Difference between revisions of "Deep Sea Systems"

<span class="c24">    The design of underwater  </span><span class="c13">[https://en.wikipedia.org/wiki/Life-support_system life support systems]</span><span class="c24">    such as  </span><span class="c13">[https://en.wikipedia.org/wiki/Diving_chamber underwater hyperbaric dive chambers]</span><span class="c24">    presents a unique set of challenges requiring a detailed knowledge of pressure vessels, dive physiology, and thermodynamics. Among the more recent developments in underwater life-support systems is an ocean space habitat designed by Winslow Burleson and Michael Lombardi.  </span><span class="c68">[https://en.wikipedia.org/wiki/Marine_engineering#cite_note-26 [26]]</span><span class="c24">    The prototype resembles an underwater tent and is said to satisfy full life-support functions for divers.  </span><span class="c68">[https://en.wikipedia.org/wiki/Marine_engineering#cite_note-27 [27]]</span><br/>

<span class="c24">    Marine engineers may design or make frequent use of  </span><span class="c13">[https://en.wikipedia.org/wiki/Unmanned_underwater_vehicle unmanned underwater vehicles]</span><span class="c24">    , which operate underwater without a human aboard. UUVs often perform work in locations which would be otherwise impossible or difficult to access by humans due to a number of environmental factors (e.g. depth, remoteness, and/or temperature). UUVs can be remotely operated by humans,  </span><span class="c13">[https://en.wikipedia.org/wiki/Autonomy#Semi-autonomy semi-autonomous]</span><span class="c24">    , or  </span><span class="c13">[https://en.wikipedia.org/wiki/Autonomous_underwater_vehicle autonomous]</span><span class="c24 c50">    .  </span><br/>

<span class="c24">    The development of  </span><span class="c13">[https://en.wikipedia.org/wiki/Oceanography oceanographic sciences]</span><span class="c24">    , subsea engineering and the ability to detect, track and destroy submarines (  </span><span class="c13">[https://en.wikipedia.org/wiki/Anti-submarine_warfare anti-submarine warfare]</span><span class="c24">    ) required the parallel development of a host of marine scientific instrumentation and  </span><span class="c13">[https://en.wikipedia.org/wiki/Sensor sensors]</span><span class="c24">    . Visible light is not transferred far underwater, so the medium for transmission of data is primarily  </span><span class="c13">[https://en.wikipedia.org/wiki/Acoustics acoustic]</span><span class="c24">    . High-frequency sound is used to measure the depth of the ocean, determine the nature of the seafloor, and detect submerged objects. The higher the frequency, the higher the definition of the data that is returned. Sound Navigation and Ranging or  </span><span class="c13">[https://en.wikipedia.org/wiki/Sonar SONAR]</span><span class="c24">    was developed during the  </span><span class="c13">[https://en.wikipedia.org/wiki/World_War_I First World War]</span><span class="c24">    to detect  </span><span class="c13">[https://en.wikipedia.org/wiki/Submarine submarines]</span><span class="c24">    , and has been greatly refined through to the present day. Submarines similarly use sonar equipment to detect and target other submarines and surface ships, and to detect submerged obstacles such as  </span><span class="c13">[https://en.wikipedia.org/wiki/Seamount seamounts]</span><span class="c24">    that pose a navigational obstacle. Simple  </span><span class="c13">[https://en.wikipedia.org/wiki/Echo_sounder echo-sounders]</span><span class="c24">    point straight down and can give an accurate reading of ocean depth (or look up at the underside of sea-ice). More advanced echo sounders use a fan-shaped beam or sound, or  </span><span class="c13">[https://en.wikipedia.org/wiki/Multibeam_echosounder multiple beams]</span><span class="c24">    to derive highly detailed images of the ocean floor. High power systems can penetrate the soil and seabed rocks to give information about the geology of the seafloor, and are widely used in  </span><span class="c13">[https://en.wikipedia.org/wiki/Geophysics geophysics]</span><span class="c24">    for the discovery of  </span><span class="c13">[https://en.wikipedia.org/wiki/Offshore_oil hydrocarbons]</span><span class="c24">    , or for engineering survey. For close-range underwater communications, optical transmission is possible, mainly using  </span><span class="c13">[https://en.wikipedia.org/wiki/Blue_laser blue lasers]</span><span class="c24">    . These have a high bandwidth compared with acoustic systems, but the range is usually only a few tens of metres, and ideally at night. As well as acoustic communications and navigation, sensors have been developed to measure ocean parameters such as temperature,  </span><span class="c13">[https://en.wikipedia.org/wiki/Salinity salinity]</span><span class="c24">    , oxygen levels and other properties including nitrate levels, levels of trace chemicals and  </span><span class="c13">[https://en.wikipedia.org/wiki/Environmental_DNA environmental DNA]</span><span class="c24">    . The industry trend has been towards smaller, more accurate and more affordable systems so that they can be purchased and used by university departments and small companies as well as large corporations, research organisations and governments. The sensors and instruments are fitted to autonomous and remotely-operated systems as well as ships, and are enabling these systems to take on tasks that hitherto required an expensive human-crewed platform. Manufacture of marine sensors and instruments mainly takes place in Asia, Europe and North America. Products are advertised in specialist journals, and through  </span><span class="c13">[https://en.wikipedia.org/wiki/Trade_Shows Trade Shows]</span><span class="c24">    such as  </span><span class="c13">[https://www.oceanologyinternational.com/ Oceanology International]</span><span class="c24">    and  </span><span class="c13">[https://www.oceanbusiness.com/ Ocean Business]</span><span class="c24 c50">    which help raise awareness of the products.  </span><br/>