Have you ever wondered how a pine cone knows when to open and close? That is not magic, It’s science.
Now the researchers have taken this sign from nature to create something quite cool for our homes.
Let’s dive that this revolutionary window technology works, maintaining your home comfortably without using any watt electricity.
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Solar door window system (Conné van D’hrchten)
Natural ingenious design
Corus pine trees have these incredible scales that respond to moisture. When moist, they close firmly. But when it is warm and dry, they open up wide to release their seeds. This simple but effective mechanism has encouraged scientists to develop a smart window system that could change the way we think Energy efficiency in buildings.
Solar door window system (ICD/INTCDC University of Stuttgart)
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Solar door window system
Scientists at the Stuttgart and Freiburg German University have developed what is known as Solar door window system. It’s like tiny Pinecones embedded in your windows. These smart windows have special elements that twist when it’s cool and moist, letting on sunlight warm your home. But when it’s hot and dry, they get prevented to block the sun and stay cold inside.
Solar door window system (ICD/INTCDC University of Stuttgart)
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How it works
The solar door system consists of a trimmed series of elements of self-inspired boro-chanomic cone-centered elements located between two glass panels in the aluminum frame window unit. Each element is ingeniously made with three different layers and each serves a unique purpose. The lower layer consists of cellulose powder and a thermoplastic mixture that swells when exposed to moisture. Above this lies the middle layer made of thermoplastics, which does not affect moisture.
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The upper layer consists of flexible biocomposite philanames that serve to hold the entire structure together. When exposed to the damp air, the lower layer spreads, causing the element to be twisted up. In contrast, in dry conditions it returns to its flattened state. This simple but effective mechanism allows the window to respond automatically Change of weather conditionsproviding optimal shading and penetration of light as needed.
Solar door window system (ICD/INTCDC University of Stuttgart)
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Trial in real world
The solar door system has passed strictly testing in the real world to prove its effectiveness. In a comprehensive multi -year study, researchers installed 424 elements of solar doors in the southern world light of the research building at the University of Freiburg. The results of this extensive test were nothing impressive.
During the cold, humid winter months, the elements responded by twisting upwards, allowing enough sunlight to penetrate the building. This natural response effectively warmed up and illuminated the interior spaces, reducing the need for artificial heating and lighting. In contrast, as the seasons changed and brought warmer, the dry summer conditions, the elements were automatically prevented.
This flattened action served to block excess sunlight, effectively maintaining the interior of the building cold and comfortable without the need for an energy intensive air conditioner. The test showed the system’s ability to autonomously adapt to variable weather conditions, providing optimal comfort and energy efficiency throughout the year.
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Solar door window system (ICD/INTCDC University of Stuttgart)
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Future Energy Effective Buildings
This innovative approach to the construction of technology has far -reaching implications beyond the window system alone. Researchers have already begun to explore similar biomimetic principles in various applications. For example, studies have explored the development of a shading system using wooden slats that can be opened and closed in response to environmental conditions.
In the textile area, scientists work on “smart” clothing fabrics that can be adapted to the ambient temperature, providing optimal comfort to the carriers. Perhaps the most intriguing, these principles are used even in the field of robotics, and researchers develop small mobile robots that can respond to environmental stimuli in ways inspired by natural mechanisms. As we continue to draw inspiration from ingenious nature designs, the potential to create sustainable and reactive technologies seems limitless.
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Solar door window system (ICD/INTCDC University of Stuttgart)
Kurts key endeavor
Nature never ceases to amaze us with its ingenious solutions, and the Solar Gate window system is a great example of how we can use these natural miracles. Moving Pinecon, scientists have created a technology that changes in a game that could revolutionize how we approach energy efficiency in our buildings. It is exciting to think about the future in which our homes and offices adapt to the environment just as living organisms do. Who knew that the key to smarter buildings was hiding in our forests all the time?
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