NASA Sustainability Base is located on the campus of NASA's Ames Research Center in Moffett Field, California.[1].It was named in recognition of the first human outpost on the mood, Tranquility Base.[2] It was designed to exhibit and test the latest energy-saving technologies as part of the federal government's drive to eliminate fossil-fuel consumption in all new government buildings by 2030. The building was not initially conceived as a "sustainability base", but associate director Steven Zornestzer worked with architect William McDonough to create an energy-efficient building for the 21st century. [3] McDonough, previously published "Cradle to Cradle", which argued for building architecture to move out of the "life cycle" model (birth, use, and disposal) and become a more circular system, lasting for indefinite periods of time. This belief, along with other influences from looking at urban design and architecture through a biological perspective, provided inspiration for the NASA Sustainability Base.[4] Energy-saving features include water recycling, fuel cell electricity generation, natural lighting, solar panels, and a geothermal well system.[5] The building takes advantage of the sun's arc and winds from San Francisco Bay in addition to being able to adjust to changes in sunlight, temperature, wind, and occupancy.[6] Also, the building had normal budget and actually a shorter than normal production time.[7] One of the nation's greenest buildings, the NASA Sustainability Base was awarded the U.S. Green Building Council's Leadership in Energy and Environmental Design (LEED) Platinum status.[8] It was completed in December 2012 and cost $27.8 million.[9]


The building also employs biofeedback systems for employees, providing an energy monitoring dashboard to review personal energy consumption habits over time.[10] Work areas are open and collaborative, with a few private offices, "huddle" rooms, and quiet study and library areas. Waste and refuse are either recycled or collected.[11] They are testing a gray water recycling system, using a three-stage process to reclaim water from sinks and showers. This, along with other water-saving features, have reduced this building's potable water demand by 85-90% of a similarly-sized office building.[12]

Design

The orientation and the lunar-shape design of this 50,000 square foot base allows it to take advantage of the prevailing winds of San Francisco Bay and the sun’s arc.[2][6] The sustainability base receives an unobstructed flow of air, due to structural supports on the exterior of the building.[5] The building’s narrow width of 54 feet and its floor-to-ceiling windows also allow daylight to reach every inch of the floor.[13]

Sustainability

The sustainability base harnesses space technology, commercially available technologies, and the surrounding environment to leave virtually no ecological footprint.[6] For example, the building features automated windows that help flush the building with cool air at night and a ground-source heat pump system.[13] The building is also equipped with a water recovery system, in which the water used to flush the toilets is filtered and used for irrigation.[13] As a result, the building uses about 90 percent less potable water than conventional buildings of comparable size.[6][3] The building is also able to generate more energy than it needs to operate, due to the Bloom Energy Box and photovoltaic solar panels onsite.[4][13] To encourage further energy conservation at the base, each employee has a personal energy dashboard that captures their energy usage.[3][6]

Awards

In April of 2012, the sustainability base received LEED Platinum, the highest level of Leadership in Energy and Environmental Design certification.[13][14] LEED is a worldwide green building certification program that includes a set of ratings for the construction, design, and maintenance of green buildings, aimed at encouraging building owners to use resources efficiently and be environmentally responsible.[15] The sustainability base has received other national awards including the 2010 U.S. General Services Administration Award for Green Innovation; the 2011 White House Greengov “Lean, Clean and Green Award”; and the Center for Environmental Innovation and Leadership “Leadership in Innovation Award.”[14]

References

  1. Colen, Jerry (2015-03-03). "Ames Media Resources". NASA. Retrieved 2023-04-21.
  2. 1 2 "NASA Sustainability Base | 2014-06-16 | Architectural Record". www.architecturalrecord.com. Retrieved 2023-04-21.
  3. 1 2 3 Palca, Joe. "NASA Uses Lessons From Space To Design An Efficient Building". NPR.org. Retrieved 2015-12-01.
  4. 1 2 Cardoso de Matos, Ana; Lourencetti, Fernanda de Lima (2021). "Reusing railway infrastructures in the spirit of circular theory. A contribution to an operational concept". doi:10.4995/vitruvio-ijats.2021.15487. hdl:10251/168830. ISSN 2444-9091. S2CID 237383047. {{cite journal}}: Cite journal requires |journal= (help)
  5. 1 2 Tiffany Hsu - NASA's Sustainability Base generates buzz for its eco-friendly architecture (2011) - LA Times
  6. 1 2 3 4 5 Wiedemann, Darlene (2015-06-02). "About Sustainability Base". NASA. Retrieved 2023-04-21.
  7. "NASA Sustainability Base - William McDonough + Partners". William McDonough + Partners. Retrieved 2018-01-21.
  8. "NASA Sustainability Base". William McDonough + Partners. Retrieved 2023-04-21.
  9. "NASA Sustainability Base | 2014-06-16 | Architectural Record". www.architecturalrecord.com. Retrieved 2023-04-21.
  10. "Innovation Earth: Bringing NASA Technology Back to Earth". HuffPost. 2014-07-25. Retrieved 2023-04-21.
  11. Wiedemann, Darlene (2015-07-29). "Living Green". NASA. Retrieved 2023-04-21.
  12. Wiedemann, Darlene (2015-07-29). "Living Blue". NASA. Retrieved 2023-04-21.
  13. 1 2 3 4 5 "sustainability base a living testbed for nasa technologies" (PDF). NASA. Retrieved April 21, 2023.
  14. 1 2 Wiedemann, Darlene (2015-06-04). "NASA's Ultragreen Building Awarded Leed Platinum". NASA. Retrieved 2023-04-21.
  15. "Benefits of Green Building | U.S. Green Building Council". www.usgbc.org. Retrieved 2023-04-21.

37°24′40″N 122°3′42″W / 37.41111°N 122.06167°W / 37.41111; -122.06167

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