Indian Scientists Turn Plastic Bags into Car Fuel - The New Indian Express

Indian Scientists Turn Plastic Bags into Car Fuel

Published: 28th January 2014 04:03 PM

Last Updated: 28th January 2014 04:03 PM

In a breakthrough, Indian researchers have developed an innovative method to re-use discarded plastic bags by transforming them into fuel to power car engines.    

Researchers developed a relatively low-temperature process to convert certain kinds of plastic waste into liquid fuel as a way to re-use plastic bags and other products.          

Among the plastic waste is the common polymer, low-density polyethylene (LDPE), which is used to make many types of container, medical and laboratory equipment, computer components and, of course, plastic bags.

Recycling initiatives are in place in many parts of the world, but much of the polyethylene waste ends up in landfill, dispersed in the environment or in the sea.            

Chemist Achyut Kumar Panda of Centurion University of Technology and Management Odisha is working with chemical engineer Raghubansh Kumar Singh of the National Institute of Technology, Odisha, to develop a commercially viable technology for efficiently rendering LDPE into a liquid fuel.            

Given that most plastics are made from petrochemicals, this solution to plastic recycling brings the life-cycle full circle allowing a second use as an oil substitute.   

The process reported in the International Journal of Environment and Waste Management, could, if implemented on a large enough scale, reduce pressures on landfill as well as ameliorating the effects of dwindling oil supplies in a world with increasing demands on petrochemicals for fuel.  

In their approach, the team heats the plastic waste to between 400 and 500 degrees Celsius over a kaolin catalyst. This causes the plastic's long chain polymer chains to break apart in a process known as thermo-catalytic degradation.       

This releases large quantities of much smaller, carbon-rich molecules.      

The team used the analytical technique of gas chromatography coupled mass spectrometry to characterise these product molecules and found the components of their liquid fuel to be mainly paraffins and olefins 10 to 16 carbon atoms long.       

This, they explain, makes the liquid fuel very similar chemically to conventional petrochemical fuels.            

In terms of the catalyst, Kaolin is a clay mineral - containing aluminium and silicon. It acts as a catalyst by providing a large reactive surface on which the polymer molecules can sit and so be exposed to high temperature inside the batch reactor, which breaks them apart.        

The team optimised the reaction at 450 degrees Celsius a temperature with the lowest amount of kaolin at which more than 70 per cent of the liquid fuel is produced.          

In other words, for every kilogramme of waste plastic they could produce 700 grammes of liquid fuel. The byproducts were combustible gases and wax.  

They could boost the yield to almost 80 per cent and minimise reaction times, but this required a lot more catalyst one kg of kaolin for every 2 kg of plastic.

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