Difference between revisions of "Arctic Engineering"
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<b style="font-size: large;">Arctic Engineering</b><br/> | <b style="font-size: large;">Arctic Engineering</b><br/> | ||
| − | <span class="c24"> In designing systems that operate in the arctic (especially scientific equipment such as </span><span class="c13">[ | + | <span class="c24"> In designing systems that operate in the arctic (especially scientific equipment such as </span><span class="c13">[https://en.wikipedia.org/wiki/Meteorological_instrumentation meteorological instrumentation]</span><span class="c24"> and </span><span class="c13">[https://en.wikipedia.org/wiki/International_Arctic_Buoy_Program oceanographic buoys]</span><span class="c24 c50"> ), marine engineers must overcome an array of design challenges. Equipment must be able to operate at extreme temperatures for prolonged periods of time, often with little to no maintenance. This creates the need for exceptionally temperature-resistant materials and durable precision electronic components. </span><br/> |
<span class="c24 c50"></span><br/> | <span class="c24 c50"></span><br/> | ||
<span class="c24 c50"></span> | <span class="c24 c50"></span> | ||
Latest revision as of 23:07, 29 November 2023
Arctic Engineering
In designing systems that operate in the arctic (especially scientific equipment such as meteorological instrumentation and oceanographic buoys ), marine engineers must overcome an array of design challenges. Equipment must be able to operate at extreme temperatures for prolonged periods of time, often with little to no maintenance. This creates the need for exceptionally temperature-resistant materials and durable precision electronic components.
