For decades, the life cycle of buildings was a simple formula: planning, design, construction, demolition, and, of course, the great villain in this history: the landfill. Over time, architectural practice began embracing concepts like reuse, disassembly, and circular demolition, but often as secondary elements, part of the gradual shift toward a circular economy in construction. But what if these principles were no longer exceptions? What if we crafted or chose every building component to maintain value and purpose beyond its original use? The truth is, there is life after demolition. This transition—from demolition to practices focusing on reuse, repurposing, and sustainable dismantling—is edging closer to reality. By the time 2030 arrives, we could fundamentally reshape how we approach processes, buildings, and the market itself. As these changes unfold, we must assess how our strategies align with the evolving goals and challenges related to sustainability—and, of course, the new opportunities they bring.
https://www.archdaily.com/1025567/what-if-every-brick-had-a-future-rethinking-demolition-and-material-reuse-in-the-circular-economyEnrique Tovar
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Project: Mahón Model, from the '111 Casas inHAUS' catalogue. Architect: inHAUS Houses.
Architects from all over the world are invited to participate in the "Best House in the World"competition, a new international contest designed to discover and reward innovative residential architectural designs that have not yet been built and are still in development. The inHAUS brand, with the sponsorship of Geberit, Porcelanosa, Schüco, Joquer and S&P, presents the challenge of industrialized construction for the most daring and creative projects. These are real projects, with actual clients and real plots, designed by architects striving to achieve new standards of excellence and quality in their residential constructions. Dare to challenge the innovative off-site construction system by inHAUS!
With millions of residents flocking to metropolitans each year, South Asia is witnessing staggering levels of urban development. Growth brings economic prosperity and ecological strain as concrete jungles replace natural habitats. The region, home to countries such as India, Pakistan, Bangladesh, Sri Lanka, Bhutan, the Maldives, and Nepal, is faced with addressing contextual challenges when it comes to balancing urbanization with environmental sustainability. These negotiations are fairly nuanced, with a need to understand the economic, social, and political scenarios systematically in each country.
The concept of low-tech architecture recognizes the impact of carbon-intensive technologies and building practices and proposes an alternative: a rediscovery of practical, rational, locally adapted solutions that count on smart design strategies instead of energy-intensive devices to ensure a safe, comfortable living environment. Far from being a regressive approach, the term remains open to innovations but seeks to rebalance the industry's reliance on mechanization. It thus favors an architecture of fewer components, minimized dependence on high-tech solutions, and a preference for low-embodied carbon materials.
This article is the winning entry of the Epistle Writing Prize 2024, an annual competition dedicated to recognizing outstanding writing on design, architecture, and the environment.
We might be in the age of the digital cloud - however celestial or ethereal it may appear to be - but it is not only incontrovertibly material but also a powerful ecological force. In present times, data centers are mammoth powerhouses of modern information, communication, and technology industries with giant servers that store and process data. While their proliferation is in a sense, a consequence of our consumption patterns, and as the global demand for the digital grows, so does the data center footprint.
In 2024, a diverse range of topics have been comprehensively explored, some focusing specifically on architectural details and construction systems. These articles provide valuable insights into architecture's often-overlooked technical and functional aspects. By shifting attention away from aesthetics, materials, and spatial massing, they reveal the importance of intricate details and the construction systems underpinning contemporary projects' larger architectural vision.
Executing these seemingly small elements is crucial in shaping how architecture is perceived and experienced. Specifying and drawing a thoughtfully designed detail is not dissimilar to determining the correct screw in building a car—its thread count, material, and length—can dramatically influence not only the success of an architectural design but also the quality of the human experience it fosters. Such details, while often dismissed as mundane and may not be the most recognizable features of stellar projects, profoundly impact the cohesiveness and functionality of architectural projects.
Situated along the River Mur in the Lend district, the Kunsthaus challenges traditional architectural norms with its organic, free-flowing design. Rejecting orthogonal geometry, the museum seamlessly merges art, architecture, and public interaction, redefining the concept of a cultural institution. Its impact extends beyond aesthetics, sparking urban revitalization in a once-overlooked neighborhood, and bringing cultural vibrancy and economic activity.
Water and daylight? At first glance, they seem like distant concepts: one is tangible, while the other, —though intangible—, manifests itself through its effects and perceptible qualities. Both are powerful and recurring resources in architectural design, often employed only for compositional purposes. However, in the context of indoor pools, this combination is frequently functionally oriented, prioritizing 'protection' from external stimuli. This one-dimensional approach can restrict the dynamic interaction between water and natural light, leading to aesthetic, functional, and operational challenges.
https://www.archdaily.com/1022632/heres-how-to-level-up-indoor-pools-with-daylight-solutionsEnrique Tovar
Architectural grafting, a concept recently popularized by Jeanne Gang inThe Art of Architectural Grafting, presents a transformative approach to urban regeneration and sustainability. Drawing inspiration from botanical and horticultural practices — where new growth is added to existing plants for enhanced resilience — this architectural method integrates new structures with existing ones, allowing them to coexist and adapt. Rather than pursuing demolition, grafting prioritizes adaptation, extending the life of buildings while safeguarding their cultural and historical significance.
While Studio Gang has played a pivotal role in advancing this method, architectural grafting embodies a broader principle that architects have long used to enhance sustainability, conserve resources, and honor heritage. Across scales — from individual buildings to urban landscapes —grafting reshapes the relationship between past and present, adapting existing structures for contemporary needs while addressing environmental demands. By reimagining historic buildings for modern use, this approach fosters a sustainable evolution of cityscapes.
