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Faulkner Architects: Miner Road House, Orinda, California - a steel-clad, net-zero energy house

Project name:
Miner Road House
Architecture firm:
Faulkner Architects
Orinda, California, USA
Joe Fletcher Photography; Drone Promotions (aerial)
Principal architect:
Design team:
Greg Faulkner, Christian Carpenter, Jenna Shropshire, Owen Wright, Darrell Linscott, Richard Szitar, Pete Austin, Ben Lueck, Glenn Lutz
Bob Hodas Acoustic Analysis (Acoustics), Garrett Faulkner (3D Model)
Interior design:
Faulkner Architects with DZINE Concept
Built area:
3725 ft²
Site area:
Design year:
Completion year:
Civil engineer:
Lea & Braze Engineering
Structural engineer:
CFBR Structural Group
Environmental & MEP:
Davis Energy Group
Thuilot Associates
Tools used:
Ethan Allen Construction
Residential › House

Faulkner Architects: The clients are a couple of environmental scientists who, along with their two sons, relocated from the Oakland Hills to the summer climate of Orinda. Their commitment to sustainability, including a request for net-zero energy performance annually, was evident throughout the design process. A three-bedroom program began as a remodel of a 1954 ranch house at the foot of a hill next to a seasonal creek. After finding the existing structure and soils to be unsuitable, the direction settled on reusing the existing footprint under the shade of a Valley Oak that had grown up close to the original house. The surviving portion of the original house is the fireplace which was wrapped in concrete and utilized for structural support. This made additional grading unnecessary and allowed the new house to maintain the same intimate relation to the old oak.

Entry to the 3,725-square-foot house is from the north, where a steel plate covered walkway leads to the front door. Inside, one finds light-filled with 20-foot ceilings and floor-to-ceiling, high-performance glazing builds continuity with the landscape. A 12-foot-wide (3.6-meter) retractable glass wall opens onto a patio and adjoining garden. The family desired an open living layout that connected directly to the landscape. A mezzanine plan evolved with a double height family space nested with a master bedroom and study stacked above the kitchen and nook. A screened pacing deck for long phone calls shades the upper level from afternoon summer sun. Downstairs, secondary bedrooms along an extendable hallway, wrap an outdoor dining area situated between the kitchen and family room.

Construction materials and methods were considered in balance between first and lifecycle costs. The Corten steel rain screen for the exterior skin and interior wood were chosen to take advantage of zero annual maintenance cost and a shotcrete foundation allowed formwork to be repurposed for wood framing.

Single use material selections such as the Corten steel and shotcrete foundation reduced complexity in detailing and labor costs allowing a larger portion of the budget to be reallocated for upgraded mechanical, insulation, and glazing systems. The same attitude for interior finishes produced acoustically detailed, unfinished oak ceilings and walls. The smell of the oak and feel of it under foot builds a multisensory connection to the immediate landscape outside. The sum total of the limited and landscape-driven materials presents a relaxed and quiet built environment that allows the senses to focus on the natural environment. A haptic connection to the rhythms of our planet is present in the lives of the family.

A 14-gauge Corten rain screen provides a no-maintenance skin. High levels of insulation and glazing efficiency reduce heating and cooling loads. An 8.1kW photovoltaic system provides on-site renewable energy and produced more electrical energy than the house used the first year. Rainwater is collected via a waterfall from the roof at the end of the hallway. Buried tanks store water for use in toilets and laundry. Greywater is collected separately and reused for irrigation. Electronically commutated motors and variable speed heat pumps are used to further limit energy use and control heating and cooling. An energy recovery ventilator is used to provide fresh air.

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By Liliana Alvarez

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