Case Study Fracture Characterization For CCUS
Fracture characterization is critical for determining the potential of carbon capture and storage.
The global transition to low-carbon energy systems is pressing—we recognize the need for society to find alternatives to fulfill the world's energy needs. It is not a task to be taken lightly. It's complicated and requires innovation, a new embedded approach to sustainability, and companies with the vision and capabilities to navigate and deliver on complex challenges.
What will it take to make a global impact?
Thought leaders from around the world share their vision and experiences.
Do you know the 4 important steps that kick off a well integrity risk assessment? For CO2 storage, you should.
Understand the clear benefits of direct lithium extraction versus conventional lithium production.
As global lithium demand surges, here’s how subsurface knowledge can ensure favorable economics sustainably.
What does Scotland's efforts to tap into its renewable resources teach us about building hydrogen energy hubs?
Discover stationary storage solutions to access power when you need it.
Making hydrogen an energy carrier of choice to enable the global energy transition.
Powering the electrification boom with virtually no footprint.
Pioneering industrial decarbonization with innovative carbon capture solutions
Nevada demonstration plant integrates direct lithium extraction (DLE), concentration and conversion technologies to sustainably produce lithium at scale
New methodology simplifies carbon storage site selection and evaluation by quantifying well integrity risk
Working together to abate emissions
Making better decisions faster
Improving performance in the oil and gas industry
Accelerating the transition to low-carbon energy