Graphene membranes helps make nuclear industry greener

Graphene membranes help to make nuclear industry greener

11:06 AM, 11th May 2017
Graphene membranes helps to make nuclear industry greener
Graphene-based membranes could make the production of heavy water more efficient, leading to greener and cheaper nuclear power.

MANCHESTER, UK: Graphene could help reduce the energy cost of producing heavy water and decontamination in nuclear power plants by over one hundred times compared with current technologies, University of Manchester research indicates.

The new development could lead to the reduction of CO2 emissions associated with heavy water production by up to a million tonnes each year.

Published in the journal Nature Communications, a team from the University of Manchester led by Dr Marcelo Lozada-Hidalgo demonstrated fully scalable prototypes of graphene membranes capable of producing heavy water.

The research shows that graphene-based membranes could make the production of heavy water more efficient, leading to greener and cheaper nuclear power.

Producing heavy water which needed by the nuclear industry to generate clean energy is an expensive process. Because of graphene’s unique material properties, it has the potential to effectively separate sub-atomic particles making this process more efficient and cost-effective.

Separating hydrogen isotopes is a huge task for nuclear fission and future fusion plants. Thousands of tonnes of isotopic mixtures are processed every year. Yet, producing just 1 kg of heavy water consumes enough energy to power an average American household for an entire year.

Dr Lozada-Hidalgo said: “This is a crucial milestone in the path to taking this revolutionary technology to industrial application. The potential gains are high enough to justify its introduction even in the highly conservative nuclear industry.”

Only last year, the same group of researchers found that graphene can efficiently sieve hydrogen isotopes. But the industrial opportunities of this discovery were not analysed because there were no membranes or fabrication methods suitable for scalable manufacturing at the time.

Now, the Manchester group developed fully scalable prototype membranes and demonstrated the isotope separation in pilot scale studies. They found that the high efficiency of the separation would allow for a significant reduction of the input amount of raw isotope mixtures that needs to be processed. This reduces both the capital costs and the energy requirements.

They estimated over one hundred times less energy to produce heavy water would be required compared to competing technologies – even larger energy savings are anticipated for tritium decontamination.

“Tritium discharged both from nuclear power plants and as a result of environmental disasters is a major global concern.

“We believe this technology can economically transform the environmental footprint of future nuclear plants,” added Sir Andre Geim, professor of condensed matter physics, University of Manchester.

© University of Manchester News

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