Cloud Field, a submission to LAGI 2019 Abu Dhabi
TEAM: Ignacio Martí
ENERGY TECHNOLOGIES: organic photovoltaic (OPV)
ANNUAL CAPACITY: 1,172 MWh
Light Up, 1st Place Winner LAGI 2018 Melbourne
TEAM: Martin Heide, Dean Boothroyd, Emily Von Moger, David Allouf, Takasumi Inoue, Liam Oxlade, Michael Strack, Richard Le (NH Architecture);
Mike Rainbow, Jan Talacko (Ark Resources); John Bahoric (John Bahoric Design); Bryan Chung, Chea Yuen Yeow Chong, Anna Lee, Amelie Noren
(RMIT Architecture Students)
ENERGY TECHNOLOGIES: flexible mono-crystalline silicon photovoltaic, wind energy harvesting, microbial fuel cells
ANNUAL CAPACITY: 2,220 MWh
Nest, a submission to LAGI 2019 Abu Dhabi
TEAM: Robert Flottemesch
ENERGY TECHNOLOGIES: mono-crystalline bifacial PERC solar modules with module level DC optimization
ANNUAL CAPACITY: 6,633 MWh
Solar Eco System, a submission to LAGI 2010 Dubai/Abu Dhabi
TEAM: Antonio Maccà, Flavio Masi
Energy Technologies: photovoltaic panels
Annual Capacity: 1,000 MWh
Sun Flower, 2nd Place Winner, LAGI 2019 Abu Dhabi
TEAM: Ricardo Solar Lezama, Viktoriya Kovaleva, Armando Solar
ENERGY TECHNOLOGIES: translucent solar photovoltaic and gravity storage
ANNUAL CAPACITY: 350 MWh
The Pipe, a submission to LAGI 2016 Santa Monica
TEAM: Abdolaziz Khalili, Puya Kalili, Laleh Javaheri, Iman Khalili, Kathy Kiany (Khalili Engineers)
Energy Technology: Photovoltaic Panels
Water Technology: Electromagnetic Desalination
Annual Capacity: 10,000 MWh to generate 4.5 billion liters of drinking water
The Solar Seesaw, a submission to LAGI 2019 Abu Dhabi
TEAM: Luca Fraccalvieri, Ahmad Nouraldeen
ENERGY TECHNOLOGIES: flexible thin-film solar photovoltaic (CZTS) by Crystalsol™ or similar
ANNUAL CAPACITY: 2,800 MWh
Solar Hourglass, 1st Place Winner, LAGI 2014 Copenhagen
TEAM: Santiago Muros Cortés
Energy Technologies: concentrated solar power (thermal beam-down tower with heliostats)
Annual Capacity: 7,500 MWh
Unexpected Scenarios, a submission to LAGI 2019 Abu Dhabi
TEAM: Riccardo Daniel, Kei Shiho, Francesco Feltrin
ENERGY TECHNOLOGIES: solar thermal with Stirling heat engine and calcium hydride reactor with hydrogen energy storage
ANNUAL CAPACITY: 175 MWh
There has never before been a time in human history when we stood at a crossroads the likes of which we confront today. The actions we take in the next few years will have resonance across centuries.
Scientists have defined our global “carbon budget” as the total amount of CO2 (and CO2 equivalent greenhouse gases) that can be emitted into the atmosphere while avoiding the most catastrophic impacts of climate change. The prognosis given by climate scientists is that if we continue to pollute the atmosphere at current rates, we have only eight years remaining until we have exhausted our carbon budget. The conclusion is that we need to draw down CO2 emissions rapidly. If we are to stand any chance to avert the worst effects of climate change, we must see emissions peak in the next few years and we must reach net-zero emissions annually by the year 2050.
At the same time we are confronted with the reality of unsustainable human consumption of limited natural resources driven by a global economic system that measures its own success with concepts of limitless growth. The expansion of our carbon footprint is matched only by the expansion of our waste streams, including our disposal of single-use plastics that permeate the remotest reaches of the earth.
We know the stakes are high and the potential damages are great. The good news is that there are many workable solutions out there just waiting to be implemented. What the world needs now more than ever is a demonstration project, a proof of concept for how to live right with nature in a 21st-century world.
As we implement solutions, we should recognize that technology does not live in a vacuum. It is born from human culture and it thrives when we care for it.
If we are going to meet the ambitious goals required to address the climate crisis, the solutions for carbon-neutral energy generation, water conservation, regenerative agriculture, sustainable buildings, and zero-waste cannot be shrouded in mystery, unpleasant to be around, alien, or unfamiliar to people.
