Get in touch
Ready to Recover Your Wasted Energy?
Share your pipeline specs and we’ll design a tailored pressure differential energy recovery solution for you.
Every pressure-reduction point along the natural gas supply chain — from processing plants and compressor stations to city gate stations — contains recoverable energy. Our systems capture this pressure differential to generate clean power and industrial refrigeration, turning an infrastructure requirement into a revenue-generating asset.
Industrial facilities that consume high-pressure natural gas must reduce the pressure before use. This unavoidable pressure drop represents a significant energy loss — unless recovered. Our systems capture this energy to generate on-site electricity and cooling, reducing grid dependence and lowering operating costs.
Large-scale pressure letdown at processing facilities and between compressor stages offers significant energy recovery potential, often in the MW-scale range.
High-pressure transmission gas is stepped down to distribution pressure. Our expander-generator units recover the energy lost across pressure-regulating valves, delivering on-site power and cooling for station operations.
Gas-fired power stations receive fuel at high transmission pressure. Recovering the pressure-drop energy adds megawatts of free electricity to the plant output, boosting overall thermal efficiency without burning additional fuel.
Large steel mills with gas-fired furnaces can significantly reduce electricity costs by recovering the pressure energy of incoming natural gas, with typical payback under 4 years.
Any industrial site that involves a gas pressure-reduction process — regardless of gas type or industry sector — can benefit from our system, provided the flow rate meets the minimum threshold. If there is a pressure drop, there is recoverable energy.
A straightforward three-criterion check determines whether your site is suitable for pressure-difference energy recovery.
We analyse your gas flow data, pressure profiles, temperature conditions, and available footprint to evaluate technical feasibility and economic returns.
Our engineering team designs a tailored system — selecting the optimal expander, generator, and heat-exchanger configuration for your specific operating envelope.
Equipment is manufactured in-house at our facility and rigorously tested at our MW-class test platform before delivery.
We handle delivery, system commissioning, and operator training — with ongoing remote monitoring support.
Share your pipeline specs and we’ll design a tailored pressure differential energy recovery solution for you.
