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Digital fluid flow simulations for fast dynamic properties in weeks versus months 

The FastSCAL service leverages fifteen years of digital rock physics expertise to combine physical laboratory methods with our state-of-the-art computational fluid dynamics engines. This process helps address your real-world challenges of forecasting primary production, waterflooding, various enhanced oil recovery scenarios, and carbon sequestration and utilization in depleted hydrocarbon reservoirs. 

10x

Up to 10x quicker turnaround on SCAL experiments

2 EOR

Completion & risk analysis for chemicals and CO2

3

Production forecasting and risk assessment solutions

4

Simulations for predicting oil/gas in place

Features

  • Predict original oil or gas in-place
  • Production forecasting and risk assessment analysis for the best-, expected- and worst-case scenarios
  • Waterflood forecasting and risk assessment analysis for the best-, expected- and worst-case scenarios
  • EOR completions and risk assessment analysis for the best-, expected- and worst-case scenarios
  • Pore-to-core-to-reservoir simulation upscaling
FastSCAL flow fields
FastSCAL flow fields.
Digital capillary pressure shows CO2 trapping
Digital capillary pressure shows CO2 trapping

Benefits

  • Scalable and fast experiments: attain accurate and fast special core analysis properties months ahead of the physical experiment 
  • Simulate relative permeability and capillary pressure using scenarios that are impractical to perform in physical laboratories and with conditions that typically yield unreliable data or failed experiments
  • Multiple rock input: analysis can be performed on whole core, plugs, sidewall cores, chips, and cuttings
  • Scale independent: delivers Pc-RI data beyond the limits of physical experiments – from high-permeability conventional to tight gas sands and shale
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