They must instead be an integral part of comprehensive and holistic systems of human thriving. We propose that they be conceived of as cultural landmarks—as works of art in the landscape. Let’s inspire the world to swift climate action by designing the beautiful post-carbon world within which we will all desire to live.
There is an inherent beauty in natural systems that reflects the steady-state of their balance, where the life cycles of living things are in harmony with the energy and resources that naturally flow through them—where nothing is wasted and all that is required to thrive comes from the sun, the wind, and the weather. Could it be that when we are capable of designing such systems we will find inherent beauty emerging from them as well?
Fly Ranch provides the perfect context in which to experiment with new systems for human thriving, and to tackle the hard problem of net-zero sustainable infrastructure with circular design thinking.
The outcomes of LAGI 2020 Fly Ranch will offer the world a portfolio of solutions for energy, water, food, shelter, and zero waste that incorporate the latest technologies available as media for awe-inspiring works of infrastructural art in the landscape.
The goal is to conceive of a place that can serve as a fertile ground for exchanging ideas, innovating, experimenting, art making, and healing—a place that sets the highest standards of excellence, providing for its own sustainable operations, and also giving back generously to help other places reduce carbon.
As Burning Man embarks on a 2030 plan to make the annual event at Black Rock City sustainable, Fly Ranch will almost certainly serve an important role in that effort.
Fly Ranch is less than five miles from Black Rock City, but in that short distance there is much that changes in the landscape. The 3,800 acres of Fly Ranch are home to at least 126 plant varieties (100 of which are native), 90 varieties of birds, 15 mammals, 11 reptiles and fish, and at least 24 varieties of insects. Successful proposals to LAGI 2020 Fly Ranch will respect and support this biodiversity.
Fly Ranch is set within a regional ecosystem of extremes, with hot dry summers and cold wet winters. The temperature ranges from below 0 °F (-18 °C) in the winter to over 105 °F (40 °C) in the summer. These extremes offer challenges and opportunities for creativity.
As designers and creatives you hold the keys to a successful transition to a culture of stewardship and conservation of nature.
By painting a clear and beautiful picture of human settlement in harmony with the planet—a glimpse into a post-carbon world that is attractive and desirable, you can inspire the world to the actions needed to achieve these ends on a global scale. Consider how visitors to Fly Ranch in the year 2050 will experience your landscape, the places you design, the systems you employ. Think about how they will reflect at that time in the not-so-distant future on the ideas you present in response to this challenge. How will they see your proposal from the vantage point of a world that has reached net zero emissions? Perhaps they will reflect on how in the year 2020 we came together at these dire crossroads and made the right decision on which path to follow.
As you begin your design process, we ask that you take a moment to acknowledge the bands of the Northern Paiute, the traditional custodians of the landscape within which you will be designing, and recognize their continuing connection to land, waters, nature, and culture. We pay our respects to their Elders past, present, and emerging.
We’re looking forward to seeing your designs for LAGI 2020
Elizabeth Monoian and Robert Ferry
LAGI Founding Directors
Land art generator initiative (LAGI)
What could our sustainable infrastructure look like if creatives were at the helm of designing these systems?
The Land Art Generator initiative (LAGI) was founded in 2008 to engage the world in an exploration of how art in public space can actively contribute to a sustainable future, and how renewable energy infrastructure can become a beautiful and relevant extension of human culture.
Since the launch of the first LAGI open-call design competition in 2010, thousands of creative minds from over 80 countries have responded to the challenge with designs for site-specific public art installations that have the added benefit of large-scale clean energy and water generation. Open design competitions for Dubai/Abu Dhabi (LAGI 2010), New York City (LAGI 2012), Copenhagen (LAGI 2014), Santa Monica (LAGI 2016), Melbourne (LAGI 2018), Abu Dhabi (LAGI 2019) have captured the imagination of the world.
As we move closer to a 100% renewable energy world over the coming decades, it is important that art and design have an influence on the aesthetics of sustainable infrastructures within our cherished urban places and our scenic landscapes.
The great energy transition offers an opportunity for artists and designers to leave a lasting cultural legacy through which future generations can remember this important time in history.
Thanks to their innovation and creativity, LAGI design challenge participants are inspiring people everywhere about the beauty and promise of a net-zero carbon future, and providing new ways of thinking about how we can integrate sustainable infrastructure into the cultural fabric of our cities.