Science and Education Publishing
From Scientific Research to Knowledge
Submission
Browse by Subjects
Search
Journal Home
For Authors
Online Submission
Current Issue
Archive
About Us
Figures index
From
Fatigue Damage of Vertical Rigid Risers due to In-Line Vortex Induced Vibration in Nigeria Shallow Waters
Tobechukwu C. Ezeonwumelu, Chinwuba V. Ossia, Ibiba E. Douglas
American Journal of Mechanical Engineering
.
2017
, 5(2), 33-40 doi:10.12691/ajme-5-2-1
Figure
1
.
VRR Material Description on OrcaFlex Interface 1
Full size figure and legend
Figure
2
.
VRR Material Description on OrcaFlex Interface 2
Full size figure and legend
Figure 3
.
VRR Material Description on OrcaFlex Interface 3
Full size figure and legend
Figure 4
.
Current Factor and Angle of rotation for various water depths
Full size figure and legend
Figure 5
.
Near Surface Current velocity and Direction versus simulation time
Full size figure and legend
Figure 6
.
Variation of Fatigue damage due to In-line VIV with Riser segments
Full size figure and legend
Figure 7
.
Variation of Fatigue Damage due to Transverse VIV with Riser segments
Full size figure and legend
Figure 8
.
In-Line Vortex Force End A (0m) VRR
Full size figure and legend
Figure 9
.
In-Line Vortex Force at 8.74m VRR
Full size figure and legend
Figure 10
.
In-Line Vortex Force at 21.00m VRR
Full size figure and legend
Figure 11
.
In-Line Vortex Force at 23.69m VRR
Full size figure and legend
Figure 12
.
Variation of Fatigue Damage due to In-Line VIV with Riser segments
Full size figure and legend
Figure 13
.
Variation of Fatigue Damage due to Transverse VIV with Riser segments
Full size figure and legend
Figure 14
.
In-Line Vortex Force at End A (0m) VRR
Full size figure and legend
Figure 15
.
In-Line Vortex Force at 8.74m VRR
Full size figure and legend
Figure 16
.
In-Line Vortex Force at 21.00m VRR
Full size figure and legend