GEMS Technology

GEMS — a revolution in geosurvey, offering rapid and eco-friendly exploration
Benefits

GEMS Technology: Your Geology in a New Dimension

The method provides structural information in the search for ore bodies, diatremes, oil and gas reservoirs, the study of geological faults, zones of increased porosity and fracturing, slope slip, etc.

The method provides highresolution three-dimentional images with dynamic changes and has several advantages over traditional exploration methods.
Speed of Results
From the start of exploration to results in just one week
Equipment
Utilizing standard equipment for microseismic sounding
Wave Sources
Capturing natural waves from 0 to 10 Hz, including wind, earth crust movements, tides
Data Processing
AI processes data within 6-8 hours, filtering noise and creating 3-D models
Eco-Friendly Approach
Passive geosurvey with zero impact on the environment

GEMS — a game-changer in mineral exploration

  • Drasticaly reduce exploration and drilling cost
  • Make informed descisions on drilling locations
  • Assess investment risks at the exploration stage
  • Precisely define ore body boundaries
Fields of application

Look deeper, drill smarter

Oil & gas
Ores
Geothermal
Underground water
Engineering geology
Subsurface safety

Unlocking the potential of passive microseismic surveys, Terravox offers an innovative solution for both geological exploration of hydrocarbon deposits and addressing various technological challenges encountered during oilfield development.

Our cutting-edge technology enables the precise surveying of hydrocarbons concealed beneath salt domes, at significant depths, or within permafrost conditions. Unlike conventional geophysical methods, Terravox empowers users to pinpoint fluid migration pathways with unprecedented accuracy.

Harnessing the insights gleaned from these surveys, operators can optimize production strategies by tapping directly into fluid migration channels. This approach promises to revolutionize field profitability by minimizing the need for low-yield wells and those with shorter lifespans, thereby maximizing operational efficiency and returns on investment.

The global demand for metals has surged dramatically in the past decade, driving geologists to explore innovative methods for studying ore deposits and uncovering new mineral sources.

Terravox technology presents a breakthrough solution, enabling the creation of precise 2D or 3D models capturing the intricate subsurface structures with unparalleled speed and accuracy.

Our pioneering Geological Exploration Microseismic Sounding (GEMS) technology, complementing traditional techniques, offers a reliable means to verify magnetic anomalies. This empowers geologists to uncover buried diatremes, precisely determining their spatial parameters, depth, configuration, and size, among other features. GEMS excels in assessing the volumetric shapes of diatremes and discerning their various phases and facies.

Kimberlite pipes, characterized by sub-vertical column-shaped zones with reduced velocities resulting from the ascent of degassing igneous rocks, are prime targets for our technology. Even when submerged hundreds of meters below the surface, with small plan diameters relative to their vertical size, our technology effectively surveys these elusive formations.

Setting itself apart from conventional passive seismic prospecting methods, the GEMS method boasts distinct advantages. Terravox technology excels in investigating sub-vertical boundaries and contacts, offering enhanced resolution and emphasizing interaction with these critical features.

By measuring amplitude distortions of waves at velocity contacts, our method delivers exceptional resolution in plan, outperforming comparable techniques and providing invaluable insights into subsurface structures and mineral deposits.

As the world shifts towards sustainable energy solutions, geothermal energy extracted from the depths of the Earth emerges as a promising contender. Geothermal sources harbor vast reserves of energy capable of satisfying a substantial portion of the planet’s energy demands. This renewable energy form harnesses the Earth’s natural heat, generated by processes such as radioactive decay of minerals and volcanic activity. Geothermal reservoirs span various depths, ranging from shallow depths to several kilometers below the Earth’s surface.

In the pursuit of uncovering the hidden treasures of geothermal energy, the Geological Exploration Microseismic Sounding (GEMS) method has risen to prominence. Recent applications of GEMS in geothermal exploration have yielded fascinating discoveries beneath the Earth’s surface. Leveraging advanced technology, GEMS has the remarkable ability to unveil near-vertical structures, providing valuable insights for identifying potential geothermal reservoirs.

The integration of GEMS in geothermal site development offers significant advantages. By accurately delineating subsurface structures, GEMS minimizes the need for extensive drilling, thereby reducing associated costs and environmental impact. Moreover, GEMS enhances the efficiency and longevity of geothermal projects by guiding resource allocation and optimizing well placement.

