Chemical ring turns environmental waste into fuel

According to new research, turning environmental waste into useful chemical resources can solve more and more inevitable challenges of waste plastic, paper and food waste.
In a major breakthrough, researchers at Ohio State University have developed a technology to convert plastic and agricultural waste and other materials into Syngas. Essence
Scientists have found that using the simulation test system can break down the effect of waste. Their methods (referred to as chemical cycle) can produce high -quality partners more effective in real estate than other similar chemical technology. In general, this exquisite process can save energy and be safer to the environment. Ishani Karki KudvaThe main authors and doctoral students of the study Chemical and biomolecular engineering In Ohio.
Kudva said: “We use synthetic agents for important chemicals needed in daily life.” “Therefore, improving purity means that we can use it in multiple new ways.”
Today, most business processes will create pure 80 % to 85 % synthesizers, but Kudva’s team has reached 90 % of the purity in the process of only a few minutes.
This study is based on the decades of Ohio State University. The research is led by Liang-SHIH FAN, a liang-shih fan. He is an outstanding professor of chemistry and biomolecular engineering. This study provides suggestions. This previous research uses chemical cycle technology to shift Fossil fuel,,,,, Sewer gas and coal Enter hydrogen, partnership and other useful products.
In a new study, the system consists of two reactors: a moving bed restorer, which uses the oxygen decomposition waste provided by the metal oxide material, and a fluidized bedburizer, which can supplement the loss of the loser oxygen so that it can be possible Regenerate the material. The study shows that the efficiency of the reactor is as high as 45 % with this waste to the fuel system, and it still produces about 10 % cleansing partnerships than other methods.
The research recently published in the “Magazine” Energy and fuel.
according to Report Through the Environmental Protection Agency, 35.7 million tons of plastic were generated in the United States in 2018, of which about 12.2 % were municipal solid waste, such as plastic containers, bags, utensils, furniture, agricultural tools, agricultural residues, paper and food.
Unfortunately, because plastic has resistance to decomposition, they can exist for a long time and it is difficult to completely decompose and recycle. Conventional waste management (such as garbage landfills and incineration) also constitute risks on the environment.
Researchers are now proposing another solution to help contain pollution. For example, compared with conventional processes, how much carbon dioxide is pumped by measuring its system, it is found that it shows that it can reduce carbon emissions by up to 45 %.
The co -author of the study, doctoral student Shekhar Shinde said that the design of their projects is only one of the chemical fields that urgently need more sustainable technology. Chemical and biomolecular engineering In Ohio.
In this study, their work can greatly reduce social dependence on fossil fuel.
He said: “As far as decarburization research is concerned, people have changed a huge change in their previous work and what they are trying to do now.”
This study pointed out that although early technology can only filter biomass waste and plastic, the team’s technology can also handle multiple materials by continuously converting the conditions they required.
Once the team’s simulation generates more data, they eventually want to test the system’s market capacity by using other unique components within a longer period of time.
Kudva said: “Expanding this process to include the municipal solid waste from the recycling center is our next priority.” “The work in the laboratory is still commercialization, this technology and decarburized industry.”
Other writers of Ohio State University include Rushikesh K. Joshi, Tanay A. Jawdekar, Sudeshna Gun, Sonu Kumar, Ashin A Sunny, Darien Kulchytsky and Zhuo Cheng. The study was supported by the precious plastic of the seven -leaf tree.
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