![]() ![]() The tower not only provides a fundamental resource for life, but also creates a social place for the community, where people can gather under the shade of its canopy for education and public meetings. Italian designer Arturo Vittori has unveiled the WarkaWater Tower, a revoluntionary new way to collect clean drinking water in Ethiopia and other parts of. ![]() Warka Water relies only on natural phenomena such as gravity, condensation, and evaporation and does not require electrical power. Inside the bamboo structure hangs a plastic mesh that collects droplets of water from high humidity in the air, as well as the collector for dew and rainwater. ![]() There are 16 fixation points placed radially around the tower’s base, where a network of ropes are attached and fastened to stabilise the tower and allow it to withstand very strong winds. Performance depends on weather conditions, but each tower can provide a community with up to 100 liters of water per day. It is also modular and foldable, making it easy to transport. The Warka Tower is a lightweight, easy-to-build system that allows fog, moisture, and precipitation to collect on surfaces. The triangulated frame structure is optimised for lightness and strength and offers both stability and robustness. The WarkaWater tower produces water by harvesting rain, fog and dew from the air. The latest prototype is 36 feet tall and weighs only 176 pounds. The village comprises seven ‘warka houses’ inspired by the region’s vernacular dwellings two ‘warka towers’ designed to collect and harvest potable water from the air ‘warka santiation’ composting toilets that operate without flushing water a ‘warka pavilion’ and a modular edible ‘warka garden’ that provides food for residents. Warka Water is realised with local and biodegradable materials such as bamboo, fibre ropes, and bio-plastic. Termite hives influenced the design of Warka’s outer shell, its shape and geometry, while Ethiopian basket-weaving and vernacular architecture served as an additional source of inspiration.īuilt with simple tools, Warka Water is designed to be owned and operated by the villagers, a key factor that will facilitate the success of the project. The Warka tower, named after the Ethiopian fig tree, is designed to provide water through three methods: rainwater, fog harvesting, and dew condensation. Designed by architects Atruio Vittori and Andreas Vogler, the water collecting towers were conceived to be constructed with indigenous techniques and local natural materials. Warka Water identified specific materials and coatings that enhance dew condensation, water flow, and storage capabilities by studying the Namib beetle’s shell, lotus flower leaves, spider silk, and the integrated fog collection system in a cactus. Fog catchers that extend into the sky, Warka Water towers harvest local potable water for off-the-grid and drought-impacted communities. Many plants and animals have developed unique micro- and nano-scale structural features on their surfaces that enable them to collect water from the air and survive in hostile environments. The Warka’s water harvesting technique and construction system are inspired by biomimicry, which engages the imitation of natural phenomena for the purpose of solving complex human problems. Warka Tower is designed to harvest water from the atmosphere (rain, fog, dew) providing an alternative water source for rural populations that face challenges accessing drinkable water. SOLUTION: Developed by Architecture and Vision Studio with the support of the Italian Cultural Center in Addis Ababa and the Ethiopian government, Warka Water is a 33-foot-tall, robust but very lightweight modular tower made from locally available bamboo and natural fiber ropes. With the objective of providing an average of 100 litres of drinking water every day, Warka Water collects rain and harvests fog and dew. Wevolver reaches millions of professional engineers every month who leverage the platform to stay up-to-date and connect with the industry.Warka Water is an alternative water source for rural populations in Africa that face difficulties accessing drinking water. In the "Bringing Intelligence to the Edge" series published on published on Wevover by Mouser Electronics, we take a look at the transformative power of AI in embedded systems, with special emphasis on how advancements in AI, embedded vision, and microcontroller units are shaping the way we interact with technology in a myriad of applicationsĬheck out the full article by Mouser Electronics here: This has opened new opportunities for edge AI that were previously unimaginable - from enhancing security to driving cars down the freeway, to helping us pollinate plants. Recent strides in the efficacy of AI, the adoption of IoT devices and the power of edge computing have come together to unlock the power of edge AI. is a non-profit organization that focuses on innovative and sustainable solutions. ![]()
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