Many major cities in the United States are grappling with large industrial buildings that have fallen into disuse. These buildings hold historical and architectural significance and are often protected from demolition. Consequently, architects face the challenge and responsibility of adapting these buildings to contemporary functionalities. Opting against demolition reflects a sustainable construction approach and highlights the importance of honoring the built heritage.
Housing is a diverse architectural typology whose configuration is determined not only by those who design it but also by the use of those who live in it. Therefore, homes are fundamentally adaptable structures that evolve in line with their time and users, undergoing constant changes manifested in the ways of living. The house conceived today will not be the same as the one built tomorrow, so it becomes necessary to maintain a critical and profound approach to the role it plays in the built environment.
In this sense, modular architecture has consistently presented itself as a dynamic design strategy that has revolutionized housing, developing versatile solutions for sustainable spaces and construction practices. Thus, modular housing has been fertile ground for exploring and deepening ways of inhabiting space and addressing human needs. From the prefabricated catalog houses of the 19th century to the post-World War II housing boom, its evolution reflects both past proposals and the exploration of new concepts for the future.
https://www.archdaily.com/1015545/how-can-modular-design-be-used-to-revolutionize-housing-architectureEnrique Tovar
The world has its eyes on the Amazon. Geographical data about this vast territory, spanning 6.74 million square kilometers across eight countries in Latin America, is constantly featured in national and international media. Headlines often highlight its sheer magnitude as the largest tropical rainforest in the world, home to 10% of the planet's biodiversity, and responsible for 15% of the Earth's freshwater. However, little attention is paid to what transpires beneath its canopy, on the ground where people live.
At a time when sustainability and ESG (environmental, social, and governance) concerns are prevalent, there is a crucial need to focus on a sector that accounts for 38% of all global CO₂ emissions and consumes 30% of global resources: the construction industry. In 2022, at COP27, the United Nations announced the Clean Construction Accelerator, a program with actions designed to reduce greenhouse gas production by up to 50% by 2030. A report by ARUP and the World Business Council for Sustainable Development suggests that half of building emissions come from embodied carbon, which is generated in the manufacturing and transportation of materials, not just in construction sites and buildings themselves. It is precisely in this scenario that we see an opportunity for the sector. What is the only renewable material in construction that retains carbon instead of emitting it? Wood.
When thinking of wood, another question tends to arise: "How can wood be sustainable if we need to cut down trees for it?” Ana Belizário, the Commercial Director of Urbem, a large-scale Brazilian mass timber industry, explains throughout this article how planting trees specifically for consumption is not only a sustainable alternative but also an excellent practice in combating the climate crisis and can regenerate the construction sector.
ZEB Living Lab is a research building that stands out for its pioneering initiative among zero-emission buildings, seeking to have a significant impact on the future. Located in Trondheim, Norway, it is much more than just a building; it is a tangible manifestation of the global commitment to sustainability and innovation. Conceived as an advanced research laboratory and a practical example of sustainable construction practices, it represents the point of convergence between architecture, technology and environmental awareness. Managed in collaboration between NTNU (Norwegian University of Science and Technology) and SINTEF (Scandinavian Institute of Technology), this center of scientific excellence is a platform for living experimentation, where innovative materials and solutions are developed, tested and demonstrated in direct interaction with the building occupants.
Every year, Earth Day, celebrated on April 22, presents us with an opportunity to contemplate the conditions of our planet and our impact upon it. Generating around 37% of global carbon emissions, the construction industry has an important, often detrimental, role to play, thus placing an increasingly urgent responsibility on architects and builders to devise strategies for reducing this number. Still, the built environment represents the habitat for most of humanity, and so it has the potential to protect and shelter people from the risks posed by the changing climate. Read on to discover a collection of articles delving into the strategies available at urban and architectural scales for mitigating the effects of climate change and minimizing the industry’s impact upon it.
In June 2023, the planet experienced its hottest month on record. In Iran, the heat index reached a staggering 66.7 degrees Celsius, pushing the boundaries of human endurance. This alarming trend is not an anomaly. It is a stark reminder that temperatures will continue to rise as climate change intensifies.
Scientists are linking the rise to human-induced climate change and the El Niño phenomenon. Additionally, the natural warming of Pacific Ocean waters is being further intensified by global warming.
At the dawn of Modernism, in the fervent search for innovative, efficient, and cost-effective building systems, the idea of modular construction offered the promise of exactly that: an industrialized system comprised of ready-to-assemble elements, easily configured, cost-effective, and quality-controlled. While the idea did not gain as much traction as was initially expected, it has remained an attractive premise for architects and designers. Now, new developments in the field have led to a renewed interest in the matter, as modular housing emerges as an effective measure in various fields, from affordable housing to emergency shelters, or even as platforms for interdisciplinary collaboration, participation, and co-design. The following article explores this promise of accessibility, creativity, and affordability that has become an integral part of the debate around modular architecture.
While hybrid working and flexible hours represent the most obvious ways to improve work/life balance for many, because of the missed social interactions and the lack of space or functionality at unproductive home workspaces, the majority of 16-24-year-olds are the only age group who prefer to work from the office.
