Experimental work on sulphate reduction underway

Breakdown of sulphur-containing minerals often results in the release of sulphate (such as with acid mine drainage). One way to combat the environmental problems that this causes is to use certain types of bacteria that reduce the sulphate back to sulphur or sulphide compounds.

Sulphate reduction and metal sulphide removal experiments are going on at the University of Oulu. Sulphate reducing bacteria are cultivated in bottle scale and tested for utilization of KemiCond treated sewage sludge and succinate. At the same time synthetic mining water is treated, and iron is recovered as FeS. Furthermore, tests with other low-cost carbon sources and real mining waters, as well as reactor experiments are planned to be started in the autumn 2019.

sulphate reduction experiment over 2 weeks
Sulfate-reducing bacterial consortium cultivated in synthetic mining water at 6 °C with succinate as a carbon source.
continuous flow reactor for sulphate reduction experiments
Continuous up-flow reactor built up for biological sulfate reduction experiments

For more details, contact Hanna Virpiranta

New EU project on bioleaching

Recently a new EU innovation project, ‘BioLeach’, was launched, with funding from EIT Raw Materials and project partners from Slovakia, Italy, Hungary, Spain, Germany, Poland, Portugal and Ireland. The project is led by Dr Darina Štyriaková, of the Faculty of Mining, Ecology, Process Control and Geotechnologies of the Technical University of Košice in Slovakia. The aim of the project is to develop biotechnologies to achieve ecological exploitation, improve the quality of local minerals and reduce the European countries’ dependence on imported minerals.This includes the study of bioleaching. More details about the project can be found here:

Bioleach project participants
Participants in the EU Bioleach project

Visit to Bangor University

Bangor University

In February 2019 Dr. Tiina Leiviskä and MSc. Hanna Virpiranta made a visit to Bangor University in Wales, U.K. to collaborate with Prof. David Barrie Johnson’s group: “Bangor Acidophile Research Team” (BART). Hanna stayed there for two weeks working alongside with other visiting and post-doctoral researchers of the team. She acquired a lot of knowledge of e.g. operating sulfate-reducing bioreactors, plating of anaerobic microbes, and conducting bioleaching experiments, that she can exploit in her further research.

The Bangor Acidophile Research Team (BART) is based in the School of Biological Sciences at Bangor University. The group performs research on microbes which inhabit extreme environments, earning them the nickname ‘extremophiles’. The research has a particular emphasis on highly acidic environments, which has relevance for the SEESIMA project for the leachate of acid mine drainage and biomining. The research work is concentrated on the following areas

  • commercial mineral leaching operations (‘biomining’)
  • acid mine drainage
  • geothermal areas
  • acidic industrial wastewaters

The research activity focuses on the microbiology and molecular biology of these acidic environments, and the research group also develops novel bioengineering solutions for remediating acid mine drainage and industrial wastewaters.

The December 2011 issue of Scientific American listed Biomining as one of ten ‘world-changing ideas’.