Architectural competitions are valuable learning tools, offering architects a unique opportunity to experiment and expand their creative boundaries. By engaging with real-world challenges and receiving critical feedback, participants gain practical experience and a deeper understanding of the profession. Whether conceptual or not, competitions foster innovation, encouraging design professionals to think outside the. This week's curated selection showcases winning competition entriessubmitted by the ArchDaily community, providing architects and architecture students with new perspectives and inspiration for their own practice, be it diploma projects, professional licensing, or commissions.
From an immersive urban park in Seoul, South Korea, to a rural education campus in the Amazon, or a reimagined port in Corsica, this selection highlights projects that have stood out in competitions from around the world. While some of the proposals have been developed by established firms, including KAAN Architecten, ArchiWorkshop, Studio Akkerhuis, or Richez Associés, these competitions have also proven to be an opportunity for emerging designers to showcase their creativity and problem-solving abilities
In the competitive fields of architecture and design, mastering the art of visualization is as crucial as generating innovative ideas. Whether you harness 3D models from SketchUp, use AI-generated images with Diffusion [Labs], or employ external rendering programs like V-Ray, selecting the right visualization technique can significantly advance your professional journey.
Here’s a closer look at the top ten benefits of architectural visualization, illustrated by real-world success stories from the industry.
Anyone who lives in a big city may have dreamed of moving elsewhere and living isolated, in a house among the trees or on a deserted beach. During the pandemic and the endless months of quarantine, many more may have had this same idea. As romantic and seductive as this may seem, however, living deep in nature comes with some important practical challenges. Rarely would anyone give up the little comforts they are used to, like turning on a faucet or charging their cell phone. If the location is, in fact, remote, it may not have electricity, drinking water, gas, sewage, or solid waste collection. But there remain several possibilities for a life with comfort and without neighbors. What are the main solutions to enable this and how can an architectural project provide an off-the-grid life?
CUPACLAD® 201 VANGUARD. Image Courtesy of Cupa Pizarras
Slate is a metamorphic natural rock composed of clay minerals such as mica and chlorite, which give it a laminated texture and predominant shades of gray, black, and green. Widely used in the construction industry, it is known for its durability and distinct elegance, offering a timeless and sober finish for roofs and exterior walls. With its unique texture, it can transform the look of any structure using rectangular—or other shaped—pieces. Additionally, it is a highly resistant material to weather, fire, and environmental pollutants, ensuring long-term performance with minimal maintenance. Its eco-friendly production process, involving only raw material extraction and minimal processing, reduces CO₂ emissions, making it an ideal choice for sustainable contemporary architecture.
Most of us have probably imagined living in a castle at some point, whether during childhood, enchanted by fairy tales, or as adults studying European monarchies. Considering this fascination, what would you think if you had the chance to buy your castle? In mid-2014, you could make that dream a reality in Turkey for just $370,000. Each luxurious 325-square-meter castle came complete with blue turrets and spiral staircases. The only catch? Your castle would be one of 731 identical ones. But who cares about exclusivity when you have the chance to live in a Disney fairy tale?
Every project begins with a program brief outlining the spaces, areas, and requirements essential to kick off the design process. This essential document guides architects in understanding client needs, allocating space efficiently and ensuring the design meets the project's functional requirements.
However, manually converting this tabular data from a spreadsheet to spatial data in your massing tool is incredibly tedious and time-consuming. Tools such as Snaptrude are designed to help architects iterate faster and make more informed design decisions.
Skyscrapers are iconic symbols of modern urbanization and technological advancements all over North America. These structures are a sign of economic prosperity, urban density, and the capabilities of humanity’s ambition. In major cities across the continent, they shape the skyline and give identity to these metropolises. Cities like New York City, Toronto, and Florida utilize these cutting-edge designs to showcase power beyond their physical stature.
In general, skyscrapers are characterized by their remarkable height and pioneering engineering capabilities. They use advanced materials such as steel, glass, and concrete and serve as multifunctional spaces, ranging from housing to hotels and offices. Architects all around the world continually push the boundaries of architectural creativity, design, sustainability, and functionality while crafting these buildings. The structures allow architects to maximize land use in new ways, tackling densely populated urban areas.
They say Rome wasn’t built in a day, and the same surely applies to one of the most prominent and glitzy cities in the world: magnificent Paris. It might even seem that both cities, of legendary repute, are somehow counterparts. They were both envisioned by an emperor who wanted to display a political message of innovation, grandeur, and opulence. In both cases, these major urban reforms and massive reconstructions blanketed any popular struggle or resistance with blinding beauty and a popular entertainment setup (from gladiators to cancan dancers and brasseries). And thus came to be the Paris that we now know, a city of divertissement that amasses over 30 million tourists a year.
But it’s also fascinating to learn how an entire growing city was dealt with as a single, almost experimental mass project. For over twenty years, from 1853 to 1870, Paris was a continuous construction site. With the implementation of new technologies and new design standards, the result was not just a different aesthetic but a completely new social order, urban sprawl, and way of life.
