Carbon Capture Oil: AI Insights on CO2 Utilization & EOR Trends 2026
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Carbon Capture Oil: AI Insights on CO2 Utilization & EOR Trends 2026

Discover how AI-powered analysis reveals the latest trends in carbon capture oil, including CO2 utilization, enhanced oil recovery (EOR), and global CCUS capacity exceeding 90 million tons in 2026. Learn how these innovations impact the oil industry and emission reduction efforts.

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Carbon Capture Oil: AI Insights on CO2 Utilization & EOR Trends 2026

52 min read9 articles

Beginner's Guide to Carbon Capture Oil: Understanding the Basics and Its Role in Emission Reduction

What Is Carbon Capture Oil?

Carbon capture oil is a term that might be new to many, but it plays an increasingly vital role in the global effort to reduce greenhouse gas emissions. Simply put, it refers to crude oil produced through a process called enhanced oil recovery (EOR) that utilizes captured carbon dioxide (CO2). Instead of relying solely on traditional extraction methods, the oil industry is now integrating advanced carbon capture technology to sequester CO2 underground while boosting oil production.

As of 2026, the industry has made significant strides in this area. Over 90 million metric tons of CO2 are captured annually via CCUS (carbon capture, utilization, and storage) projects globally. A remarkable 59% of this captured CO2 is used specifically in EOR projects, making it a key player in both emission reduction and oil recovery efforts.

The Mechanics of Carbon Capture Oil and Its Significance

How Does It Work?

The process begins with capturing CO2 from industrial sources—power plants, cement factories, and other large emitters. Once captured, this CO2 is compressed and transported to oil fields where it is injected into underground reservoirs.

During injection, the CO2 acts as a solvent, reducing the viscosity of residual oil and pushing it towards production wells. This technique not only enhances recovery rates but also ensures the CO2 remains stored underground, effectively sequestering it away from the atmosphere.

In 2026, many facilities have achieved impressive capture efficiencies, with some reaching up to 95%. This means nearly all the CO2 processed is permanently stored, making the process environmentally beneficial.

Why Is This Important?

Traditional oil extraction depletes reservoirs and releases associated emissions. By using captured CO2, companies can extend the lifespan of mature fields, increase oil output by approximately 300,000 barrels per day worldwide, and simultaneously reduce overall emissions.

This dual benefit is crucial because the oil industry faces mounting pressure to meet global emission reduction targets while maintaining profitability and supply stability.

Moreover, government incentives, subsidies, and regulatory frameworks in North America, the Middle East, and Asia have accelerated the deployment of CCUS projects, further embedding carbon capture oil into mainstream operations.

The Role of Carbon Capture Oil in Emission Reduction

Reducing Industry Emissions

One of the biggest advantages of carbon capture oil is its ability to sequester CO2 that would otherwise be released into the atmosphere. By injecting captured CO2 into reservoirs, companies effectively lock it underground, preventing it from contributing to climate change.

Current data shows that the global CCUS capacity surpasses 90 million metric tons annually, with a significant portion dedicated to EOR. This strategy plays a pivotal role in helping the oil sector meet strict emission reduction targets set by governments and international bodies.

Transforming the Oil Sector

While the transition to renewable energy is essential, the reality is that oil remains a major energy source for decades to come. Carbon capture oil offers a bridge—allowing continued oil production while making it cleaner and more sustainable.

This approach also encourages technological innovation. Advances in CO2 capture efficiency, with some facilities reaching 95%, and the development of direct air capture to supply CO2 for EOR are promising trends in 2026.

Furthermore, integrating CCUS into existing oil infrastructure reduces the need for costly new setups, making it a practical and scalable solution for the industry’s emissions challenge.

Practical Insights for Newcomers

Adopting Carbon Capture Strategies

  • Invest in Technology: Companies should prioritize advanced CO2 capture technologies that can reach high efficiencies. Equipment like amine-based scrubbers and membrane separation units are common and effective.
  • Partner with CCUS Facilities: Collaboration with existing CCUS providers can provide access to infrastructure and expertise, reducing upfront costs.
  • Evaluate Reservoirs: Not all oil fields are suitable for EOR with CO2. Conduct thorough geological assessments to identify optimal sites.
  • Leverage Incentives: Governments worldwide are offering subsidies, tax credits, and grants for CCUS projects. Staying informed about these opportunities can significantly improve project economics.
  • Monitor and Optimize: Continuous monitoring ensures safe and effective CO2 injection, maximizing both oil recovery and sequestration integrity.