In summary, the adoption of the GEMS method represents a paradigm shift in geothermal exploration, unlocking unprecedented opportunities for sustainable energy development. As we continue to harness the Earth’s natural resources responsibly, GEMS stands as a beacon of innovation, paving the way towards a greener and more sustainable future.

Exploring the depths of the Earth for groundwater resources is a critical endeavor in ensuring water security and sustainability. Groundwater prospecting encompasses a range of methods aimed at identifying viable sources of high-quality water for extraction. Whether as part of general water resource management strategies or in response to climate change-induced water scarcity, groundwater prospecting plays a pivotal role in securing our water supply.

In many cases, vast near-surface rock formations characterized by high fracturing and porosity harbor significant groundwater reserves. These formations exhibit distinctive characteristics, such as reduced velocities in seismic wave propagation, making them prime targets for exploration.

Terravox technology revolutionizes groundwater prospecting by providing comprehensive mapping of groundwater volumes both in plan and depth. By utilizing advanced geophysical techniques, Terravox enables precise identification and visualization of subsurface aquifers, facilitating informed decision-making in water resource management.

It’s important to note that while Terravox technology can map groundwater volumes, determining the quality and quantity of the groundwater requires additional independent studies, typically through exploratory drilling. These studies provide essential insights into the chemical composition, flow rates, and other properties critical for effective groundwater extraction and utilization.

In summary, Terravox offers a powerful tool for groundwater prospecting, empowering stakeholders to make informed decisions in addressing water challenges and ensuring sustainable access to this vital resource. With Terravox, the path to unlocking the potential of underground water resources has never been clearer.

Selecting the optimal site for large-scale infrastructure projects, such as bridges, tunnels, dams, and highways, is a critical determinant of their overall stability and success. The consequences of constructing such facilities in compromised locations, characterized by underground karst zones, fractures, or quicksands, can lead to significant structural challenges, unforeseen expenses, and project delays.

Identifying zones of potential strength failure near the surface poses a significant challenge, particularly in regions where weakening zones do not align with lithological boundaries. This complexity is often encountered in mountainous areas, canyons, landslide slopes, quarries, and other geologically diverse terrains. The gradual development of strength loss zones, characterized by imperceptible displacements until eventual collapse, poses a significant risk to infrastructure projects.

At Terravox, we offer a solution to this pressing challenge through our Geological Exploration Microseismic Sounding (GEMS) technology. By leveraging advanced geophysical techniques, GEMS enables the reliable detection of attenuation sites. These sites are characterized by volumes of rock mass penetrated by a network of small fractures and violations, resulting in relatively reduced seismic wave velocities.

With GEMS technology, infrastructure developers can gain valuable insights into subsurface conditions, allowing for informed decision-making during site selection. By identifying potential areas of weakness early in the planning phase, project stakeholders can mitigate risks, optimize construction strategies, and ensure the long-term stability and resilience of infrastructure projects.

In summary, Terravox’s GEMS technology offers a powerful tool for enhancing infrastructure stability through precise site selection. By detecting attenuation sites with unparalleled reliability, we empower project teams to navigate complex geological challenges and build with confidence in even the most demanding environments.

Terravox technology offers versatile applications across a spectrum of engineering domains, delving into the intricate processes within the Earth’s crust. From earthquake monitoring and prediction to volcano activity tracking and karst cavern detection, our innovative solutions revolutionize safety and stability in industrial engineering.

  1. Earthquake Monitoring and Prediction: Terravox technology excels in identifying seismic generation structures and investigating earthquake focal geometry. By pinpointing these critical features, we contribute to early warning systems and enhance our understanding of earthquake dynamics, aiding in prediction efforts.
  2. Volcano Activity Monitoring and Prediction: Our technology facilitates the allocation of “hot points,” key indicators of volcanic activity. By monitoring these indicators, we empower stakeholders to anticipate volcanic eruptions and mitigate associated risks, safeguarding communities and infrastructure.
  3. Karst Cavern Detection: The development of suffusion and karst processes, coupled with sharp surface dips, poses significant challenges for industrial facilities. Terravox technology offers a solution by detecting potentially dangerous weak spots and enabling the establishment of monitoring systems. This proactive approach ensures timely intervention to preserve the integrity and safety of industrial infrastructure.

In summary, Terravox technology goes beyond conventional methods, offering comprehensive solutions for understanding and managing deep Earth processes. By leveraging advanced geophysical techniques, we empower industries to proactively address risks, enhance safety measures, and safeguard both assets and lives. Together, we pave the way towards a safer and more resilient future in engineering.