In a declaration issued IITM said the biofuel oils with high energy values were produced from two waste products -- agricultural waste such as rice straw and bagasse and discarded plastics
June 15, 2020. By News Bureau
The Indian Institute of Technology Madras (IITM) has announced that its researchers have developed a simple microwave process to produce biofuel oils.
In a declaration issued IITM said the biofuel oils with high energy values were produced from two waste products -- agricultural waste such as rice straw and bagasse and discarded plastics.
The project was sponsored by GAIL (India) Ltd.
The urgency in search of renewable fuels is driven by the environmental impact of extracting fossil fuel and volatility in oil prices and the associated political unrest across the world.
Biofuel oils generated from renewable biological sources are considered a practical and pragmatic replacement for petroleum and petrochemicals, IITM said.
The research team led by Dr. R. Vinu, Associate Professor, Department of Chemical Engineering and the other members were Dr. Dadi Suriapparao and Banupriya Boruah.
"Biomass is the only renewable source of carbon on the earth with immense potential for the production of energy, chemicals and materials with zero carbon footprint on the environment. Agricultural waste products such as rice straw, sugarcane bagasse and wood chips, among others, can potentially serve as bio-oil producing biomass," Vinu was quoted as saying the statement.
One of the common methods to produce bio-oil from biomass is 'pyrolysis' or heat-induced breakdown of the biomass components into fuel components.
However, bio-oil produced by the pyrolysis of biomass contains large amounts of oxygenated groups or 'oxygenates', far greater than in fossil fuels. These 'oxygenates' result in lower heating value of bio-oils, compared to fossil fuels, and in addition, increase their acidity and corrosiveness.
"In order to make bio-oils competitive with fossil fuels, them oxygenate content must be reduced and hydrogen content increased. Mixing biomass with hydrogen-rich materials during pyrolysis can conceivably make biomass derived bio-oil comparable to fossil-derived fuels in calorific value and chemical/physical properties," explained Vinu.
Plastics that are rich in hydrogen, can serve as the hydrogen supplier to biomass in its conversion to low-oxygenate bio-oils.
The use of plastics as a supporting material in the pyrolysis of biomass would ultimately serve two purposes -- it would produce bio-oils with better properties and also help in repurposing used plastic.
The co-pyrolysis of biomass and plastics, in addition to increasing the calorific value of the fuel, also reduces char formation, thereby increasing efficiency of the process and yield of fuel.
The bio-oils produced by co-pyrolysing the biomasses with the plastics had higher energy yields than those of bio-oils produced by pyrolysis of pure biomass, without the plastics.
The IITM researchers took the idea one step further and used microwave to co-pyrolyse biomass and plastics. Microwave heats materials quickly and uniformly and is a selective and energy-saving technology.
They used a microwave oven to co-pyrolyse a variety of biomass, including rice straw, sugarcane bagasse, groundnut shell, wood sawdust and wood from the tree called 'Seemai Karuvelam' in Tamil ('Angaraji Babul' in Hindi, scientific name Prosopis juliflora) with two synthetic plastics, polypropylene and polystyrene.
In the case of rice straw and bagasse, the team also used a zeolite catalyst to upgrade the quality of the bio-oil to light fuel oil (LFO) and heavy fuel oil (HFO).
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