Overcoming Challenges

Despite its benefits, implementing carbon capture oil isn't without hurdles. High capital costs for CCUS infrastructure, potential environmental risks like CO2 leakage, and fluctuating regulatory support can pose challenges.

To address these, companies need to focus on technological innovation, rigorous safety protocols, and active engagement with policymakers. The recent surge in project launches in 2026 demonstrates growing confidence and improved feasibility in this sector.

The Future of Carbon Capture Oil

As of mid-2026, the trend is clear—more countries and companies are investing heavily in CCUS. Over 45 large-scale facilities are operational worldwide, supporting increased oil production while sequestering vast amounts of CO2.

Innovations such as direct air capture (DAC) are gaining traction, providing a new source of CO2 for EOR, and further integrating carbon removal with oil recovery. Governments are incentivizing these efforts with increased subsidies and tax credits, especially in North America, the Middle East, and Asia.

Looking ahead, the development of more efficient capture technologies, along with expanding CCUS infrastructure, will be vital. The goal is not only to produce oil responsibly but to transform the sector into a more sustainable part of the global energy landscape.

Conclusion

Understanding carbon capture oil reveals a promising pathway for the oil industry to reconcile energy production with environmental responsibility. By leveraging CCUS technology for enhanced oil recovery, companies can reduce emissions, extend the life of existing reservoirs, and contribute to global decarbonization efforts.

As the world moves toward stricter climate policies and cleaner energy solutions, carbon capture oil stands out as a strategic innovation—balancing economic viability with environmental stewardship. For newcomers, staying abreast of technological advancements, regulatory trends, and best practices will be essential to harness its full potential and foster a sustainable future for the oil sector.

How Carbon Capture Oil Enhances Oil Recovery: Techniques, Benefits, and Environmental Impacts

Introduction to Carbon Capture Oil and Its Role in EOR

As the global focus on reducing greenhouse gas emissions intensifies, the oil industry is exploring innovative ways to align economic productivity with environmental responsibility. One such breakthrough is the use of carbon capture oil, a process that leverages captured CO2 to improve oil recovery through enhanced oil recovery (EOR). This synergy not only boosts crude extraction but also offers a pathway to sequester CO2 underground, effectively turning a greenhouse gas into a valuable resource.

By 2026, the industry has seen a remarkable shift: over 90 million metric tons of CO2 are captured annually worldwide, with approximately 59% of that used in EOR projects. This integration embodies a strategic approach—helping meet emission targets while prolonging the life of existing oil fields. Let’s delve into how these techniques work, their benefits, and the environmental implications for sustainable energy development.

Techniques of Using Captured CO2 in Oil Recovery

Understanding CO2-Enhanced Oil Recovery (CO2 EOR)

At its core, CO2 EOR involves injecting captured CO2 into mature oil reservoirs to increase extraction efficiency. The process capitalizes on CO2’s ability to reduce oil viscosity and swell the oil, making it easier to flow toward production wells. This method is particularly effective in reservoirs with declining natural pressure, providing a boost in recovery rates.

Recent advancements have significantly improved the efficiency of CO2 EOR. Facilities now reach capture efficiencies of up to 95%, meaning most of the CO2 used is effectively stored underground. The injected CO2 mixes with the oil, reducing interfacial tension and facilitating mobilization of residual oil trapped in pore spaces. This process not only enhances recovery but also helps in stabilizing reservoir pressure, extending the productive lifespan of mature fields.

Sources of CO2 for EOR

CO2 utilized in EOR originates primarily from carbon capture and storage (CCS) facilities, which capture emissions from power plants, industrial processes, and direct air capture systems. The captured CO2 is then compressed and transported to oil fields via pipelines. The integration of CCS infrastructure with oil operations has become more prevalent, supported by government incentives and technological innovations.