As Milan Design Week begins, the Italian city is transformed into the grounds of one of the most expansive celebrations of global design, with its streets and venues brimming with cultural events, exhibitions, large-scale installations, talks and conferences. At Rho Fiera, the 62nd edition of the Salone del Mobile.Milano brings together designers, architects, producers and leading figures of the design world, featuring over 1950 exhibitors which will remain open for the next 6 days. Additionally, across the city Fuorisalone opens up locations across the city with an engaging and varied cultural program.
The flexibility of architecture allows it to continuously change and adjust its form in response to technological progress, social and artistic trends, and the collective experiences we undergo. Large-scale global events, such as the transatlantic migrations of the 19th century, the impact of tuberculosis on design, and most recently, the effects of the last major global health crisis (COVID-19), have all played significant roles in shaping the evolution of architecture.
In the context of the climate crisis, the role of architecture and urbanism has been extensively debated, as it represents one of the greatest challenges of this century. It is undeniable that while there are active efforts through policies and innovation to prevent reaching a point of no return, architecture is already adapting to the changes and extreme conditions caused by it. Rather than thinking of a distant or dystopian future scenario, the gradual changes in climatic conditions have been drivers for modifying, through architectural operations, how we conceive contemporary buildings.
https://www.archdaily.com/1015368/introspection-elevation-covering-up-radical-architectural-operations-for-adverse-climatesEnrique Tovar
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.
Alero Olympio (1959-2005) was an architect and builder known for an intimately ecological approach to architecture. Born in Ghana, she divided her practice between Ghana and Scotland. She focused on work that prioritized people and was sincerely committed to social and environmental sustainability, prioritizing using locally sourced materials.
Her work legacy includes physical buildings like the Kokrobitey Institute, her advocacy for earthen constructions, research on sustainable forestry products, and so much more. However, a gap exists in the institutionalized archives of her work, leading to the current ongoing efforts to build a comprehensive archive of her contributions. The 2024 Womxn in Design and Architecture (WDA) annual conference organized by Princeton University School of Architecture made a significant contribution. It featured exhibitions, seminars, and panel discussions that reflected on Alero Olympio's legacy and examined the architectural insights her work continues to offer.
When discussing sustainability in construction, we are used to an approach based on complex technological solutions, expensive sensors, costly materials and, most recently, artificial intelligence. But what if everything we are looking for (in terms of sustainability) could come from the materials themselves, taking advantage of their intrinsic properties, without even relying on electricity? The use of hygromorphic materials offers an innovative perspective and sheds light on little-explored possibilities in the field. These materials can adapt to variations in environmental humidity, changing their shape, size or other physical properties. Examples in nature include wood, hygroscopic proteins such as collagen, polysaccharides such as cellulose and chitin, hygroscopic minerals such as certain salts and silica gel, as well as spores and pollen grains; all of which exhibit the ability to absorb or release moisture in response to changes in humidity. In architecture, researchers have been striving to develop materials, particularly for façades, that can take on a life of their own and make buildings more comfortable naturally.
The Obama Foundation has released details about the design of a new athletic, program and event facility to take shape at the Obama Presidential Center located on the South Side of Chicago, Illinois. Designed by Moody Nolan, the facility titled Home Court will offer the largest gathering space on the campus, serving as a place for community engagement as well as health and wellness activities. The venue is scheduled to become the first space within the Obama Presidential Center campus to open in late 2025.
When considering traditional brick facades, we usually conjure up images of solidity and robustness. Solid ceramic blocks, recognized for their ability to withstand compression and offer strength and durability to structures, are materials frequently used in architecture. However, innovation in construction materials has made space for solutions that combine tradition and modernity, transforming the use of materials such as brick. In contemporary construction, the integration of solar control measures has become essential to improve the energy efficiency of buildings, especially in hot climates where the need to mitigate the effects of solar radiation is critical. This is one of the areas in which brick can play a significant role, aided by new technologies.
The main role of architecture is to create structures that protect us from the environment and create spaces that are safe and comfortable for all types of needs and activities. By providing shelter, architecture also shapes the way people interact with their surroundings. Building technologies of the past rarely managed, however, to create a complete separation between us and the outside world.
While impermeability was a desired outcome, the porous building materials available always allowed some water, wind, or outside particles to leak into the interior spaces. In contrast, modern technologies now allow for almost completely impermeable building envelopes, allowing for complete separation between indoors and outdoors, thus relying on engineered systems to regulate temperature, airflow, or humidity. This article explores the differences between these two contrasting approaches, exploring how building facades are equipped to regulate indoor comfort and its environmental impact.
For a long time, the construction industry has followed a linear process - extract raw materials, build structures, demolish them, and then dispose of the garbage in landfills. This approach has serious negative effects on the environment and society and is inherently unsustainable. Reconsidering traditional methods and workflows requires support from all stakeholders and a sense of urgency proclaimed by authorities. In the United States, city organizations have begun to implement new policies to keep construction waste out of landfills and support circular practices. Several cities like Seattle and Pittsburgh, have started implementing deconstruction ordinances that require older buildings to be carefully deconstructed rather than demolished. How might their key provisions influence circular practices in the country?