Friday Harbor Aerospace Design team passes half-way mark at world championship – Journal of the San Juan Islands

Editor’s note: This is the first entry of a two-part series on the team’s performance at the world championship for space design. Read the second part here.

By Daniel Garner

The Friday Harbor High School Aerospace Design team has passed the 24-hour mark of the 42-hour International Space Settlement Design Competition world championship. Held at NASA’s Kennedy Space Center, the ISSDC brings 250 high school students from nine countries to take part in an aerospace industry simulation. These 250 students are divided into four multinational teams of 60-plus individuals. Their mission: Design a space settlement for 18,000 residents on the moon. This year, the Friday Harbor team joins forces with teams from Durango, Colorado; Lahore, Pakistan; Kolkata, India; Edinburgh, Scotland; and London, England. Combined, these teams form an Aerospace Corporation named “Dougeldyne Astrosystems” tasked with designing the planning, construction, operations, infrastructure and automated systems of a fully functional city set into a crater on the moon’s surface in the year 2043.

The ISSDC world finals gives teams 42 hours to create a space settlement, after which the teams brief NASA and aerospace industry judges with a 50-slide design presentation on Monday morning. Friday Harbor students involved in this year’s ISSDC World Championship earned their way to NASA by winning the Northwest Semi-Finals in April, and bring their experience designing moon-based habitations with them. In this competition, Lucy Urbach and Joely Loucks, as members of the human factors engineering department are determining the quantities of all consumable items that a city of 18,000 may consume in a year, while Brandon Payne, working with the operations and infrastructure department is designing infrastructure for industrial and residential waste systems. In structural engineering, Arlo Harold is currently helping design the construction processes needed to excavate and build habitable volumes for lunar residents. Rounding

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