AlfaTech Big Book – Life Sciences

S U S T A I N A B I L I T Y

CASE STUDY:

LUCAS MUSEUM OF NARRAT IVE ART Los Ange l es , CA

The Lucas Museum was conceived with the bold ambition to challenge the way our societies appreciate art museums. Inspired by its resolute mission, the engineering design blasted off with the vision to deliver a lasting, centenarian building in harmony with its site. The carbon zero design harnessed heat and cooling from the soil beneath the museum with over 700 vertical bores. This constituted the deepearth, pulsating aorta of the geothermal field. A second element of nature was introduced by way of a thermally active water pond, which increased the site’s innate cooling capacity. These features were modulated by the high-efficiency, heat recovery central plant that provided all-electric, simultaneous heating and cooling (and no gas-fired boilers). Environmental quality for prime spaces – galleries, state of the art theaters, and lobbies – were controlled with underfloor air-distribution and radiant floors. Smart controls gently nudged temperature and ventilation parameters to adjust to visitors’ comfort. The superstructure lifted off with an exterior façade that self-shaded the thermal shell, effectively reducing cooling demand. Curved onyxglass organically traced the rooftop which formed the solar PV field. At 365 kW capacity, the renewable energy source reduced an estimated 10-15% of the electricity demand and swung the carbon footprint negative. Ahead of its time, the Lucas Museum will open the doors as an eco-friendly, ‘net zero energy’-ready museum that gives back to the surrounding community.

• Geothermal loop • A solar energy system • Natural ventilation • Displacement system • LED lighting • Spectrally selective glazing

• Grass and native plants • Ecological ponds • EV charger • Rainwater harvesting • Energy efficient HVAC system • Hydronic bidirectional heating/cooling flooring systems

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