Skip to main content


Getech supports natural H2 exploration in Eastern Europe

Getech, a world-leading locator of subsurface resources, has commenced a natural H2 exploration project in Eastern Europe for a prominent European energy company. This study represents an important step in harnessing natural H2 (also called white and geological H2), a potential game-changer in the energy transition.

The project is founded on Getech's extensive subsurface data and geoscience expertise. The approach exploits the distinct magnetic characteristics of ophiolites—igneous rock formations considered prime sources of natural H2. By mapping the extents and geometry of these formations, Getech provides vital data to identify potential H2 sources. As part of the project Getech undertakes 3D inversion modelling to distinguish the magnetic properties of ophiolites from other sources of magnetic anomalies.

This contract not only strengthens Getech’s relationship with an existing client but also enhances its proficiency in locating natural H2. Integrating unique AI and machine learning tools into its methodologies, Getech is well positioned to win similar projects in the future.

Anticipated as a pivotal energy resource for the future, natural H2 offers a sustainable pathway in the energy transition, and Getech is ideally positioned to facilitate this shift. With its vast proprietary geological and geophysical data and over 30 yr of expertise in locating subsurface resources, Getech is set to become an important player in the evolving energy transition landscape. Natural H2, producing only water as a byproduct, stands out as a clean energy source. It holds great promise as a carbon-free fuel for vehicles and power generation, as well as in a range of other industrial applications.

Richard Bennett, CEO at Getech said, "This collaboration with a respected European energy company signifies a vital step into the realm of natural H2 exploration. Our expertise in geoscience and AI analytics, especially in gravity and magnetic data analysis, is critical in pinpointing H2-rich formations. This project not only demonstrates Getech's skillset but also underscores our commitment to advancing the energy transition."