Downhole Hydraulic Fracture Monitoring & Mapping

Microseismic fracture mapping is employed to improve production economics by increasing reservoir productivity and/or reducing completion costs. This capability helps assure the fracture stays in the intended zone and that the complete zone is stimulated. This capability can help optimize production and minimize the number of wells and fractures required.

Downhole Hydraulic Fracture Monitoring & Mapping

Water/Fire Flooding Tracking

Tracking the process zone and identifying which wells were good producers, which were not. Identified the wells where channelling and water/fire front breakthrough were imminent.

Water/Fire Flooding Tracking

Long-term Reservoir Monitoring

Lont-term Reservoir Monitoring - integrating well testing and fracture modeling for optimized treatments. Seismic Moment Tensor Inversion (SMTI), an advanced processing technique, provides fracture characterization that enhances fracture models and reservoir characterization for production simulation. •Steam movement identification:Microseismicity can provide detailed knowledge of steam movement, so you can see where the steam is going and how it moves through the reservoir. Caprock and well casing integrity: Microseismic monitoring can provide valuable information on the integrity of caprock surrounding a reservoir and casings within wells during high-pressure and temperature steam injections to reduce the risk of breakout or spills. •Improved decision making: Use microseismic information to make informed decisions to optimize operations. •Enhanced understanding of reservoir behaviour: Get the clearest picture of what is happening downhole in the shortest amount of time. •Stimulated Reservoir Volume: provides estimates of the volume of the simulated area to determine the treatment effectiveness.

Long-term Reservoir Monitoring

Real-Time Analysis

Real-time processing of microseismic data can provide feedback of information to engineers on the position, growth and effectiveness of a hydrofracture stimulation, or can map extraction and injection paths in a producing field. Real-time services can provide critical insight throughout the entire completions process, which allows clients to determine the effectiveness of different frac treatments in real-time, allowing quick decisions on how to move forward with a completions program. Customers can view data delivered in real-time at the project site, while the analysts in remotely.

Real-Time Analysis

Tomographic Fracture Image

A new, patented integrated microseismic services by (GGS)Global Geophysical Services. Direct Mapping of Fracture / Fault Networks True Connectivity Fracture Propogation Rates Reservoir Boundary Identification Advanced Drilling Information

Tomographic Fracture Image

About Us

In recent years, microseismic has become a burst that is often associated with unconventional reservoirs. Having been used for years in mining, Oil, Gas and geothermal applications abroad, the domestic (Chinese) use of microseismic methods is still in its infancy. By gathering together instrumentation, data interpretation services, softwares, geophysicists, geologists and reservoir engin...[More]

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Monitoring of UCS will be pushed

MicroSeismicNet will push microseismic monitoring of Underground Carbon Storage (UCS) technology in

Our Solutions Successfully in 2013.

Our Solutions Successfully Completed Downhole Microseismic Fracture Mapping Program in 2013.

TFI introduced to China

Tomographic Fracture Image introduced to China from (GGS)Global Geophysical Services.

New english version online

The new english version of web is available now.