Renewable Energy: The Latest Architecture and News

Some of the most significant transformations of South American landscapes have been produced not by cities, but by large infrastructures built to extract and distribute natural resources. Mining operations, energy systems, and transport networks have connected remote landscapes to broader economic structures while transforming rural territories and urban settlements throughout the continent. These infrastructures do not simply occupy space; they reorganize it. They have not only supported economic growth but also reconfigured territories in ways that continue to generate political, environmental, and social debate across the continent. From this perspective, territories can be understood not as fixed geographic areas but as socio-ecological systems shaped by cultural, environmental, and political relations, a point emphasized by anthropologist Arturo Escobar in his work on territorial thinking in Latin America.

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Beyond being a source of life, the power of the sun in architecture has long been tied to humanity's need to harness and control it as a vital resource. Since ancient times, solar energy has been used to measure time, support planting and harvesting, and provide protection from heat and cold. Today, solar radiation plays a significant role in global energy consumption. Architectural solutions based on materials, technologies, and environmental analysis are developed with an understanding of solar energy's capacity to transform the interior environment of buildings. But how can buildings be transformed into sources of clean energy?

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January 26 marks the International Day for Clean Energy, an initiative aimed at raising awareness and mobilizing action for an inclusive transition from fossil fuels, such as coal, oil, and natural gas, to power generation systems with lower greenhouse gas emissions and fewer pollutants. The term "clean" signals a fundamental shift away from extractive, finite, and exhaustible energy sources toward systems based on renewable resources or on capturing energy embedded in natural processes. In a world grappling with climate change, clean energy plays an important role in reducing emissions and expanding access to reliable power. However, being labeled "clean" does not exempt these systems from the impacts associated with their production, deployment, and commercialization. In this context, architectural knowledge related to space, materiality, and habitation becomes relevant for supporting a transition toward energy systems that are sustainable over time. As stated by the United Nations, the science is clear: to limit climate change, reliance on fossil fuels must end, and buildings must be heated, lit, and electrified through clean, accessible, affordable, sustainable, and reliable power sources.

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Taking a deeper look at the interplay of light and shadow in architecture seems to be a recurring topic on the agenda of many professionals in the field. Spaces of light and darkness are conceived to enhance circulation and spatial directionality, as well as to highlight the colors, textures, and forms of specific architectural elements. That said, the impact of natural light on building facades reveals the need to develop strategies that support energy savings, improve the thermal and visual comfort of interior spaces, and promote the reduction of carbon emissions. Considering light as another material in architecture, in what ways could its power contribute to the architectural experience?

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Oxford United Football Club's planning application for a new all-electric football stadium has been approved by Cherwell District Council. The scheme was developed by a team that includes AFL Architects, Mott Macdonald engineering services, Fabrik landscape design, and Ridge and Partners built environment consultants. Designed for a capacity of 16,000 spectators, the master plan also proposes a 1,000-person events space, a 180-bed hotel, a restaurant, a health and wellbeing centre, and a new public plaza with gardens.

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Enel, a global leader in renewable energy, launched "WinDesign", an international contest where talented professionals and students, in the domain of engineering, architecture and design, are invited to imagine and design new wind turbines. The goal is to develop turbines projects that blend more seamlessly into the landscapes that host them, thereby supporting a wider role for them in the energy transition.

Garcés de Seta Bonet and MARVEL Architects' proposal won the competition to adapt and expand the Tres Xemeneies/Three Chimneys, a former power plant set to become the Catalunya Media City hub in Barcelona, Spain. With their winning design, the two studios sought to preserve the site's historical legacy while creating a space that can evolve and shape future possibilities. Scheduled to begin in the summer of 2025 and expected to be completed by 2027/2028, the project is planning to offer a range of features and services designed to foster innovation, creativity, technology, training, and digital culture exhibitions.

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The Vitra Design Museum presents 'Transform! Designing the Future of Energy', an exhibition running from March 23rd to September 1st, 2024. As energy stands as the cornerstone of modern society, the subject encompasses political, social, and environmental dimensions. The exhibition aims to highlight design’s role in the effort to transform the energy sector into a more efficient, reliable, and sustainable one, relying more on renewable sources, smart mobility systems, and moving towards self-sufficient cities.

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Unlike the air, the temperature in the subsoil varies very little during the year or according to geographical position. A few meters below the surface, the ground temperature is between about 10 to 21°C (50 to 70°F) depending on the region. Dig deeper, and the temperature increases between 20 to 40 degrees centigrade per km, reaching the Earth's core, which approaches 5000 °C. In fact, thinking about how we inhabit a sphere that is orbiting through space with a glowing center can be distressing for some. However, it may be helpful to learn that using Earth's forming energy to generate electricity is a sustainable and efficient way that is already common in some countries. At the same time, we can also take advantage of the mild temperature found a few meters under the ground to acclimatize buildings, whether in hot or cold climates.

Zaha Hadid Architects have released images of their design for the world’s first hydrogen refueling infrastructure for recreational boating. Continuing ZHA’s experience in maritime designs, the stations are to be installed in 25 Italian marinas and ports. Launched by NatPower H, the stations will begin to be implemented in the summer of 2024, with plans to expand to over 100 locations throughout the Mediterranean Sea in the next six years.

MVRDV, in collaboration with UAD, has been selected as the winner of the competition to design a new library for Wuhan, poised to become one of the largest libraries in China. The large-scale project creates diverse study environments and offers reading and studio spaces while also connecting to its surroundings via three large openings that display the life inside the buildings to invite visitors to enter. Spanning over 140,000 square meters, the distinctive building adapts its volume to reflect its position at the confluence of two main rivers in Wuhan and become a recognizable landmark for the city.

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