Microbial metabolic processes affect the operation of geothermal plants and the success of countermeasures | Störungen des Betriebs geothermischer Anlagen durch mikrobielle Stoffwechselprozesse und Erfolg von Gegenmaßnahmen
2016
Würdemann, Hilke | Westphal, Anke | Kleyböcker, Anne | Miethling-Graff, Rona | Teitz, Sebastian | Kasina, Monika | Seibt, Andrea | Wolfgramm, Markus | Eichinger, Florian | Lerm, Stephanie
In the context of geothermal systems, biofilms can influence mineral formation and material resistance against corrosion. In three geothermal plants with different salinity and temperature, organisms of the sulfur cycle have contributed to process failures. On the cold side of a heat store, the increased diversity and abundance of sulfate reducing bacteria (SRB) revealed their participation in corrosion processes and their contribution to a decline in injection efficiency. In all plants, a temporary ingress of oxygen or nitrate led to an increased abundance of sulfur oxidizing bacteria (SOB) that might have accelerated corrosion. In addition, the increase in SOB abundance led to filter clogging in a cold store. Based on their role in microbial-induced corrosion (MIC), changes in the abundance of SOB and SRB may indicate the cause of failure. Measures to control microbial growth, mineral deposits and corrosion, such as temporary increases in temperature, acidification, and addition of hydrogen peroxide (H₂O₂) and nitrate, were evaluated.
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