Waste Management |
The Swedish Israeli Melodea company licensed the product from the Hebrew University, and is now looking for seed money in order to bring the foam product to the market. That product has two parts, the microscopic fibers as well as the final foam material. Using existing technology, the team of researchers was able to take cellulose, a natural material produced by trees, and reduce it to a microscopic scale. The tiny cellulose fibers were used as building blocks to create the three-dimensional, lightweight and strong foam.
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A Japanese man concerned about the environment his children have inherited, dreamed up a way to convert plastic back into oil, reducing carbon emissions in the process. With all the plastic in the world still in existence, and peak oil on its way, plastic (and a machine like this) may soon become one of the world’s most prized commodities.A Japanese man concerned about the environment his children have inherited, dreamed up a way to convert plastic back into oil, reducing carbon emissions in the process. With all the plastic in the world still in existence, and peak oil on its way plastic (and a machine like this) may soon become one of the world’s most prized commodities.
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Conceived by Akinori Ito with the Blest Corporation, this machine can handle all kinds of plastics including polyethylene, polystyrene, and polypropylene. And they can be made in various sizes from small to large that can be used in a range of applications (personal to industrial). Stuff the bags, caps, and other plastic packaging into the machine. Put on the lid. Flip a switch, and voila. A few minutes later the melted plastic releases gas through a tube. A beaker of tap water cools and then converts those gases into oil. The oil can then be further refined into gasoline, diesel, or kerosene, and can power everything from cars to generators, or even used as is. Heating the plastic with electricity instead of flames keeps emissions down (particularly compared to giant oil refineries). The process also requires 1kWh of electricity for every kilogram of plastic, which produces one liter of oil.
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Conceived by Akinori Ito with the Blest Corporation, this machine can handle all kinds of plastics including polyethylene, polystyrene, and polypropylene. And they can be made in various sizes from small to large that can be used in a range of applications (personal to industrial). Stuff the bags, caps, and other plastic packaging into the machine. Put on the lid. Flip a switch, and voila. A few minutes later the melted plastic releases gas through a tube. A beaker of tap water cools and then converts those gases into oil. The oil can then be further refined into gasoline, diesel, or kerosene, and can power everything from cars to generators, or even used as is. Heating the plastic with electricity instead of flames keeps emissions down (particularly compared to giant oil refineries). The process also requires 1kWh of electricity for every kilogram of plastic, which produces one liter of oil.
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In this video, learn how Emefcy, an Israeli company, is turning wastewater treatment plants from electricity consumers to electricity producers. In this video you will hear about the technology involved and learn why it is one of the most innovative solutions to wastewater treatment. Hear a great explanation of why this process works and what it requires. Learn how wastewater is being converted into electricity and can be installed easily and efficiently on a mass scale!
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Tour one of ArrowBio’s Municipal Solid Waste facilities in Tel Aviv. He explains the process that ArrowBio implements in providing a clean, green, and cheap solution to waste management while also giving the viewer a chance to see the process in action.
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Arrow Bio, a process developed by the company ArrowEcology, is a premier method to deal with waste management. The process uses water to separate particles. Their system is environmentally friendly, cost-efficient, and even provides clean soil for agriculture. Learn about a new and effective method to deal with municipal solid waste (MSW). This process recovers energy resources from the MSW.
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Elad Frenkel, the CEO of AqWise discusses his wastewater treatment company. AqWise works with companies all over the world and either fixes existing plants or builds entirely new ones. In this video, he is interviewed and asked about his company.
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Learn about AqWise’s innovative wastewater treatment solutions. Their plants, which are all across the globe, are extending nature’s capacity, creating a greener world, and providing alternatives for treatment plants of all kinds. See how their technology works and learn how it is applicable to a variety of companies.
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The company AqWise, a global leader in the development and implementation of wastewater treatment solutions, presents its new product: AGAR (the Attached Growth Airlift Reactor). This processes utilizes a technology known as “fixed biofilm moving bed.” Here, you can learn exactly how it works as the film demonstrates the innovative nature of AqWise’s new technology.
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