Biodesign Competition winners announced – algae takes center stage

[Global] When it comes to design, mother nature has a lot to teach us. The field of Biodesign has emerged as an exciting new discipline which integrates the best ideas from nature with the cutting edge of modern technology, fostering technological breakthroughs that could allow us to live better lives, more in harmony with our environment.

We recently invited architects and designers from all across the world to submit their wildest visions for a Biodesigned future, and they delivered so much creativity and ingenuity that it was extremely difficult to narrow it all down to a short-list and then determine a winner. From algae structures, to aquaponic fish homes, to self-healing homes, we were thoroughly impressed by the entrants of our Biodesign Competition. And the winner is…


Chlorella Oxygen Pavilion by Adam Miklosi

Designer Adam Miklosi was inspired by the concept of symbiosis to create a futuristic oxygen bar called the Chlorella Pavillion which would allow tired people to enter, relax, and fill up on energizing, oxygen-rich air. Miklosi proposes piping living algae through the structure to create a swirling “algae fountain” throughout the exterior and interior of the space. Like all photosynthesizing organisms, algae naturally consumes CO2 and produces oxygen through respiration. Humans relaxing (and breathing) in the space would give the algae the CO2 it needs to survive, and, in turn, the algae would giveChlorella Pavilion visitors an extra oxygen boost.

Chlorella Oxygen Pavilion by Adam Miklosi


Chlorella Oxygen Pavilion by Adam Miklosi

The Chlorella Pavillon was the category winner for ‘Healing Spaces’ in addition to being selected by the judges as the Grand Prize Winner. Designer Adam Miklosi’s algae pavilions are built with molded beech wood and covered with a semi-transparent isolating film. Each pavilion is designed to live and breath interdependently with humans using photosynthesis – exhaled carbon dioxide and fresh oxygen mixes in the central algae fountain. The algae-filled water then circulates in tubes spiraling around the structure that soak up sunlight. Each pavilion is meant to be a “temple of relaxation” in a hectic urban environment.

Self Healing House by Edwin Indera Waskita


Self Healing House by Edwin Indera Waskita

Designer Edwin Indera Waskita’s Self-Healing House explores the value of social sustainability by fostering communities in which humans, animals, plants, and the environment benefit from a mutual symbiosis. The proposal transforms marginalized city spaces into dynamic and productive zones (likeurban farms) to ensure positive and sustainable social growth. The Self-Healing House relies on community participation to improve both the quality of life of inhabitants and ecological balance, and it benefits residents through improved resource distribution. The Self-Healing House is wrapped in an “ecological skin” of mosses and plants which provide a source of food and water for birds. In exchange, by depositing new seeds and plant life, birds will encourage new growth of the skin.


Aquaponic Future Housing by Mihai Chiriac

Aquaponic Future Housing by Mihai Chiriac:

Aquaponic Future Houses are 3-story homes made out of 3D-printed biodegradable vegetable-basedbioplastic, housing living plants and fish in a closed-loop system, where the plants feed the fish, the fish feed the plants, plants produce oxygen for the home’s inhabitants and the fish produce food. In order to create a more sustainable environment, the building uses built-in hydroponics and aquaculture for growing food at home. The home is intended for neglected urban spaces to help urban dwellers live a greener, healthier life.

Jellyfish Lodge by Janine Hung

Jellyfish Lodge by Janine Hung:

The Jellyfish Lodge proposes to rehabilitate the world’s most polluted river slums by removing waste, treating water, growing food, and purifying air all through solar power. The structure’s jellyfish-inspired tentacles will remove garbage from the water while testing water toxicity levels, and microbial digestion chambers within the design will break down harmful microorganisms before returning treated water to the river. An aquaponics system would produce food for nearby residents.

Oculus emergency shelter by Chalmers University of Technology

Oculus emergency shelter by Chalmers University of Technology:

Oculus is a prototype for a rapidly deployable shelter inspired by the Beehive house – a traditional Syrian dwelling with bionic geometry. With a focus on material efficiency, the Oculus is a small den-style single-family unit made of expanded polystyrene (EPS). The dwelling consists of 29 rings set inside each other to form a stepping shell structure. The prototype was developed by 4 students atChalmers University of Technology in Sweden focusing on material efficiency, off-site manufacturing and low-tech assembly. It was developed as a case study through work with the Al-Zataari camp in Jordan.


Algaevator urban revitalization by Jie Zhang:

The Algaevator inserts an algae farm into a weather-tight, transparent and lightweight roofing system that can be used in abandoned buildings to help revitalize urban environments. The algae can be used for various applications in consumer products and alternative fuels. The Algaevator’s funnel shape optimizes sun exposure for algae production and can also harvest rainwater for additional sustainability.

Hybrid Fibrous Morphologies by Ruxandra Gruioniu

Hybrid Fibrous Morphologies by Ruxandra Gruioniu:

Ruxandra Gruioniu’s Hybrid Fibrous Morphologies project seeks to create a new bio-integrative material system out of fungus. Gruioniu experimented with fusing living and non-living matter to develop a cost and energy-efficient architectural solution that resembles the biological model. Fungus is a very simple multicellular microorganism consisting of numerous filaments (hyphae) that have the ability to branch out and reconnect with each other to form a biological transport network over a manmade structure, such as a metal lattice.

Urban Pure BioTower Dennis Dollens

Urban Pure BioTower Dennis Dollens:

Urban Pure: BioTowers are environmentally-friendly buildings for housing, schools, or offices. The design for the towers was inspired by the shape of plants and trees to support healthy living. Enhanced using synthetic biology, AI, and biorobotics, BioTowers “eat” air pollution while contributing energy and green spaces to modern cities.


View original article at: Biodesign Competition winners announced – algae takes center stage

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