fbpx
We rely on advertising revenue to support the creative content on our site. Please consider whitelisting our site in your settings, or pausing your adblocker while stopping by.

Get the Magazine

IAAC Valldaura Labs solar greenhouse as seen from above

Relatively small in stature, the Solar Greenhouse aims to tackle a massive problem: the deepening and devastating global food crisis, a catastrophe that is only worsening under the effects of climate change, ongoing wars and supply chain disruptions. “We should be producing food and energy at both a communal and individual level,” says Spanish architect, educator and urbanist Vicente Guallart. Along with architect and co-director Daniel Ibañez, Guallart led the team of students and researchers from their master’s programme in Advanced Ecological Buildings and Biocities at the Institute for Advanced Architecture of Catalonia’s (IAAC) Valldaura Labs, which is responsible for developing the prototype. 

The exterior of IAAC Valldaura Labs solar greenhouse in Barcelona
Angled 32 degrees and facing south, the glass- and solar-panelled roof is in an ideal position for maximum sun exposure — and energy production — in this region of Barcelona.

Set on a hillside in the Collserola natural park near Barcelona, the two-level greenhouse proposal was built by the students over the course of two months, and adheres to a “zero-kilometre philosophy” to reduce its ecological footprint: The structure’s local pine timber was sustainably harvested and processed nearby, and its diamond-shaped roof is composed of glass tiles (which ensure maximum exposure to and capture of sunlight) and solar panels (which power the entire operation). Operable windows at either end can be opened to create natural cross-ventilation. 

View of the germination and cultivation areas inside the solar greenhouse by IAAC Valldaura Labs
With both germination and cultivation areas, the greenhouse allows food to move directly from production to consumption, eliminating parts of the supply chain.

Inside, germination takes place on the lower level and cultivation on the upper one, resulting in reliable and continuous food production. The internal climate is calibrated through a matrix of LEDs and black lights, while a technologically advanced hydroponic set-up allows the plantings (which can include tomatoes, lettuces, leafy greens and more) to grow without  agricultural soil. Instead, recycled sawdust serves as the planting substrate. 

This Solar Greenhouse resides in a picturesque countryside, but it could just as easily be used as a means for food self-sufficiency in busy urban settings — and that is Guallart’s ultimate goal. He hopes to develop an open-source format that can be followed to build similar structures wherever they are needed.

While impractical for skyscrapers, it’s a feasible option for the rooftops of mid-rise buildings and vacant lots, or even as a replacement for a private home’s garage. “It can give people the methods to produce the basic necessities needed to live,” he says. “It’s a new and more resilient way to look at capitalism that doesn’t rely on fossil fuels. It puts the people in power and gives them some of the basic things you need to survive.” 

A Barcelona Greenhouse Sets a Precedent for Urban Agriculture

A solar-powered greenhouse prototype in Barcelona plants a seed for food self-sufficiency.

We rely on advertising revenue to support the creative content on our site. Please consider whitelisting our site in your settings, or pausing your adblocker while stopping by.