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Figure 1 Time slice images from raw and final pre stack time migrated volumes of the UHD data set as well as the legacy dataset of Pin Point sources PP and Mini Vib sources VIB

CCUS

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Technical paper

Affordable high-density seismic for CO2 geological storage

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Geothermal and CCUS are technologies used for many decades to support and complement the energy industry and are considered today essential technologies to realistically achieve a net zero carbon future. Good knowledge of the subsurface is an important requirement for both industries to make sure the subsurface conditions are right and to monitor the field through its life. However, having access to the latest seismic acquisition and processing technologies at an affordable price is a real challenge for these industries which don’t have the budget nor the resources to run a complex seismic program and derive all the subsurface attributes needed. We discuss how the latest seismic technologies can make seismic more affordable and accessible to these industries using the example of an Ultra-high-density (UHD) seismic acquisition acquired over a CCUS test storage site in Canada.

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Discover more STRYDE technical papers

Large-N seismic node networks for monitoring seismicity and crustal stress-state at geothermal systems

Large-N seismic node networks for monitoring seismicity and crustal stress-state at geothermal systems

Geothermal resources are set to play an ever more important role in supplying a sustainable source of energy for the green transition. Here, we present an example of how recent developments in seismic node technology can provide enhanced monitoring of subsurface seismicity and crustal stress-state during geothermal field development. We show results for a network of 450 nodes deployed at a geothermal site in Cornwall, UK, during a well stimulation.

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The two densest land seismic surveys in the world enabled by nimble nodes

The two densest land seismic surveys in the world enabled by nimble nodes

Old cabled seismic equipment is being replaced by nodal systems which are much more compact and offer more flexibility in the field. A new generation of seismic nodes in particular is creating a paradigm shift in the way seismic is acquired, making high-density seismic finally an affordable option for hydrocarbon and renewables. To demonstrate this fact, we will show how these nodes have been used to acquire the two densest land seismic surveys on the planet both for hydrocarbon and CCUS in a very efficient way.

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Empowering sustainable geoscience exploration through technology and academic collaboration

Empowering sustainable geoscience exploration through technology and academic collaboration

By harnessing cutting-edge technology and fostering collaboration between academia and industry, STRYDE is pioneering seismic data acquisition solutions that propel ground-breaking scientific discovery and innovation through strategic partnerships, affordable solutions, and a commitment to nurturing talent.

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