While individual component technologies may meaningfully reduce your environmental impact, the biggest impacts can occur when entire projects are planned collaboratively.
Early engagement is key. If we work together to understand the project drivers early, we can help assess the relative impact of the available options, and our teams can design the solution that best fits your project needs. This way, the right technology is deployed in the right way to realize maximum benefit—for your business and the planet.
The clearest demonstration of our full field development solutions so far is within the production space, where our collaboration with customers has driven highly complex and differentiated subsea and completions solutions that have enabled the avoidance of thousands of tons of CO2 along with a large reduction in energy consumption.
Read more about our full field development solutions and key technologies below.
Watch how Vår Energi avoided additional infrastructure for two new subsea wells and reduced greenhouse gas (GHG) emissions using a rapid multilateral system. Read the full case study from Barents Sea, Norway.
Separate acid gases from produced natural gas without chemicals.
Use both AC and DC power to significantly improve processing vs. conventional AC electrostatic technologies.
Increase reserves access with laterals that enable well reentry and expansion while minimizing surface costs.
Eliminate requirements for upstream separation or antisurge systems.
Maximize oil and gas flow through hydraulic fractures by creating infinite-conductivity channels in your proppant pack.
Eliminate milling with a robust frac plug that isolates reliably and then dissolves rapidly to enable fullbore production.
Increase ESP reliability and lifetime with a cooler, more robust high-efficiency motor.
For oil and gas, mine dewatering, and geothermal REDA ESP pumps.
Handles up to 90% gas volume fraction; used for zero-flaring well tests, well cleanup, and production boosting.
Handle GVFs up to 100% mechanically and fluid viscosities from 1 to 4,000 cP at startup.
Expedites installation and minimizes operational sequences.
Field-proven, sustainable, lower-cost alternative to cement squeezing using a rig, snubbing unit, or CT.
Convert H2S in gas streams to solid sulfur ready for agriculture or disposal.
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