Communications Earth & Environment (Jun 2024)

Magnesium hydroxide addition reduces aqueous carbon dioxide in wastewater discharged to the ocean

  • Vassilis Kitidis,
  • Stephen. A. Rackley,
  • William. J. Burt,
  • Greg. H. Rau,
  • Samuel Fawcett,
  • Matthew. Taylor,
  • Glen Tarran,
  • E. Malcolm S. Woodward,
  • Carolyn Harris,
  • Timothy Fileman

DOI
https://doi.org/10.1038/s43247-024-01506-4
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract Ocean alkalinity enhancement (OAE) reduces the concentration of dissolved carbon dioxide (CO2) in seawater, leading to atmospheric carbon dioxide removal (CDR). Here we report laboratory experiments and a field-trial of alkalinity enhancement through addition of magnesium hydroxide to wastewater and its subsequent discharge to the coastal ocean. In wastewater, a 10% increase of average alkalinity (+0.56 mmol/kg) led to a 74% reduction in aqueous CO2 (−0.41 mmol/kg) and pH increase of 0.4 units to 7.78 (efficiency 0.73 molCO2/mol alkalinity). The alkalinization signal was limited to within a few metres of the ocean discharge, evident as 27.2 μatm reduction in CO2 partial pressure and 0.017 unit pH increase, and was consistent with rapid dilution of the alkali-treated wastewater. While this proof of concept field trial did not achieve CDR due to its small scale, it demonstrated the potential of magnesium hydroxide addition to wastewater as a CDR solution.