IIT Guwahati Develops an Eco-Friendly Method to Mitigate Dual Environmental Hazards: Biomass Burning and Marine Oil Spills

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This research aims to convert large-scale agricultural waste into a sustainable value-added product to mitigate marine oil pollution.
The details of the natural 3D oil-absorbing material have been published in the prestigious international journal Biomass and Bioenergy.
Researchers at the Indian Institute of Technology Guwahati (IIT Guwahati) have developed a Silica nanoparticle-coated cotton fabric that can separate oil from an oil-water mixture.

This research aims to convert large-scale agricultural waste into a sustainable value-added product to mitigate marine oil pollution.

The said nanoparticles have been developed by utilising rice husk, an agricultural waste, as the primary source material. The findings of this study can aid in the development of economical, sustainable platforms for separating oil/water mixtures or harmful components from aqueous on-aqueous mixtures.

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Oil spills due to industrial discharge, or accidental mishap causes irreversible damage to te aquatic ecosystems. Conventional cleaning techniques such as skimming, or in-situ burning is ineffective, costly and cause additional pollution. Researchers around the world have been trying to develop energy-efficient materials to separate the oil and water mixtures. However, the sustainable and economically viable conversion of biomass to modified silica for oil spill mitigation had not been explored earlier.

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Explaining the eco-friendly method Prof. Vaibhav V. Goud, Department of Chemical Engineering, IIT Guwahati, said, “Our technology has multiple beneficial effects on the environment. Rice husk is an agricultural byproduct, rich in silica that is generated in millions of tons every year. It generally ends up being burnt unscientifically causing air pollution. With our technique, this waste rice husk is converted to 3D sorbents that mitigates oil contamination by following a selective active-filtration process.”

In this process, inexpensive agricultural waste, ice husk is gradually heated and efficiently converted to charcoal also known as bio-char. Subsequently, this biochar is subjected to further heating to transform it into silica nanoparticles.

The size of these nanoparticles can be customized by adjusting the pH of the biochar. To render the nanoparticles water-repellent, they are treated with special chemicals known as silanes. Finally, these treated nanoparticles are coated over a cotton material creating a natural, three-dimensional sorbent for separating the oil-water mixture.

Explaining the significance of their work, Prof. Goud, said, ”Our experiments at IIT Guwahati have demonstrated that the coated cotton fabric particularly adsorbed oil, while the uncoated sample adsorbed both oil and water. The developed superhydrophobic material has shown a remarkable 98% efficiency and retained its functionality even after repeated use and exposure to harsh environments.“

The details of the natural 3D oil-absorbing material have been pubished in the prestigious international journal Biomass and Bioenergy. The paper has been co-authored by Prof Vaibhav V. Goud and his research scholar Ms Sutapa Das.

Last updated on 27 Sep 2023
17:50 PM
IIT Guwahati
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