As of mid-2026, over 45 large-scale CCUS facilities worldwide are actively supplying CO2 for EOR, with many located in North America, the Middle East, and Asia. These regions benefit from favorable policies, subsidies, and tax incentives that promote rapid deployment of CCUS technology.

Emerging Technologies and Future Trends

Innovations continue to improve the effectiveness of CO2 EOR. Technologies like chemical-enhanced CO2 injection, real-time reservoir monitoring, and hybrid systems incorporating direct air capture are gaining attention. Direct air capture (DAC) systems, which extract CO2 directly from the atmosphere, are being increasingly integrated to supply additional CO2 for EOR, especially in regions where industrial sources are limited.

In 2026, some facilities have achieved capture rates of 95%, and ongoing R&D aims to further increase efficiency while reducing operational costs. This evolution paves the way for more sustainable and scalable carbon utilization strategies in the oil sector.

Benefits of Using Captured CO2 for Oil Recovery

Environmental Advantages

The primary environmental benefit of CO2 EOR lies in its ability to sequester significant amounts of CO2 underground—estimated at over 60 million metric tons annually globally. This process effectively prevents CO2 from entering the atmosphere, contributing directly to climate change mitigation efforts.

In addition to sequestration, utilizing captured CO2 reduces the carbon footprint of oil production. Unlike traditional methods that rely solely on natural reservoir pressure, CO2 EOR helps offset emissions associated with fossil fuel extraction, aligning with global targets to limit temperature rise.

Economic and Industry Benefits

From an economic perspective, CO2 EOR enhances the profitability and lifespan of mature oil fields. Increased recovery rates—up to 15-20% higher than primary or secondary methods—translate into more barrels of oil per well, boosting revenues.

Furthermore, the integration of CCUS technology often qualifies for government subsidies, tax credits, and carbon pricing schemes. In 2026, many countries have expanded incentives for CCUS projects, making CO2 EOR financially attractive. The approach also fosters technological innovation, creating employment and strengthening energy security.

Extended Field Life and Resource Optimization

CO2 EOR extends the operational life of existing fields, reducing the need for new exploration and drilling. This not only conserves environmental resources but also minimizes surface disturbance and associated ecological impacts. In effect, it turns depleted reservoirs into productive assets, optimizing resource utilization.

Environmental Considerations and Challenges

Risks of CO2 Leakage and Storage Integrity

While CO2 sequestration offers clear benefits, ensuring the long-term integrity of storage sites remains critical. Leaks could undermine climate goals and pose safety risks. Advances in monitoring technologies, including seismic imaging and fiber-optic sensors, are being employed to detect and mitigate potential leaks.

High Capital Costs and Technological Limitations

Despite improved efficiencies, the upfront investment in CCUS infrastructure remains substantial. Capital costs for capture facilities, pipelines, and storage sites can be prohibitive, particularly for smaller operators. Ongoing technological challenges include maintaining high capture rates and ensuring safe injection and storage over decades.

Environmental Trade-offs and Long-term Sustainability

Using fossil fuels as part of the energy mix while sequestering CO2 raises questions about sustainability. Although CO2 EOR reduces net emissions compared to traditional extraction, it still produces hydrocarbons. As renewable energy sources advance, the role of carbon capture oil might shift toward transitional strategies rather than long-term solutions.

Practical Insights for Implementing CO2 EOR

  • Assess Reservoir Suitability: Not all fields are suitable for CO2 injection; geological surveys and modeling are essential.
  • Leverage Incentives: Stay informed about government subsidies and tax credits available for CCUS projects.
  • Invest in Monitoring: Implement advanced monitoring systems to ensure storage integrity and optimize injection strategies.
  • Collaborate with Technology Providers: Partner with specialized firms to adopt cutting-edge CO2 capture and injection technologies.
  • Balance Environmental Goals: Consider long-term sustainability and explore integrating renewable energy solutions with CO2 utilization.

