Extraction of Uranium from Seawater
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Extraction of Uranium from Seawater

Terrestrial supplies of uranium are greatly limited. It is estimated that at the current consumption rate the global conventional reserves of uranium (7.6 million tonnes) could be depleted in a little over a century. Fortunately, uranium is present in the at a low concentration of 3ppb, which over the total volume of the oceans amounts to approximately 4.5 billion tonnes of uranium, nearly a thousand times that of conventional reserves. Finding a sustainable way to harvest uranium from seawater will provide a source of uranium for generations to come. For my PhD project, I am working with Prof. Alex Slocum in the Precision Engineering Research Group (PERG) to investigate ways to harvest uranium from seawater that are cost-efficient and highly survivable.

While extraction of uranium from seawater has been researched for decades, to-date no economical, robust, ocean- deployable method of uranium collection has been presented. Previous studies have focused on the deployment of adsorbent polymers in seawater, which remain submerged for a period of time, are then collected, brought to shore, stripped of their uranium by elution, and finally returned to the ocean. Such stand-alone, intermittent operation systems have significant economic challenges. Additionally, recent work has indicated that increasing the frequency of harvesting can increase the amount of uranium collected from the adsorbent. It is hypothesized here that a symbiotic approach to ocean harvesting of uranium, where a common structure supports several activities such as harvesting seawater, wave energy harvesting, or wind turbine support, could prove economically viable.

The goal of my project is to develop fundamental design tools for the development and evaluation of symbiotic systems to harvest uranium from seawater. I am focusing on the development of design rules for a uranium harvesting system that would be integrated into an offshore wind turbine. The initial concept involves an adsorbent device that is cycled through the seawater beneath the turbine and through an elution plant located on a platform above the sea surface. This design allows for more frequent harvesting, reduced down-time, and a reduction in the recovery costs of the adsorbent.

Publications that have resulted from this work include the following:

  1. M. N. Haji, J. Drysdale, K. Buesseler, and A. H.
    Slocum, “Ocean Testing of a Symbiotic Device to Harvest Uranium from
    Seawater through the Use of Shell Enclosures”, In Proceedings of the
    Twenty-seventh (2017) International Ocean and Polar Engineering Conference,
    San Francisco, CA, June 25-30, 2017.
  2. M. N. Haji, M. E. Flicker Byers, E. A. Schneider, and
    A. H. Slocum, ” Cost Analysis of Wind and Uranium from Seawater Acquisition
    symBiotic Infrastructure using Shell Enclosures “, In Proceedings of the
    2017 ANS Meeting, San Francisco, CA, June 11-15, 2017.
  3. M. E. Flicker Byers, M. N. Haji, E. A. Schneider, and
    A. H. Slocum, “A Higher Fidelity Cost Analysis of Wind and Uranium from
    Seawater Acquisition SymBiotic Infrastructure”, In Proceedings of the 2016
    ANS Winter Meeting and Nuclear Technology Expo, Las Vegas, NV, November
    6-10, 2016.
  4. M. N. Haji, A. H. Slocum, “Design of a Symbiotic Device
    to Harvest Uranium from Seawater through the use of Shell Enclosures”, In
    Proceedings of the 2016 ANS Winter Meeting and Nuclear Technology Expo, Las
    Vegas, NV, November 6-10, 2016.
  5. M. N. Haji, C. Delmy, J. Gonzalez, A. H. Slocum,
    “Uranium extraction from seawater using adsorbent shell enclosures via a
    symbiotic offshore wind turbine device”, In Proceedings of the Twenty-sixth
    (2016) International Ocean and Polar Engineering Conference, Rhodes,
    Greece, June 26-July 1, 2016
  6. M. N. Haji, C. Vitry, and A. H. Slocum, “Decoupling the
    functional requirements of an adsorbent for harvesting uranium from
    seawater through the use of shell enclosures,” In Proceedings of the 2015
    ANS Winter Meeting and Nuclear Technology Expo, Washington, DC, November
    8-12, 2015.