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See which stages are producing with Deep Imaging’s unique, surface-based EM monitoring solutions. By directly tracking subsurface fluid movement down to the individual stage, Deep Imaging delivers a new, actionable data source so you can better understand completion effectiveness. Customers are better equipped to improve well performance, saving time and optimizing costs during drilling and completion, recompletion and EOR.

Overview of services


Frac Monitoring & Imaging



What:

  • Direct measurement of dynamic changes to the reservoir
  • Acquisition system yields +/- 50’ resolution
  • Unconventional depths including 14,000’ to surface
  • Processing and imaging via amplitude ratio and phase difference improves throughput and is less interpretative
  • Fully surface-based, off pad, non-intrusive monitoring, and small footprint over the lateral
  • Correlated to Fiber Optics, Tracers, and Microseismic

Benefits:

  • Images what is effectively stimulated and bypassed production
  • Improves understanding of fluid placement, leak off, and entrapment
  • Identify recompletion areas
  • More accurate half-length (well spacing), azimuth (wellbore direction), and stage spacing
  • Avoid hazards, i.e., faults & aquifers, out of zone
  • Identify frac hits and completion issues, leaky packers or plugs, poor cement job, screen outs, and diverter effectiveness
  • Aides in reducing waste, pumping too much volume and proppant
  • Improves understanding of natural fractures versus hydraulic fractures
  • Indicates frac complexity and/or frac height
  • Better correlation to IPs and EURs

Flowback Monitoring


What:

  • Images the clean-up and flow back of the well identifying current individual stage performance and what part of the reservoir is bypassed
  • Acquisition system yields +/- 50’ resolution
  • Unconventional depths including 14,000’ to surface
  • Processing and imaging via amplitude ratio, phase difference (& optional stacking) improves throughput and is less interpretative
  • Fully surface-based, off pad, non-intrusive monitoring, and smaller footprint over the lateral

Benefits:

  • Identify what stages are producing and current non-producing stages
  • Identify recompletion candidate stages
  • Correlate to completion strategy effectiveness and aid in modification of future completion strategies
  • Better prediction of future IPs and EURs

EOR


What:

  • Images the placement or sweep of Natural Gas, CO2, or Water injection
  • Acquisition system yields +/- 50’ resolution
  • Unconventional depths including 14,000’ to surface
  • Processing and imaging via amplitude ratio, phase difference (& optional stacking) improves throughput and is less interpretative
  • Fully surface-based, off pad, non-intrusive monitoring, and smaller footprint over the lateral

Benefits:

  • Improves production and EUR
  • Better understanding of the sweep effectiveness
  • Aids in determining the volumes and type of fluid or gas injected
  • Optimize the number of injection wells
  • Correlates EOR strategy to production

Shallow Subsurface Hazards Assessment

What:

  • Images the edges of caverns, alluvial deposits, aquifers, and/or dissolution zones
  • Acquisition system yields +/- 100’ resolution
  • Data inversion provides a cross sectional or depth view
  • Depths including 3,000’ to surface
  • Processing and imaging via amplitude ratio, phase difference (& optional inversion) improves throughput and is less interpretative
  • Fully surface-based, non-intrusive monitoring, sparser array for great area coverage

Benefits:

  • Predetermine optimal drilling location by avoiding shallow hazards and reduce liability for drilling and completion operations
  • Mitigate environmental risk by demonstrating you are not fracing into an aquifer
  • Improve HSE

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