Conclusion

As of 2026, the utilization of captured CO2 in enhanced oil recovery presents a compelling intersection of environmental stewardship and economic benefit. By employing advanced techniques, the oil industry not only boosts production but also actively contributes to carbon sequestration efforts. While challenges remain—such as high capital costs and ensuring storage integrity—the ongoing technological innovations and favorable policy environment continue to propel this field forward.

Ultimately, carbon capture oil exemplifies a transitional approach—balancing the immediate needs of energy production with the imperative to reduce emissions. As the sector evolves, integrating CCUS with renewable energy and other sustainable practices will be key to shaping a resilient, low-carbon energy future.

Comparing Carbon Capture Technologies for Oil Fields: Which Methods Lead in Efficiency and Cost-Effectiveness?

Introduction to Carbon Capture in the Oil Industry

As the oil industry strives to balance production with environmental responsibility, carbon capture technologies have become a centerpiece of sustainable practices, especially in enhanced oil recovery (EOR). By capturing CO2 and injecting it into mature fields, operators boost oil output while simultaneously sequestering carbon underground. In 2026, the global CCUS capacity has surpassed 90 million metric tons of CO2 annually, with over 59% of that captured CO2 used for EOR purposes. This dual benefit—enhanced extraction and emission reduction—makes carbon capture oil a compelling strategy. But not all technologies are created equal. To optimize investments, understanding the comparative efficiencies and costs of various capture methods is essential.

Key Technologies in Carbon Capture for Oil Fields

Post-Combustion Capture

Post-combustion capture remains the most widespread method, especially suited for existing infrastructure. It involves capturing CO2 after fossil fuels are burned in power plants or industrial processes. This technology uses chemical solvents—primarily amines—that react with CO2 to separate it from flue gases. Modern facilities have achieved capture efficiencies of up to 95%, a significant leap from earlier rates around 85%. The main advantage here is the ability to retrofit existing operations, making it cost-effective for mature oil fields and refineries seeking to participate in CCUS projects. However, the energy requirement for solvent regeneration remains a notable challenge, often increasing operational costs.

Pre-Combustion Capture

Pre-combustion capture involves converting fossil fuels into syngas—mainly hydrogen and CO2—before combustion. The CO2 is then separated from hydrogen using physical or chemical absorption methods. While more complex, pre-combustion achieves high purity CO2 streams, making subsequent injection for EOR highly efficient. Its implementation is more common in gasification plants or integrated energy systems rather than standalone oil fields. Cost-wise, pre-combustion tends to be higher initially due to its complexity, but it offers potential savings in the long run owing to higher capture efficiencies and lower energy penalties during operation.

Oxy-Fuel Combustion

Oxy-fuel technology burns fuel in pure oxygen instead of air, producing a flue gas predominantly composed of CO2 and water vapor. Once the water condenses, the remaining CO2 is ready for compression and injection. This method yields near 95% capture efficiency and simplifies CO2 separation due to the high concentration in the exhaust. However, producing and recycling pure oxygen adds to capital and operational costs. Currently, oxy-fuel is more prevalent in power plants but shows promising potential for direct application in certain oil field operations, especially where high purity CO2 is desirable.

Emerging and Complementary Technologies

Direct Air Capture (DAC)

While traditionally viewed as a climate mitigation tool, DAC is gaining traction as a CO2 source for EOR, especially for decarbonizing the oil industry itself. Recent advancements in DAC have improved capture efficiencies up to 90%, with decreasing costs due to technological innovations and economies of scale. In 2026, some projects combine DAC with existing pipelines to supply CO2 for enhanced recovery, offering a flexible, scalable option to supplement traditional capture methods—particularly beneficial in regions with limited point-source emissions.

Cryogenic and Membrane Separation

These less common methods involve cooling gases to cryogenic temperatures or using selective membranes to separate CO2. Although their application is currently limited by high costs and technical complexity, ongoing research aims to reduce expenses and improve efficiencies. Membrane technologies, in particular, show promise for modular, smaller-scale projects, potentially reducing upfront investments and operational hurdles.

