ESP Sizing / Performance Software
Your Affordable Solution for Electrical Submersible Pump (ESP) Sizing and Performance Analysis
LiftXP is a Cost-Effective Cloud-based Electrical Submersible Pump (ESP) Sizing and Perfomance Software. We offer flexible license model with Monthly, Quarterly, or Yearly subscription. For prices, please email us at sales@evinsys.com
Quick Sizing
Basic sizing module to quickly size your ESP.
Gassy Sizing
Users can easily analyze different pumps on the same pumps from different vendors or models.
Advance Sizing
Add advanced parameters to pumps simulations,set specific gravities,flow rates, viscosities, head,frequencies, and others.
Horizontal Pump
HPS module supporting horizontal pump system.
ESP Catalog
Allows users to browse pump curves for different pumps and simulate different operating conditions, numbers of stages and frequency.
Pump Comparison
Users can easily analyze different pumps on the same charts in order to compare pumps from different vendors or models.
Pump Performance
Add advanced parameters to pumps simulations,set specific gravities,flow rates, viscosities, head,frequencies, and others.
Pump Series Range
Allows users to compare models within the same series.
LiftXP Sizing Features
- Â Cloud based solution.
- Â Several Sizing Modules (Basic, Gassy, Advance and Supports for Horizontal Pump System).
- Â Workflow style simplifying the Sizing process with Error warnings during design process.
- Â Generate PDF Sales Reports.
- Â Downhole Diagram with a summary of the selected equipment.
- Â Select up to three protectors and up to two tandem motors.
- Â Size vertical and deviated wells in Advanced Sizing.
- Â Apply Viscous Flow effects to Pump and Motor Performance.
- Â Find IPR curves to predict your inflow.
-  Simulate free gas effects on your system including Turpin’s coefficient prediction.
- Â Stage-by-stage pump calculations provide accurate calculation of stages and brake horsepower requirements.
- Â PVT calculations predict rates, densities, solubilities and other required variables at every point of the system.
- Â Multi phase flow models accurately predict TDH requirements and pressure losses.
-  Supports all manufacturer’s pump.
- Â Ability to compare models range within the same series.
- Â A Required Stages vs Q chart gives an idea on the required stages should you expect the produced flow rate to change due to changes in the reservoir or uncertain rates forecast.
- Â Tabbed entries interface allows designers to go back and forth easily and quickly through the different entry and selection modules.
- IPR calculations allow users to match the inflow from the well to the expected pumped rates.
LiftXP Sizing Features​
- Cloud based solution.
- Several Sizing Modules (Basic, Gassy, Advance and Supports for Horizontal Pump System).
- Workflow style simplifying the Sizing process with Error warnings during design process.
- Generate PDF Sales Reports.
- Downhole Diagram with a summary of the selected equipment.
- Select up to three protectors and up to two tandem motors.
- Multi phase flow models accurately predict TDH requirements and pressure losses.
- Supports all manufacturer’s pump.
- Ability to compare models range within the same series.
- Size vertical and deviated wells in Advanced Sizing.
- Apply Viscous Flow effects to Pump and Motor Performance.
- Find IPR curves to predict your inflow.
- Simulate free gas effects on your system including Turpin’s coefficient prediction.
- Stage-by-stage pump calculations provide accurate calculation of stages and brake horsepower requirements.
- PVT calculations predict rates, densities, solubilities and other required variables at every point of the system.
- A Required Stages vs Q chart gives an idea on the required stages should you expect the produced flow rate to change due to changes in the reservoir or uncertain rates forecast.
- Tabbed entries interface allows designers to go back and forth easily and quickly through the different entry and selection modules.
- IPR calculations allow users to match the inflow from the well to the expected pumped rates.