Offshore engineering

Part of the Wikiversity Department of Marine Engineering, School of Engineering and the Engineering and Technology Portal



Content summary
Offshore Engineering applies ocean engineering studies to the engineering of devices within the benthic environment, such as Marine Foundations, Mooring Systems, Ocean Mining, Offshore Disposal, Offshore Pipelines and Cables, Offshore Structures, Submersible Vehicles, Submarine Habitats and Salvage Operations.

Goals
To further knowledge of the deep ocean as an engineering environment and to enable the practitioner to effectively design within the parameters of such.

Texts

 * Introduction to Oceanography; Wikibooks, the open-content textbooks collection
 * Marine Hydrodynamics; Wikibooks, the open-content textbooks collection

Offshore Engineering Lessons

 * The Benthic Environment
 * 1) Temperature
 * 2) Density
 * 3) Salinity
 * 4) Chemistry
 * Deep Water Engineering
 * 1) Anchors
 * 2) Mining & Oil Exploration
 * 3) Biological Investigation
 * Ocean engineering design
 * 1) Models & Scaling
 * 2) Resistance
 * 3) Propulsion
 * 4) Corrosion
 * 5) Galvanic Protection
 * 6) Arctic Engineering

Activities:

 * Physical Properties of the Oceans

Readings:

 * Physical Properties of the Oceans
 * 1) Peruse the appropriate sections of Introduction to Oceanography

Study guide:

 * Physical Properties of the Oceans
 * 1) Wikipedia article:Temperature
 * 2) Wikipedia article:Density
 * 3) Wikipedia article:Salinity
 * 4) Wikipedia article:Chemistry
 * 5) Wikipedia article:Marine geology
 * 6) Wikipedia article:Oceanography
 * 7) Wikipedia article:Chemical oceanography
 * 8) Wikipedia article:Physical oceanography

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