Artificial Lift Energy Recovery System
More quantity. Less energy.
All that with integrity
harness the power of hydraulics combined with automated
electronic solutions & disruptive industrial innovation
Next-Gen hydraulic rod lift pump
Reduced carbon footprint
Our system is designed for maximum efficiency and intelligence, significantly reducing the carbon footprint. By minimizing the hydraulic oil reservoir to the essential volume only, we cut down on material usage and environmental impact.
This leads to lower energy consumption and reduce emissions throughout the system’s lifecycle.
Full hydraulic recovery system*
Our system recovers energy during the downward stroke of the rods and reinjects it to assist the upward stroke, greatly enhancing overall efficiency.
Combined with accumulator linearization and dynamic load compensation, this energy recovery enables us to achieve outstanding performance unmatched by conventional systems.
Linearized gas accumulator behavior*
Conventional systems use hydropneumatic accumulators whose pressure-volume behavior follows a non-linear gas law, making force compensation complex and less predictable.
In contrast, our system uses simple off-the-shelf accumulators but employs a proprietary approach to linearize their response. This not only ensures a more predictable and controllable system behavior, but also reduces both complexity and cost.
Pump Off Control & EtherCAT™
Our artificial lift units come equipped with a built-in smart control PLC, powered by a fully integrated EtherCAT™ system.
The onboard system continuously monitors rod load conditions and automatically adapts performance in real time, guided by operator preferences.
Intelligent optimization
Our smart lift system reduces rod stress with adaptive pause control, prevents costly shutdowns by detecting overloads early, and minimizes hang-ups through intelligent speed adjustments. Advanced control optimizes stroke speed to avoid fluid pounding and rod buckling, ensuring efficient, continuous production.
4.0 industry & SCADA-ready
Our system leverages IO-Link technology to foster seamless digital communication with all sensors and actuators. Unlike traditional analog wiring, IO-Link provides full bi-directional data exchange, plug-and-play setup, real-time diagnostics and simplified cabling.
This results in a SCADA-ready system, fully compatible with remote monitoring.
100% standardized parts
No custom parts. No exotic components. Just smart engineering using 100% standard hardware — readily available, proven and cost-effective.
It’s performance without complexity.
True dynamic compensation*
Unlike traditional systems that rely on fixed counterweights or static accumulators to balance rod string dynamics — resulting in fluctuating loads on the motor — our system actively compensates for these force variations in real time.
The result : a perfectly balanced system where the motor operates under a constant load, regardless of downhole force fluctuations.
Dedicated oil conditioning loop
A built-in oil conditioning circuit ensures that every drop of hydraulic fluid meets highest quality standards. By filtering the oil with ultra-fine precision, the system preserves fluid integrity, extends component life and guarantees consistent high performance — even in harsh environments.
Forced pump bearing lubrication
Unlike conventional designs where critical pump bearings rely on passive lubrication, our system actively forces oil to the upper bearing — guaranteeing consistent and reliable lubrication under all conditions. This drastically extends components life and enhances overall system durability.
*international patent pending
Smarter. Stronger. Saver.
Single pump unit performance Comparison
X axis = time [s]
Y axis = power [kW]
customize your installation
single pump unit
Single Well Mode
One unit operates with a single well. In this configuration, a counterweight system using an accumulator balances the load, ensuring efficient and stable operation.
Dual Well Mode
One unit manages two wells simultaneously. Here the weight of the rods in the first well serves as the counterweight for the second one. The system alternates between wells, optimizing energy use and maximizing performance.
dual pump unit
Single Well Mode
Two linked units drive a single well using an accumulator-based counterweight system. This configuration is ideal for particularly demanding wells requiring greater power.
Dual Well Mode
Two linked units operate two wells in perfect alternation. The weight of the rods in the first well counterbalances the second well, creating an efficient energy-saving system designed for the most demanding conditions.