Cut fuel. Cut costs. Cut carbon at every wellhead and terminal. In the demanding environments of the Oil and Gas sector, power continuity is critical, but traditional reliance on large diesel generators is increasingly unsustainable. An Ampd ESS can absorb the high-torque loads of drilling and pumping while a right-sized generator provides a steady, efficient charge.


In the Oil & Gas industry, diesel generators often struggle because their mechanical systems are not designed to react instantly to the sudden surges or drops in demand typical of drilling and extraction.
The highly volatile power profiles found in these remote settings, ranging from high-torque motor starts to fluctuating pumping speeds, cause massive inefficiencies, fuel waste, and excessive wear on engines. This mismatch between traditional generator design and the erratic load patterns of field operations makes them both costly to maintain and prone to unreliability.

Pairing a generator with an Ampd Battery Energy Storage System (ESS) allows your power source to operate within its peak efficiency window. The ESS manages the peaks, allowing the generator to run only when necessary or for just a few hours each day to recharge the system.
By mitigating the need for oversized diesel assets, we help reduce fuel consumption, minimize mechanical wear, and significantly lower the carbon intensity of upstream and midstream operations.
Extend the life of your generator fleet and reduce maintenance intervals by eliminating low-load "wet stacking" and idling.
Substantially lower the carbon footprint of upstream and midstream operations with zero-emission power delivery at the wellhead.
Proven in high-stakes energy environments where power stability is a non-negotiable for safety and production.
Upstream and midstream operations face more power surges and volatility than many realize. Our ESS is designed to handle the "heavy lifting".

Provides instant high-amp startup support to prevent voltage dips during heavy hoisting or drilling starts

Ensures smooth operation of submersible and surface pumps without destabilizing the site power system

Maintains reliable operation for fans and compressors without overloading gensets during ramp-up

Delivers the high power bursts required for fleet electrification without disrupting the plant

Keeps life-critical safety systems, refuge chambers, and remote telemetry online even during primary power outages
• 1.5 year Purchase payback period2
• 66% Reduction in CO2 emissions
² 0.9yrs with Investment Tax Credit (USA)
• 7 month Purchase payback period
• 94% Reduction in CO2 emissions Site
• 2.2 year Purchase payback period
• 50% Reduction in CO2 emissions
• 1 year Purchase paybackperiod
• 72% Reduction in inCO2 emissions
¹Examples are provided for illustration purposes only. Outcomes will depend on the specifics of each case
Visit our Case Studies page to read real world examples of customers that have already benefited from having an Ampd. Alternatively get in touch and we can give you a full cost breakdown, fuel savings, and CO₂ avoided for your site.