ExGeo is devoted to providing the complete solution for all your reservoir monitoring needs: acquisition, processing and consulting services to reduce the risk, optimize the design, and improve the production of reservoir stimulation operations.
With over ten years of experience in applying acoustic and microseismic monitoring to engineering applications worldwide, ExGeo has rapidly expanded its technical expertise. Having been applied for years in mining, Oil & Gas and geothermal industries abroad, microseismic methods are still in their infancy in China. By integrating instrumentation, data interpretation services, software, geophysicists, geologists and reservoir engineers, our team provides the following services that will fulfill the promise of the techniques, as well as achieve a better understanding of the underlying science.
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Deliver the most professional borehole/subsurface microseismic job anywhere nowadays;
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Serve the oil and gas, mining, geotechnical, nuclear waste storage and any industry involved in the engineering of the subsurface;
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Offer the state-of-the-art microseismic planning, design & deployment: including feasibility studies, instrumentation selection, array optimization, velocity model calibration, event location and processing of source parameters, analysis and interpretation of induced fracture networks. The objective is to enable clients to optimize production, improve safety, reduce costs and mitigate risks involved in the engineering of the subsurface;
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Provide clients with training and capacitation in the application of microseismic and acoustic monitoring technologies;
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Application of predictive numerical models for a more complete understanding of the impact of the different operations on the evolution of reservoirs or engineered rock masses;
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Design, provision and installation of the latest technologies in Acoustic Emission monitoring for laboratory rock and brittle materials deformation tests;
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Help the clients to maximize the investment in microseismic monitoring technologies through the analysis and interpretation of their datasets to provide an image of the induced fracture network geometry and its evolution.
