Algaevator

Designed at MIT, Algaevator is an artificial environment used to increase the production of algae through the introduction of slow movement, carbon dioxide and sunlight.

What does it mean to spatialize and inhabit infrastructure? The BoTT Lab pavilion investigates the potential of biotechnology utilities to create transparent and lightweight architectural surfaces. An algae photobioreactor is an artificial environment used to increase the production of algae through the introduction of slow movement, carbon dioxide, and increased access to sunlight. The algae is then used for various consumer products and alternative fuels.

Top: Jie Zhang & Tyler Stevermer, Algaevator. Photo Dheera Venkatraman. Above: Jie Zhang & Tyler Stevermer, Algaevator. Photo Iwan Baan

Typically the devices used to propagate algae are hidden in agricultural and industrial structures. This proposal creates a weather-tight roofing system that can add both spatial value and agriculturally productivity to our everyday environment.

Jie Zhang & Tyler Stevermer, Algaevator. Photo Iwan Baan

Research shows that gravity-based photobioreactors (a form of the device where the algae are never touched by moving mechanisms and pumps, but instead by air bubbles and gravity) have increased yields as they offer a gentler form of movement and carbon dioxide introduction. Three separate spirals are intercoiled between a heat-fused, water-tight, layered membrane.

Jie Zhang & Tyler Stevermer, Algaevator. Photo Iwan Baan

Not only does the funnel shape optimize proper sun exposure for algae propagation, but it is able to harvest rainwater for adjacent bio-tech functions while dividing the otherwise open cube of the pavilion, providing spatial experience and implied visitor circulation.

Jie Zhang & Tyler Stevermer, Algaevator.


Algaevator
Program: pavilion
Architects: Jie ZhangTyler Stevermer, in collaboration with Selgascano
Completion: 2016