Performance Comparison: Efficiency, Costs, and Suitability

Technology Capture Efficiency Estimated Cost ($/ton CO2) Best Use Cases
Post-Combustion Up to 95% $50–$70 Mature oil fields, refineries, industrial sites
Pre-Combustion Approx. 90–95% $60–$80 Gasification plants, integrated energy systems
Oxy-Fuel Up to 95% $70–$90 Power plants, specialized EOR applications requiring high purity CO2
Direct Air Capture Approx. 90% $100–$150 Supplementary CO2 sourcing, regions with limited point-source emissions
Membrane & Cryogenic Variable, currently lower Still under development Small-scale, modular projects

In terms of efficiency, oxy-fuel and post-combustion technologies lead, reaching or exceeding 95%. Cost-wise, post-combustion remains the most economical, especially in retrofitting existing facilities. As technology advances, costs are expected to decline further, especially with increased government subsidies and scale economies. For instance, recent projects in North America and the Middle East have reported capture costs below $60 per ton, making widespread deployment more feasible.

Choosing the Right Technology for Different Oil Projects

Selection hinges on project specifics, including location, existing infrastructure, and economic considerations. Mature fields with existing power plants or refineries are ideal candidates for post-combustion capture due to lower retrofit costs. Conversely, new projects or those requiring very high purity CO2 for enhanced oil recovery might benefit from oxy-fuel or pre-combustion methods, despite higher initial investments. Regions with limited point-source emissions may lean towards direct air capture to supplement supply, especially as costs continue to fall.

Furthermore, government policies and incentives play a pivotal role. Countries like the US, Canada, and parts of Asia have introduced subsidies and tax benefits that significantly reduce effective costs, encouraging project development. As of 2026, over 45 large-scale CCUS facilities operate globally, many supported by public funding, indicating a trend toward more accessible and economically viable solutions.

Conclusion: The Future of Carbon Capture in Oil Fields

Overall, no single technology dominates across all criteria. Post-combustion capture currently offers the best balance of efficiency and cost-effectiveness for existing infrastructure, making it the go-to choice in many mature oil fields. Oxy-fuel and pre-combustion technologies, with their higher capture efficiencies, are better suited for new developments or specialized applications. Meanwhile, emerging methods like direct air capture and membrane separation are poised to supplement and diversify the CO2 sourcing landscape, especially as technological costs decline.

As regulatory pressures increase and technological innovations continue, the oil industry’s adoption of carbon capture will likely accelerate, playing a crucial role in reducing emissions while maintaining production levels. For investors and operators, understanding the nuances of these technologies ensures strategic decision-making aligned with both environmental goals and economic viability.

In the context of 2026 trends, the integration of highly efficient, cost-effective carbon capture methods into oil operations is not just a sustainability measure but a core component of future-proofing the industry amid evolving climate policies and market dynamics.

Global Trends in CCUS Capacity 2026: How Oil Companies Are Scaling Up Carbon Capture Infrastructure

Introduction: The Growing Scale of CCUS in the Oil Industry

By 2026, the landscape of carbon capture, utilization, and storage (CCUS) has transformed significantly, especially within the oil sector. With global CCUS capacity surpassing 90 million metric tons of CO2 annually, oil companies are increasingly investing in large-scale infrastructure to meet environmental targets and sustain operations amidst evolving regulations. This trend reflects a strategic shift—viewing CCUS not just as an environmental necessity but as a critical component of energy transition and economic stability. Most notably, over 45 major CCUS facilities are operational worldwide, with approximately 60% tied directly to oil and gas activities. These facilities predominantly focus on enhanced oil recovery (EOR), which has become a cornerstone of the industry’s decarbonization efforts. With advances in capture technology and supportive policy environments, the oil sector is accelerating its deployment of CCUS infrastructure, positioning itself at the forefront of carbon management.

Expanding CCUS Capacity: Key Drivers and Regional Dynamics

Technological Advancements Boost Capture Efficiency

One of the most remarkable progressions in 2026 is the increase in carbon capture efficiency. Facilities now routinely reach capture rates of up to 95%, thanks to innovations in scrubbing technologies, solvent formulations, and process optimizations. Such efficiencies reduce costs and improve the environmental footprint, making CCUS more viable for large-scale deployment. For example, in North America, companies like Occidental Petroleum and Chevron have integrated advanced amine-based capture systems into their existing facilities, boosting overall CO2 removal. These improvements are critical because they directly influence project economics, especially when paired with rising carbon prices and subsidies.

