JTI software puts advanced technology in the hands of petroleum engineers. The programs are practical, easy-to-use tools which enable the engineer to forecast or evaluate well performance under various conditions. Years of daily use by the JTI staff has proven the software to be reliable in projects involving hundreds of wells around the globe.
JTI.Horizontal™ is a practical engineering tool for production forecasting and history matching. It uses single-phase analytical methods for speed and simplicity. Oilfield (U.S.) or Metric units can be used. JTI.Horizontal handles horizontal, vertical, or hydraulically-fractured vertical wells.
JTI.Horizontal™ can be used to :
- Compare performance of different well types in the same reservoir, e.g. vertical fractured vs. horizontal
- History-match vertical wells to determine reservoir parameters, then forecast performance of a horizontal well
- Estimate reserves using decline-curve analysis
- Estimate permeability, drainage area, and other parameters by history matching
- Optimize well design parameters such as horizontal length, spacing, frac length
PROCONE© is a reservoir engineering tool for coning/cresting analysis. ProCone provides quick, straightforward performance analysis of reservoirs with gas caps and/or aquifers. It handles both vertical and horizontal wells, producing oil or gas. Oilfield (U.S.) or Metric units can be used. ProCone includes 24 analytical coning correlations for critical rate, time to water breakthrough, and post-breakthrough water-cut performance.
PROCONE© can be used to:
- Estimate the maximum rate to produce a new well, to avoid water or gas breakthrough
- Forecast post-breakthrough water-cut performance and reserves
- Forecast and compare the performance of vertical and horizontal wells in the same reservoir
- Optimize perforated height or well length.
MultiLateral™ presents an analytical solution to compute the transient pressure and the rate responses for multiple horizontal drainholes for up-to 8 radial drainholes drilled from a vertical well. This helps in critically assessing the multiple horizontal drainhole technology from a reservoir engineering perspective.
