Solar design in contemporary architecture is rooted in the profession's sustainable turn. The relationship between architecture and energy is tied to both passive strategies and performance via more recent innovations in technology. As one way to begin addressing the global climate crisis and greenhouse gas emissions, solar design is reshaping cities and architecture around the world.
Along with concerns about our environment, new movements, words, concepts, and terms related to these issues constantly emerge, which require us to always remain up to date. The word sustainability itself faced some resistance until it was incorporated into common vocabulary and used widely in the most diverse contexts. Currently, much discussion surrounds the terms circular economy, resilience, the 4 Rs, urban mining, and others. In addition, there are some sustainability-related movements that have been incorporated from activism in other fields, showing the fluidity of such issues. One such initiative is the 0 kilometer materials movement, which has been featured in manifestos and some projects, albeit timidly, in recent times.
The progressive departure of factories from cities, often due to environmental regulations, noise ordinances, or the price of real estate, has left many urban manufacturing facilities abandoned and out of use. As these urban factories are left empty, many adventurous developers are taking advantage of the plentiful space, light, and flexible functions that they offer, leading to a residential revitalization in many of the world's defunct manufacturing facilities.
Since immemorial time, humans have constructed their shelter and homes using wood. Gradually these structures grew more complex, but wood has continued to play a fundamental role in architecture and construction. Today, especially due to growing concerns about climate change and carbon emissions, wood has been regaining significance as an important building material for the future, if used consciously and sustainably. Wood’s structural performance capabilities make it appropriate for a broad range of applications—from the light-duty repetitive framing common in low and mid-rise structures to the larger and heavier, often hybrid systems, used to build arenas, offices, universities and other buildings where long spans and tall walls are required.
Maria Montessori began to develop her educational method at the beginning of the 20th century. In general terms, the method is a scientific pedagogy that promotes an education that positively contributes to the development of children's brains, respecting their individuality and stimulating their autonomy, self-esteem, and self-confidence.
Although the method was created in the last century, science is currently beginning to test much of the information investigated by Maria Montessori. For this reason, it is increasingly being applied to architecture for children’s educational spaces, improving the quality of children's learning and development and providing them with better tools for their future lives.
Throughout history, sunshades--light-weight screens typically made of interwoven wooden reeds--have been the go-to method of sun protection and temperature control for dwellings across civilizations, especially those located in tropical and Mediterranean climates. While offering protection from the sun's heat and rays, sunshades also allow air to permeate, making them an effective and economical cooling system for interior spaces.
On behalf of the entire ArchDaily team, we would like to thank you for your continued support and for making 2020 our best year so far! We are now reaching more architects around the world and inspiring them in the creation of better built environments. With more than 5500 different projects published during the year, our curators are excited to share this collection of the 100 most visited projects of 2020. This selection represents the best content created and shared by the ArchDaily community over the past 11 months.
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