and stabilisation options
43) Dynamic approach
44) Geology
45) Quasi-static approach
46) Route Survey
47) Soils resistance
48) Traditional approach
49) Waves and currents

Polymer composites
50) Case Studies
51) Design and fabrication
52) Material production
53) Properties

Subsea pipelines
54) Common work
55) Construction support
56) Design methods
57) External coatings
58) Field layouts
59) Flow assurance
60) Installation methods
61) Introduction to integrity
62) Materials
63) Pipe manufacture
64) Pipe sizing
65) Pipeline inspection
66) Repairs, tie-ins and decommissioning
67) Route selection
68) Tie-ins, spools and risers

Design of subsea pipelines - Part 1
69) Bottom roughness and intervention
70) Corrosion
71) Design for strength
72) Diameter sizing
73) End expansion and spool pieces
74) Materials specification
75) On-bottom stability
76) Pipeline routing
77) Thermal design

Subsea systems
78) Abandonment of subsea developments
79) Drilling and completing a subsea well
80) History of subsea production
81) Installation and commissioning of subsea equipment
82) Spoolpieces, jumpers and connectors
83) Structural design of subsea equipment
84) Subsea configurations
85) Subsea intervention systems
86) Subsea processing equipment
87) Subsea production control equipment
88) Workover

Introduction to the oil and gas industry
89) Commercial trends
90) Exploration methods
91) Gas treatment and uses
92) Hydrocarbon formation
93) Hydrocarbon production
94) Refining process
95) Transportation systems

Risers, umbilicals and flexibles
96) Bonded hoses
97) Fixed rigid risers
98) Flexible and umbilical installation
99) Flexibles
100) FPSO interfaces
101) FPSO vessel motions
102) Hybrid risers
103) Introduction to FPSOs
104) Introduction to riser integrity management
105) Rigid riser design
106) Riser types and uses
107) Steel catenary risers
108) Top tensioned risers
109) Umbilicals

Design of subsea pipelines - Part 2
110) Expansion, walking and anchoring
111) Fatigue
112) Further corrosion
113) HIPPS
114) Hydrostatic collapse
115) Lateral buckling
116) Protection
117) Strain-based design
118) Upheaval buckling

Integrity management of subsea pipelines - Part 2
119) Case study 1: Pipeline installation failure
120) Case study 2: Pipe-in-pipe installation and operational failure
121) Case study 3: Pipe-in-pipe failure during operation
122) Case study 4: Pipeline operational failure
123) Case study 5: Flow-induced pulsations
124) Case study 6: Umbilical failure
125) Integrity during design and installation
126) Integrity during operation
127) Integrity management systems (IMS)
128) Integrity of flexibles
129) Integrity of umbilicals

Onshore pipelines
130) Construction in difficult terrains
131) Defect assessment and repair
132) Inspection
133) PIMS and routine operations
134) Pipe manufacture and components
135) Pipeline construction
136) Pipeline corrosion design
137) Pipeline crossings
138) Pipeline hydraulic design
139) Pipeline routing and planning
140) Pipeline wall thickness design

Landfalls and marine terminals
141) Introduction to marine terminals
142) Jetties, trestles and offloading systems
143) Landfalls and outfalls
144) Marine terminal design and operation
145) Single point moorings
146) Site selection for marine terminals
147) Storage tanks
148) Tanker operations

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