40-storey building utilizing ClearVue BIPV products, solar glazing, and solar cladding. Image Courtesy of ClearVue
People frequently claim that finding smart solutions to problems requires a creative approach that involves thinking outside the box. This premise has become a widely accepted idea in the field of technology, where numerous historical breakthroughs have emerged from innovative methods. Prominent examples in power generation include the discovery of the photovoltaic effect by Edmund Becquerel in 1839 and the development of the first commercial solar panel by Charles Fritts later that century. These milestones have enabled the integration of solar panels as essential components of clean energy generation within architecture, driving a significant shift toward renewable energy.
This shift is currently manifesting as a tipping point between power generation and the built environment, driven by a transition that promotes creative thinking and encourages new perspectives. Today, sustainable energy production extends beyond merely installing solar panels on roofs; it aims to integrate various building elements into the energy system. ClearVue's Building-Integrated Photovoltaics (BIPV) exemplifies this innovation by harnessing nearly all facade components as sources of power production. This vision opens new possibilities for the design of urban structures, promoting a more sustainable approach that aligns with contemporary needs.
https://www.archdaily.com/1022702/powering-up-through-the-facade-maximizing-energy-with-building-integrated-photovoltaicsEnrique Tovar
Prioritizing people and the planet, when it comes to building construction and real estate development, is being seen as more than an ethical mandate - it is a highly profitable approach. Changing market demands, city ordinances, and regulations, and an emphasis on Environmental, Social, and Governance (ESG) factors are all influencing what successful development in the 21st century stands for.
In Toronto, Canada, the ongoing Downsview Airport redevelopment project showcases this mindset in practice. While traditional development has generally focused on maximizing short-term returns, the Downsview project offers a holistic alternative that can invite significant long-term profits, all while addressing broader societal and environmental concerns.
For centuries, models have been central to architectural design, providing architects with a tangible way to explore ideas, test concepts, and communicate their vision. From the Renaissance to Modernism, models have been instrumental in the construction and reflection processes, offering insights into form, proportion, and spatial relationships. However, in today's digital age, where 3D modelsand Virtual Reality(VR) have become powerful and efficient tools, the question arises: Are physical models still relevant in contemporary architecture?
A new generation of sustainable practices is transforming the architectural landscape. What is its 'secret'? The combination of innovation, ecological awareness, and, fundamentally, the revaluation of natural resources that have accompanied humanity since its earliest days. While this knowledge was never truly lost, the techniques associated with these materials have long remained in the background. Today, they are making a resurgence, adapting to modern challenges, and reestablishing themselves as essential, timeless elements in tomorrow's architecture.
https://www.archdaily.com/1022116/smart-eco-conscious-architecture-and-decor-inspired-by-natures-finest-materialsEnrique Tovar
Crisis, crisis, crisis... and guess what? More crises. Every time we hear that word, it all feels more daunting. But here's the thing: with every challenge comes an opportunity. From the affordable housing shortage to the economic downturn and the climate emergency, there's always a new challenge, opening the door to new possibilities. But the truth is, none of these are isolated events; they're all interconnected in some way, forming different facets of the same story. Perhaps one of the least mentioned, particularly when it comes to the built environment, is the global food crisis, which is growing (almost) silently, waiting to take center stage. It poses various challenges for future food production, especially in cities.
https://www.archdaily.com/1021721/future-focused-food-production-integrating-high-tech-agriculture-into-citiesEnrique Tovar
Contemporary challenges and technological developments inevitably trigger changes in how we design and build our cities. The traditional construction industry suffers from inefficiencies that render methods slow, expensive, or harmful to the environment. Excessive material waste and lengthy build times pose significant challenges to built environment professionals, calling attention to the complexity and rigidity of conventional construction processes. The optimization of time and physical resources in construction calls for innovative methods that enhance efficiency.
In an industry where innovation often moves with the eagerness of setting mortar, WoHo Systems, one of ArchDaily's 2024 Best New Practices, has emerged as a disruptor aiming to address global sustainability and housing affordability issues. Born from the experimental roots of Ensamble Studio, this architectural startup wields prefabrication and sustainability as core pillars to redefine construction norms and deliver adaptable building solutions. Their solutions aim to speed up and simplify the construction process, as well as reduce costs and minimize environmental impact.
I was inspired to write this essay by a fascinating post on the social dynamic of porches by Patrick Deneen entitled A Republic of Front Porches. Sustainable places must be acccessible by a variety of means, especially walking. Neighborhoods where people walk to numerous destinations are more likely to be securable, because people tend to know more of their neighbors and therefore are likelier to know when a stranger is in the area. Walkability is essential to a serviceable place, because people won’t walk to those services as often if the pedestrian experience is bad. So walking is a fundamental aspect of a place’s sustainability. Porches can serve a crucial role in the walkability of residential streets in a neighborhood, and therefore in the ultimate sustainability of the neighborhood.
Walls have long been more than mere structural elements; they are canvases that narrate stories, reflecting desires for nature, spirituality, or the pursuit of tranquility and stimulation. With advancements in addressable LED pixels, walls have evolved into immersive digital surfaces capable of displaying any image in large format, adapting to the needs of the moment.
However, while universities continue to train architects and interior designers to create static buildings, the art of meaningful storytelling through digital screens—especially those with dynamics—remains largely unexplored in academic curricula.