As the world faces the effects of climate change, and pressure mounts to reduce emissions from fossil fuel-based energy sources, countries are looking at newer ways to switch to renewable, including shifting existing technologies to non-polluting methods.

Now, a group of Indian researchers have demonstrated a way in which nuclear energy can go truly renewable.

But wait. Isn’t nuclear power a renewable source of energy? Well, kind of. Let us explain

Nuclear power, mostly used in the production of electricity, is widely considered to be a renewable source of energy. However, the raw material that is used to generate nuclear power through a process called fission is non-renewable. Nuclear power plants need a specific form of uranium called Uranim-235

In an attempt to address this worry, a group of scientists at the Indian Institute of Science Education and Research (IISER), Pune, attempted to extract uranium from seawater. Their attempts were successful and the findings were published in the journal Royal Society of Chemistry.

“With rising global energy demand and environmental concerns associated with fossil fuels, sustainable energy supply to the global community remains a great challenge. Large-scale uranium extraction from seawater (UES) is widely considered as reconciliation to increasing global energy demand and climate change crises,” the scientists said in their paper.

Researchers estimate that seawater contains 4.5 billion metric tons, nearly 1,000 times more uranium that conventional sources. But, with existing technologies, we are far from extracting this element from seawater cost effectively. Experts have said that uranium recovery from seawater is extremely challenging due to its very low concentration in comparison to the high abundance of interfering ions.

The team of researchers at IISER have developed a rare ionic macroporous metalorganic framework, which can effectively capture uranium. They managed to capture 95 per cent of uranium within two hours, which is in sharp contrast to the other existing adsorbent. A proper absorbent combining the features of high capacity, excellent selectivity, and ultra-fast kinetics has been a long challenge.

“Combined with exceptional selectivity, record capacity, ultrafast kinetics, and long service life, this material could be a potential candidate for the efficient extraction of uranium from natural seawater. The selective ion exchanged harvesting method introduces the concept of extracting uranium from natural seawater may lead to an unlimited supply of uranium at an economically affordable cost,” Professor Sujit K. Ghosh, who was part of the study, told


India today