Evolving theories in urban design seek to reframe how cities are built and experienced. As theory and practice grows more empathetic towards the needs of its diverse stakeholders, queer urban design brings a broad and holistic shift to understanding identity and community in publicly inhabited spaces. The approach challenges traditional - often rigid - methods of city planning by applying principles of queer theory to reflect fluidity and interconnectedness. On occasion of Pride Month 2024, ArchDaily investigates the building blocks of "queer urban design" to influence city planning practices to be more inclusive.
In the evolving landscape of architecture and urban design, bioclimatic and biogenic envelopes present a compelling vision for future cities. Dr. Arta Yazdanseta, a Doctor of Design focused on energy and environments, dives into the intersection of design, building performance, and plant biophysical ecology. With a focus on bioclimatic and biogenic envelopes, Dr. Yazdanseta examines how these typologies can enhance socio-natural systems by leveraging their self-organizing potential. Dr. Yazdanseta’s academic journey includes earning a Doctor of Design and a Master of Design in Energy and Environments from the Harvard Graduate School of Design.
Her contributions as a researcher at the Harvard Center for Green Buildings and Cities include developing environmental design strategies and performance analyses for the HouseZero carbon retrofit project. In this interview, Dr. Yazdanseta explores the concept of bioclimatic envelopes and their interaction with passive architectural design principles. With a potential to revolutionize urban environments, the interview reveals insights into her research, the benefits of plant-based materials, and the future of sustainable architecture, emphasizing the critical connection between human and environmental health.
As awareness of sustainable development grows, bamboo is emerging as an attractive alternative to traditional construction materials. This innovative material is making significant inroads in the construction of sports facilities, showcasing how sustainable practices can shape a greener future.
Bamboo stands out as an eco-friendly substitute for wood, concrete, and steel. Its application in sports facility construction markedly reduces environmental impact and enhances sustainability. The use of locally sourced bamboo in certain regions further decreases carbon emissions associated with transportation. The advantages of bamboo extend beyond its environmental benefits. This material is not only strong and durable but also lightweight and flexible, making it ideal for modern construction demands.
Courtesy of Saint-Gobain Architecture Student Contest
More than 224 universities from 29 countries participated in the 19th edition of the Saint-Gobain Architecture Student Contest’s international final. Students from all over the world imagined projects to transform a district of Helsinki in Finland. The winners have just been revealed during an event held by Saint-Gobain in the Finnish capital between June 10th and 12th, 2024.
Developers often make it sound as though their latest LEED platinum office building will single-handedly reverse climate change. The unfortunate reality is that they could spend a lifetime designing and building all of their work to meet the highest environmental standards, but it wouldn’t fix the problem. The planet will grow hotter, the seas will rise, and storms will intensify. A century of burning fossil fuels has baked global warming into the atmosphere for our lifetime.
For cities, hosting an Olympic event represents both an honor, an important opportunity for growth, and a significant challenge. With over 200 nations taking part in the Games, the Olympics are the largest sporting competition in the world. Adapting the public and sporting infrastructure to accommodate this sudden influx of people and the scale of these events runs the risk of misunderstanding the cities’ needs after the closing ceremony, often producing “white elephants” that struggle to adapt to the rhythm and necessities of everyday urban life. Urban transformations are often cited as an advantage of hosting the Olympic Games, as cities are incentivized to invest in their traffic infrastructure, housing, and public spaces. One such example is the city of Paris, which introduced its first metro line on the occasion of hosting the second edition of the Olympic Games in 1900.
When it comes to the venues, however, the issue of adaptive reuse becomes a pressing one, as the architecture is challenged to find solutions to transform, accommodating thousands of people during the Olympics, then scaling down to become a financially sustainable part of a city’s sporting offering. Across the world, several Olympic venues have managed to extend their usability after the closing of the games, opening themselves to the local communities and welcoming a more diverse programming of sports and leisure events. While the high construction costs are often difficult to justify, these venues have become markers of local identity and attractive tourist attractions, extending their use decades after welcoming the Olympic crowds.
When drawing, lines are fundamental elements of composition. They delineate space, outline structures, and define boundaries. When it comes to maps and borders, the line acquires a particular meaning, as this "simple" graphic expression marks a powerful division between regions, setting the beginning or the end of a territory. This line has a profound meaning at the limit between Mexico and the United States, where it constantly blurs and questions the border. In these places, multiculturalism is a daily occurrence, with a continuous negotiation of boundaries present in all aspects of life. The dynamic of these borders involves design and the generation of a complex network of interactions and collaborations.
