buoyant ecologies float lab

1/10

2019

San Francisco, CA

 

K&A Scope:

Single use CNC machine EPS foam pattern (132sf). FRP tool (mold) with inserts, and indexing materials as needed (132sf). Two FRP parts, bonded together to form one float lab with removable "lids". Installation of misc. latches, cleats, thru-hull fittings, vents, pumps, and attachment points. Parts fabricated with vinyl-ester resin, and 8 layers 1.5 oz CSM reinforcement. Finish: lightly sandblasted post applied white polymer concrete.

Description:

The Float Lab integrates an innovative, ecologically optimized fiber-reinforced polymer composite hull with variable topographies that perform both above and below the water. On the top, the topography is engineered to channel rainwater and produce watershed pools for intertidal or terrestrial habitats. Underwater, the hull’s peaks and valleys vary in size to provide habitats for different types of invertebrates. Water flowing along this underwater landscape brings plankton and other nutrients into these “fish apartments,” helping to promote ecological diversity. In large masses, this biological growth can help attenuate wave action and reduce coastal erosion, one of the primary impacts of climate change and sea level rise. Throughout its deployment, attachment fittings on the underside will suspend ecological habitat prototypes to further develop the wave attenuation potential of the optimized substrates.

Materials Used: 

Vinyl-ester resin, 8 layers 1.5 oz CSM reinforcement 

Press: 

CCA

Client: California College of the Arts, San Francisco, CA

Architect/Artist: Adam Marcus, Margaret Ikeda, and Evan Jones

Kreysler & Associates  |  501 Green Island Road, American Canyon, CA 94503  |  707-552-3500  |  info@kreysler.com