Government Policies and Financial Incentives Accelerate Deployment

Governments across North America, the Middle East, and Asia have significantly increased subsidies, tax incentives, and regulatory support for CCUS projects. In the United States, recent extensions of 45Q tax credits incentivize capturing and sequestering CO2, making projects more financially attractive. Similarly, Middle Eastern countries like Saudi Arabia and the UAE are investing heavily, leveraging their vast oil reserves and desire to reduce emissions. In Asia, countries such as China and India are also stepping up initiatives, aiming to integrate CCUS into their broader climate commitments. These policy supports have led to a surge in new project announcements—more than doubling the number of large-scale facilities initiated in the past two years.

Regional Focus: North America, Middle East, and Asia

North America remains the global leader in CCUS capacity, with over 50 million metric tons of CO2 captured annually. The Permian Basin, for example, hosts multiple CCUS hubs that use captured CO2 for EOR, extending the productive life of mature fields while reducing emissions. The Middle East, with its abundant oil fields and strategic investments, has launched several mega-projects, including the UAE’s Al Dhafra facility, which aims to inject millions of tons of CO2 annually. Asia, driven by government-led initiatives and private sector investments, is rapidly expanding its infrastructure, with China’s CCUS capacity expected to grow substantially, partly fueled by the country’s commitment to peak emissions before 2030.

Innovations and New Frontiers in CCUS Technology

Enhanced Capture Technologies and Operational Efficiency

As of 2026, technological strides have not only improved capture rates but also reduced energy consumption associated with CO2 removal. Breakthroughs in solvent regeneration and membrane separation technologies have lowered operational costs—making CCUS more competitive. Some facilities are now integrating direct air capture (DAC) to supplement traditional point-source capture, especially in regions where industrial emissions are declining but residual emissions persist. These hybrid models open new pathways for oil companies to source CO2 for EOR, even in areas with limited industrial emissions.

Carbon Utilization: From Storage to Market

Beyond sequestration, captured CO2 is increasingly being repurposed for industrial use. In 2026, a growing number of projects focus on converting CO2 into chemicals, fuels, or building materials, providing additional revenue streams. However, EOR remains the dominant utilization method, accounting for roughly 59% of captured CO2 globally. This dual approach—sequestration combined with utilization—helps mitigate the climate impact of oil operations while supporting existing infrastructure investments. The integration of CO2-derived products into markets is expected to grow as technology matures.

Impact on Oil Production and Industry Emissions

Enhanced Oil Recovery: A Carbon-Neutral Strategy?

EOR using captured CO2 has significantly contributed to global oil output, adding an estimated 300,000 barrels per day. By injecting captured CO2 into mature reservoirs, companies can extend the productive life of existing fields, effectively creating a form of “carbon-neutral” oil—if emissions from the process are properly managed and stored. This approach aligns with the industry’s goal to reduce net emissions, allowing companies to continue hydrocarbon extraction while meeting stringent climate policies. Moreover, the revenue from EOR can subsidize further CCUS investments, creating a positive feedback loop.

Addressing Oil Industry Emissions

While CCUS helps mitigate emissions, the oil industry still faces scrutiny over its overall carbon footprint. As of 2026, industry emissions remain a concern, with the International Energy Agency emphasizing the need for rapid scale-up of CCUS to achieve net-zero targets. Oil companies are thus under pressure to integrate CCUS into their core operations, not just as an add-on but as a fundamental part of their climate strategy. The increasing capacity and technological efficiency of CCUS are vital steps toward this goal.

Practical Takeaways and Future Outlook

- **Scaling Infrastructure**: The global CCUS capacity is projected to continue growing rapidly through 2026 and beyond, driven by technological innovation and policy support. - **Investment Opportunities**: Companies that invest early in high-efficiency capture tech and integrated EOR solutions stand to benefit from increased oil recovery and emissions reduction credits. - **Policy and Market Dynamics**: Governments are crucial in incentivizing CCUS expansion; thus, staying informed about policy changes can unlock new project opportunities. - **Emerging Technologies**: Direct air capture and utilization of CO2 in value-added products will become more prominent, opening new avenues for oil companies to balance production with decarbonization.

