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Sustainable Systems “In the future, perhaps, the seams between the built and natural environments will dissolve to reveal intelligent systems of human design and natural production that synergistically promote health in all living systems.”
We believe the next generation must be informed and prepared to make difficult decisions about sustaining the valuable resources of our planet. True to this mission, our campus allows students, educators, and scientists to live what they teach and learn. The buildings and grounds at The Island School incorporate systems and design principles that minimize our ecological footprint through the conservation and sustainable use of our resources. Water On Eleuthera, as on many islands, there is a slim supply of groundwater. To meet the school’s water needs, rain is collected from roof runoff and stored in cisterns. Our students learn to become conscious users of precious fresh water and keep track of usage rates and storage as part of their daily routine.
To further protect our water supply and the fragile reef system that surrounds our campus, The Island School has established an on-site waste management system. A lush, green, constructed wetland adorns the center courtyard of the campus. Human wastewater is cycled through the wetland and provides nutrients for tropical plants while simultaneously being purified so that it may be more safely released into the environment than it would be through traditional “leach-away” tanks that release effluent directly into the water table.
Food With the energy of our students and faculty, we are working to expand our school farm with citrus trees and vegetables that will play a significant role in feeding our community. The food garden is fertilized with compost from kitchen waste and watered with a solar-powered pump, providing a viable model for low-cost, high-yield food production in South Eleuthera.
Campus Farm: Our agricultural systems are designed to grow food for the Island School, as well as plants for ground cover, green manure, pest management, medicinal uses, and research projects such as biofuel production. Native coastal plants and other organic material will be used to restore the beach-dune environments around campus that have been damaged by past development projects and strong weather. This will help create an important windbreak for the area.
Our irrigation water tower is fed by a wellfield 1.5 miles away via solar- powered pump
Energy The Island School is modeling clean energy technologies with a hybrid wind and solar system that provides much of the electricity used by our school buildings. All of the campus’ hot water needs are also met with solar technology and our biodiesel production provides fuel for all of our vehicles and farm machinery.
Solar Hot Water: Passive solar water collectors connected to each building store up to 50 gallons of water per unit. They heat the water up to 180°F during the day and are well insulated such that there is hot water available each morning. Units feed directly into buildings - no back-up or booster heaters are used.
252 solar panels, with a capacity of over 50 kilowatts, are distributed between the Island School and Cape Eleuthera Institute (CEI), providing most of the electricity for both campuses. The success of this system encouraged The Bahamas Electricity Corporation to partner with us to create the nation’s first grid intertie, and will hopefully inform future energy policies and development practices in the Bahamas.
Wind Turbine: Our 10-kilowatt wind turbine sits on a 100-foot steel tower and can withstand wind speeds up to 120 mph. It requires very little scheduled maintenance and produces cost-effective, clean, and renewable electricity.
Using waste vegetable oil from the cruise ship industry, our facility has the capacity to produce 20,000 gallons of clean-burning ASTM D6751 certified diesel fuel per year, which we use in all of our campus vehicles, boats, generators, and machinery.
Design Wherever possible, we apply the principles of “green design” to our building projects on campus. These include: maximizing renewable energy sources and the energy efficiency of buildings; minimizing long-term maintenance needs; and using recycled or locally-produced, sustainably grown materials with low amounts of embodied energy (the total amount of energy required to extract, manufacture, and transport a material).
Casuarina equisetifolia (Australian Pine) is an abundant and non-native, invasive tree species from Australia, which grows throughout the Bahamas. It is considered a biological pest on the Islands because it suppresses the growth of native plants and exacerbates coastal erosion. Casuarina, therefore, makes an excellent choice for local and sustainable building material. At the Island School and Cape Eleuthera Institute, we use it in timber frames, building trim, furniture, fences, and walkways.
Casuarina boardwalk connecting The Island School and Cape Eleuthera Institute campuses
Timber Framing:
Timber frames are structurally sound buildings, known for their longevity. They also allow for flexibility of design and insulation enclosures, making them extremely energy efficient. CEI’s wet-lab is framed with Douglas fir timbers reclaimed from an abandoned wharf in Washington State, and cross-braced with Casuarina. Our new octagonal classroom (pictured here) is being built with Douglas fir that was left standing-dead after a forest fire in Oregon.
Our workshop, completed in the summer of 2002, was designed for hurricane resistance, beauty, ecological integration and education. It was built with the help of many local residents (including high schoolers from Preston H. Albury and middle school children from Deep Creek, Eleuthera) and incorporates components such as Casuarina timber framing, locally produced limestone mortar, salvaged materials, and a living roof.
Click here for a slideshow of the building process.
Leading by Example
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Copyright 2006
The Island School