Rather than being divided into Tijuanenses on one side and San Diegans on the other, this particular region stands out as a community whose essence harmonizes with a deep legacy of cross-border collaboration, rather than being seen as cities separated by a line. As the first binational designation in the history of the World Design Capital (WDC) program, the Tijuana-San Diego region shares a common interest in addressing urban, social, and economic issues through design. Thus, via conferences, policy summits, and workshops, the region seeks to enhance the catalyzation of ideas through its designation.
https://www.archdaily.com/1017806/from-borderlines-to-blurred-boundaries-san-diego-tijuana-as-the-world-design-capital-2024Enrique Tovar
The concept of permaculture refers to a design system capable of creating sustainable human environments based on an ethic and a series of ecological, environmental, and resilience design principles. In contact with plants, animals, buildings, and infrastructures such as water, energy, and/or communications, permaculture analyzes the possible relationships between these elements based on their position in the landscape. Its 12 design principles can be applied in multiple architecture projects of varying scales and programs, contributing, for example, to the dissemination of new ways to reduce energy consumption in homes, save water through rainwater harvesting or the recycling of greywater for sanitary systems, gardens, and more, and participate in food production, among other matters.
The notion of well-being goes far beyond the absence of disease. It encompasses physical, emotional, mental, and social aspects, reflecting a state of harmony and balance in all these areas. Pursuing well-being is a continuous process that requires comprehensive attention and care for the body and mind, and contact with nature or self-care rituals can also contribute. Indeed, in today’s fast-paced world, dominated by digital devices and urban life, in which truly disconnecting is very difficult, finding moments of peace and connection with oneself and nature has become increasingly important. Integrating well-being practices into outdoor environments offers an attractive solution, combining the therapeutic benefits of natural settings with cutting-edge wellness technology, providing a holistic refuge that nurtures the body and soul, and inviting individuals to relax and reconnect with the world around them.
"In various regions of the planet, nature imposes adverse conditions on the human body. In these places, designing a building is almost like creating a garment: an artifact that protects and offers comfort. This challenge requires technological performance that must be combined with aesthetics. Making human beings feel good involves more than just meeting notions of comfort and safety; it's also a question of working with spaces in their symbolic and perceptual dimensions." This is the beginning of the description for the design of the Brazilian Antarctic Station in Antarctica, by Estúdio 41, located on the Keller Peninsula, where the surrounding sea freezes for around six to seven months of the year, where everything and everyone arrives by plane or ship and the nearest hardware store is days away. If designing a building in normal circumstances already presents numerous complexities, it's not hard to imagine the additional challenges when developing something in an extreme environment, such as locations with very high or low temperatures, or in places susceptible to corrosion, radiation, and more. In this article, we will explore the difficulties, the main solutions and the materials used in these contexts.
“Embodied carbon accounts for 75 to 95 percent of the greenhouse gas emissions from landscape architecture projects,” said Chris Hardy, ASLA, PLA, senior associate at Sasaki, during the third in a series of webinars organized by the ASLA Biodiversity and Climate Action Committee. But by selecting locally made low-carbon materials, landscape architects can significantly reduce the climate impacts of their work.
Embodied carbon emissions are generated from the extraction, manufacturing, transportation, and construction of landscape materials. The other share of project emissions come from operating and maintaining a landscape.
https://www.archdaily.com/1017789/climate-action-is-about-choosing-local-low-carbon-materialsJared Green
Flexibility is the buzzword of our time, confronting us in all aspects and challenging both us and our spaces on a daily basis. Today’s living and working environments are defined by fluid and adaptable layouts rather than rigid structures—from the urban multifunctional home to the variable open-plan office that operates as agilely as our work philosophy.
Cities in the US are embracing Accessory Dwelling Units (ADUs) to address the nationwide housing crisis. Often built on existing single-family home lots, ADUs offer an affordable option for increasing housing availability in established neighborhoods. However, like any new housing development, effective regulations are critical for widespread adoption. Los Angeles has emerged as a testing ground in using ADUs to address its housing shortage, providing valuable insights for other cities. The city's experience underlines the challenges of establishing regulations, while also promoting the benefits of ADUs as an affordable housing solution.
Waste is a key topic in the discussions regarding climate change, and the familiar call to reduce, reuse, and recycle continues to be a valid imperative that applies to everyone, and on whatever scale. Still, some industries need to pay special attention to the materials used, and construction is certainly one of them. With construction and demolition waste (CDW) accounting for approximately 25% - 30% of all waste generated in the EU, it is a challenging area that is in desperate need of reinvention, when it comes to materials. As one part of a holistic approach, EPDM (Ethylene-Propylene-Diene Terpolymer) membranes such as Elevate’s RubberGard EPDM can help significantly reduce the environmental impact of buildings. Here’s why.
The history of the use of lime in the construction industry dates back thousands of years, spanning cultures and communities worldwide. In fact, around 4000 B.C., the ancient Egyptians used quicklime mixed with water as a building material for their pyramids. Although lime has multiple applications in the food and agricultural industries, as well as in chemical, mining, and steel industries, in architecture it is one of the main construction materials due to its versatility, adhesion, waterproofing, workability, performance, setting, and durability, which allow for the creation of masonry mortars, interior or exterior plasters, among other functions.
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.
