We provide expert gas lift design, evaluation, and optimization services to maximize well performance, reduce operating costs, and extend well life.

Gas Lift System Design: Design of continuous and intermittent gas lift systems for wells with producing lives from 4,000 to 10 barrels of fluid per day, with lift depths ranging from 1,4000 to 15,000 feet.

Artificial Lift System Evaluation & Optimization: Use of SNAP (System Nodal Analysis Program) software to analyze, compare, and optimize gas lift and ESP systems.

Pressure–Temperature Survey (PTS) Interpretation: Expert diagnosis of gas lift failures to identify cost-effective remedial actions and minimize unnecessary well pulls.

ESP-to-Gas Lift Conversion Analysis: Determination of optimal producing rates and operating conditions for ESP-to-gas-lift transitions.

Equipment Selection & Design: Recommendations for downhole artificial lift equipment, gas lift valves, and surface equipment.

Comprehensive training programs designed to strengthen in-house technical capabilities and improve field and engineering performance.

Gas Lift Design, Optimization & Troubleshooting Training.

Nodal Analysis Training using SNAP software for continuous and intermittent gas lift.

Field & Engineering Staff Mentoring programs tailored to client needs.

Intermittent Gas Lift Design Training based on the research of Dr. Kermit Brown, SPE Legend of Artificial Lift.

Independent technical advocacy to ensure vendor accountability and best-in-class gas lift execution.

Vendor Oversight & Quality Assurance.

Rapid diagnosis and resolution of gas lift problems to minimize production losses.

Lifecycle-focused gas lift designs that maximize production over the life of the well.

Cost-efficient best practices to reduce injection gas volumes and operating expenses.

Gas lift designs for gas well de-liquification.

Pressure–Temperature Survey execution support and slickline procedures.

In-house production and gas lift performance monitoring.

Rule-by-exception benchmarking to maintain critical gas injection rates.

Specialized design of intermittent gas lift systems using Time Cycle or Injection Choke Control.

Optimization of cycle frequency, injection rates, and expected production.

Equipment recommendations to maximize liquid recovery and extend wells to end of economic life.

Gas lift valve selection, port sizing, and surface injection control design.