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Architects: Stelle Lomont Rouhani Architects
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Photographs:Matthew Carbone
Text description provided by the architects. The owner of an existing Acorn house located in the woods in Amagansett, New York came to us with the request to design in its place a modern single-family residence with as much attention to energy use and sustainability as possible. With budget in mind we embarked on an exploration of to achieve this using conventional building methods, which quickly led to a dead end. Enter ASUL, a company from Arizona that specializes in a system based design methodology and a kit of parts site-built assembly process. Through this collaboration we were able to achieve the design at a much lower cost to the client. While the owner initially had hopes of employing roof mounted solar panels to generate electricity, and a geothermal system for cooling and heating, it soon became clear that neither the large forest canopy, nor the heavy clay content of the soil were going to make either feasible.
Maximizing the solar orientation, we turned to integrating passive solar design principles into the structure. A large overhang and the deciduous trees allow for natural shading in the summer. In the winter, the low sun penetrates glass with a very high solar heat gain coefficient, and heats the floor, which in and of itself acts as a thermal mass. The portion of the roof that does receive adequate sunlight receives solar hot water heaters. These panels tie into an advanced mechanical system to provide radiant heating throughout the house. The north wall is heavily insulated, with strategic openings used for cross ventilation. The combination of a high level of attention to insulation and air quality throughout give the house an Energy Star rating.
Narrative on Sustainability
A 3,000 square foot Energy Star rated single-family residence in the woods of Eastern Long Island takes advantage of the site and orientation to maximize passive solar energy use. The southern façade, with floor to ceiling glazing relies on a continuous overhang and the surrounding forest canopy for shading in summer time. In winter, the process reverses with the lower sun penetrating the glass and allowing the thick masonry floor to capture the heat. Roof mounted solar water panels tie into an advanced mechanical system and provide radiant heating throughout. This project is a collaboration with ASUL who have developed a locally adaptable site-built process combining a kit-of-parts assembly model with contemporary materials and labor management practices to achieve affordability.