New exploration method for geothermal energy

International research team presents combination of mapping of underwater structures and geochemical measurements

International research team presents combination of mapping of underwater structures and geochemical measurements

Where to drill? This is the basic question in the exploration of underground energy resources, such as geothermal energy. Water in rocks flows along permeable pathways, which are the main target for geothermal drilling. Borehole, core and micro-earthquake data show that the pathways are spatially connected, permeable structures, such as fractures or faults in the rock. However, the geothermal potential of these structures cannot be fully exploited with the techniques available to date.

A research team led by Maren Brehme, research scientist at the GFZ German Research Centre for Geosciences until August 2019 and now Assistant Professor at the TU Delft, presents a new method for locating potential drilling sites that are covered by water. "In the future, our method will make it possible to map geological structures under water and draw conclusions about the inflow from surrounding layers," says Maren Brehme.

Since geothermal fields are often located in volcanic areas, they usually occur near or below crater lakes. "However, these lakes hide structures that are important for geothermal energy," explains Maren Brehme. "In the study, we showed that volcanic lakes such as the Lake Linau in Indonesia, which we investigated, have so-called 'sweet spots', deep holes with fluid inflow from the surrounding rock." The method is not limited to volcanic lakes though. It can also be applied to other underwater areas.

Novel combination of two technologies brings success

The new approach combines bathymetry measurements with geochemical profiles. In this study, bathymetry (from Greek bathýs ‘deep’ and métron ‘measure’) is used to map fault zones and geyser-like holes in the lake floor. Its most important feature is the echo sounder. The geochemical profiles from data on temperature, salinity, density and pH at different depths show areas in the lake with inflows from the surrounding geothermal reservoir. The combination allows the distinction between permeable and non-permeable structures, which was previously not possible. With this method, promising locations for drilling can be located more precisely.

The related field work took place in 2018 during an expedition to Lake Linau led by Maren Brehme. It was part of the long-standing GFZ cooperation with Indonesian partners funded by the German Federal Ministry of Education and Research. The Lake Linau is only a few kilometres from the Lahendong site, where the first geothermal low-temperature demonstration power plant in Indonesia, jointly developed by GFZ and Indonesian partners, was successfully commissioned in 2017.

Original study:
Brehme M., Giese R., Suherlina L., Kamaha Y., 2019. Geothermal sweetspots identified in a volcanic lake integrating bathymetry and fluid chemistry. Scientific Reports.DOI: 10.1038/s41598-019-52638-z

Further information:
Sustainability concepts for exploitation of geothermal reservoirs in Indonesia – capacity building and methodologies for site deployment

Frick, S., Kranz, S., Kupfermann, G., Saadat, A., Huenges, E., 2019. Making use of geothermal brine in Indonesia: binary demonstration power plant Lahendong/Pangolombian. Geothermal Energy.DOI: 10.1186/s40517-019-0147-2

Scientific contact:
Dr. Maren Brehme
Guest scientist
Section Geoenergy
Helmholtz Centre Potsdam
GFZ German Research Centre for Geosciences
E-Mail: maren.brehme@gfz-potsdam.de

Assistant Professor for Geothermal Engineering
Department of Geoscience and Engineering
TU Delft
Tel.: +31 15 27 83588
E-Mail: m.brehme@tudelft.nl

Media contact:
Dipl.-Phys. Philipp Hummel
Public and Media Relations
Helmholtz Centre Potsdam
GFZ German Research Centre for Geosciences
Telegrafenberg
14473 Potsdam
Tel.: +49 331 288-1049
E-Mail: philipp.hummel@gfz-potsdam.de
Twitter: @GFZ_Potsdam

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