St1's geothermal project’s stimulation stage has started in Otaniemi, Espoo. The pumping of water down to a 6,4-kilometer-deep borehole has started in accordance with the plan. The stimulation stage is an essential step in the geothermal project and aims to study how water can flow between the two boreholes through rock fissures at the depth of more than six kilometres underground.
The stimulus-induced micro-vibration at the fissures in the rock is monitored by a broad geophonic network installed on the bedrock in the metropolitan area.
Stimulation is divided into five sections and lasts for a total of 30 days. Geofones' measurement results can be monitored in real time online: www.st1.eu/geothermal-heat
A project of energy company St1 to build Finland’s first industrial scale emission-free geothermal energy heating plant has now progressed to the stimulation stage. The pilot project is seeking to extract bedrock heat for use in district heating by drilling two boreholes to a depth of several kilometres. Water will be pumped down one of these boreholes for underground geothermal heating, with the resulting hot water then extracted via the other borehole. The heating plant will feed this heat into the local district heating network. The stimulation stage will study the flow of this borehole water through rock fissures at a depth of more than six kilometres underground.
St1 began drilling the boreholes for the pilot heating plant at Otaniemi in spring 2016. Air hammer technology was initially used for drilling to a depth of 4.5 kilometres. Drilling of the first borehole into the hard bedrock of Finland then continued using an optimised combination of water hammer and conventional drilling technology to reach a depth of more than 6 kilometres.
“We are now at a depth where the water temperature has proved high enough for heat generation. This allows us to proceed to the next stage, which is stimulating the borehole by feeding in water and monitoring its flow through fissures in the rock. The flow data will enable us to determine the best direction for drilling the remaining section of the other borehole and how the water can be made to flow through the bedrock between the boreholes,” explains Production Manager Tero Saarno of St1 Deep Heat Ltd.
The flow of water pumped into the borehole through the bedrock fissures will be closely monitored. The water pressure will enlarge the fissures, with geophones detecting micro-vibrations that reveal the direction in which the water is passing through the bedrock. Several geophones have been installed, with the deepest at depths of 1.2 and 1.1 kilometres, one at a depth of 670 metres, and the rest at depths of more than 300 metres at various locations in the Helsinki Metropolitan Area.
The stimulation process at Otaniemi will be planned and controlled with a high degree of precision, applying the latest industry expertise and technology, while benefiting from the experiences of previous geothermal plant projects realised elsewhere in the world.
“Stimulation is the process of generating micro-vibrations in the bedrock. This is a normal stage in the construction of a geothermal plant. We are implementing this stage on a smaller and more modest scale than in many similar projects in other countries. The underground geophone network enables us to monitor the flow of water in the bedrock precisely, while ensuring that the micro-vibrations remain within the limits prescribed by public authorities,” Tero Saarno explains.
The Institute of Seismology at the University of Helsinki is responsible for regulatory control of the project and will monitor progress using its own instruments. Surface accelerometers installed in the immediate vicinity will also measure the impact of the micro-vibrations at ground level. The ground level effects of stimulation in bedrock at depths of several kilometres are nevertheless minimal or non-existent. For example, the blasting stages of metro tunnelling cause much larger vibrations.
Analysis of stimulation findings to determine continuation of the project
The stimulation stage will take about one month to complete, and will be followed by an analysis of water flows in the bedrock. This analysis stage will take about 7-9 months, with further development of drilling technology occurring during the pause in drilling operations. The drilling rig will be dismantled and removed from the site when this intermission begins.
The plant has been designed to generate ten per cent of the district heating requirement for the City of Espoo. A successful pilot project may lead to deployment of corresponding technology elsewhere in Finland.
Tero Saarno, Production Manager, St1 Deep Heat Ltd., tel. +358 50 373 1923, email@example.com
St1 Nordic Oy is a Nordic energy group whose vision is to be the leading producer and seller of CO2-aware energy. The Group researches and develops economically viable, environmentally sustainable energy solutions. St1 focuses on fuels marketing activities, oil refining and renewable energy solutions such as waste-based advanced ethanol fuels and industrial wind power. The Group has 1400 St1 and Shell branded retail stations in Finland, Sweden and Norway. Headquartered in Helsinki, St1 employs currently more than 750 people in Finland, Sweden and Norway. www.st1.eu