Difference between revisions of "Currents"

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==Description==
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(From Section 5 of [https://ww2.eagle.org/content/dam/eagle/rules-and-guides/archives/offshore/104_sfaforfloatingoffshorestructures/pub104_offshoresfa_guide.pdf ABS GUIDANCE NOTES ON SPECTRAL-BASED FATIGUE ANALYSIS FOR FLOATING OFFSHORE STRUCTURES . 2005]
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Current in the ocean can be any or any combination of wind-driven, thermo-haline, tidal and storm surge currents. At a location (installation site), the current is defined by its speed and directional profiles through the water depth. Currents may change with time, from hourly to seasonally. Although current itself can be treated as producing essentially static loads, it can induce or intensify certain kinds of dynamic loads and fatigue damage (especially for slender structures such as mooring lines and risers). There are mainly two ways current can affect fatigue:
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1) the presence of a current can increase cyclic drag loading of waves due to the nonlinear coupling of current velocity and wave orbital velocity. It is recommended that current be considered if its magnitude is comparable with the wave orbital velocity for those waves that make the greatest contributions to the fatigue damage;
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2) Current may also create cyclic “lifting” loads due to vortex shedding, which can cause significant fatigue damage.
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==Currents as a hazard==
 
==Currents as a hazard==
 
*[https://dspace.lboro.ac.uk/dspace-jspui/bitstream/2134/6649/1/Passmore%203.pdf Drag levels and energy requirements on a SCUBA diver]
 
*[https://dspace.lboro.ac.uk/dspace-jspui/bitstream/2134/6649/1/Passmore%203.pdf Drag levels and energy requirements on a SCUBA diver]

Latest revision as of 18:28, 2 August 2017

Description

(From Section 5 of ABS GUIDANCE NOTES ON SPECTRAL-BASED FATIGUE ANALYSIS FOR FLOATING OFFSHORE STRUCTURES . 2005

Current in the ocean can be any or any combination of wind-driven, thermo-haline, tidal and storm surge currents. At a location (installation site), the current is defined by its speed and directional profiles through the water depth. Currents may change with time, from hourly to seasonally. Although current itself can be treated as producing essentially static loads, it can induce or intensify certain kinds of dynamic loads and fatigue damage (especially for slender structures such as mooring lines and risers). There are mainly two ways current can affect fatigue: 
1) the presence of a current can increase cyclic drag loading of waves due to the nonlinear coupling of current velocity and wave orbital velocity. It is recommended that current be considered if its magnitude is comparable with the wave orbital velocity for those waves that make the greatest contributions to the fatigue damage; 
2) Current may also create cyclic “lifting” loads due to vortex shedding, which can cause significant fatigue damage. 


Currents as a hazard

Engineering for

Using currents for energy

Seasteading tidepower.jpg


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