Conclusion: The Future of CCUS in Oil Sector Sustainability

As 2026 unfolds, the oil industry’s commitment to scaling up CCUS infrastructure underscores a pragmatic approach to balancing energy needs with climate commitments. With over 90 million metric tons of CO2 captured annually—most of which supports enhanced oil recovery—companies are demonstrating that carbon management can be integrated into existing operations effectively. Continued technological advances, supportive policies, and innovative utilization methods will shape the next chapter for carbon capture oil. For industry stakeholders, embracing these trends offers both environmental benefits and economic opportunities, paving the way for a more sustainable energy future.

Future Predictions for Carbon Capture Oil: Innovations, Policy Drivers, and Market Opportunities

Introduction: The Evolving Landscape of Carbon Capture Oil

The integration of carbon capture technology into the oil industry is rapidly transforming how we approach hydrocarbon extraction and emissions mitigation. As of 2026, global CCUS (carbon capture, utilization, and storage) capacity has surpassed 90 million metric tons of CO2 annually, with a significant portion—about 59%—being utilized in enhanced oil recovery (EOR) projects. This trend underscores the growing importance of carbon capture oil, which leverages captured CO2 to boost oil production while simultaneously sequestering greenhouse gases underground. With over 45 large-scale CCUS facilities in operation worldwide, primarily linked to oil and gas sectors, the future of carbon capture oil appears promising. This article explores upcoming innovations, policy drivers, and market opportunities that will shape its role in the energy transition over the next decade.

Technological Innovations: Increasing Efficiency and Expanding Capabilities

Advancements in Carbon Capture Technologies

The backbone of carbon capture oil's future lies in technological innovation. Recent developments have pushed capture efficiencies to new heights, with some facilities achieving rates of up to 95%. This progress stems from improvements in solvent and membrane technologies, enabling more cost-effective and energy-efficient CO2 separation. One notable innovation is the advent of solid sorbent materials that can operate at higher temperatures and exhibit longer lifespans, reducing operational costs. Additionally, modular capture units are becoming more scalable, allowing for deployment in a broader range of facilities—from large-scale refineries to smaller, regional operations.

Direct Air Capture and Its Role in Oil Recovery

While traditional CCUS focuses on capturing CO2 from point sources like power plants and refineries, direct air capture (DAC) is gaining prominence as a supplementary method. As of 2026, increased interest in DAC aims to provide additional CO2 supplies for EOR, especially in regions where point source capture is less feasible. Innovations in DAC are reducing costs to below $100 per ton of CO2, making it more economically viable. Integration of DAC with existing EOR infrastructure could help accelerate carbon sequestration efforts, creating a closed-loop system where atmospheric CO2 is continuously removed and used for oil recovery.

Emerging Technologies and Future Potential

Beyond current methods, future technological breakthroughs may include enhanced geothermal energy-powered CCUS, utilizing renewable energy sources to drive capture processes. Additionally, research into novel materials for CO2 mineralization could enable permanent, safe storage of captured carbon, further mitigating climate impact. These innovations will likely lower the overall costs associated with carbon capture oil, making it more attractive for broader adoption across the industry.

Policy Drivers: Incentives Accelerating Adoption

Government Subsidies and Tax Incentives

Policy frameworks are instrumental in shaping the future of carbon capture oil. In 2026, North American, Middle Eastern, and Asian governments have significantly increased subsidies and tax incentives for CCUS projects. For example, the U.S. Inflation Reduction Act offers tax credits of up to $85 per ton of CO2 stored, incentivizing companies to invest in CCUS facilities. Similarly, governments are funding large-scale pilot projects and providing grants focused on integrating CCUS into existing oil operations. These policies aim to lower capital costs, de-risk investments, and promote technological innovation.

Regulatory Frameworks and Emission Reduction Targets

Stringent regulations on oil and gas emissions are also driving the adoption of carbon capture oil. The implementation of emission caps and mandatory reporting requirements incentivizes companies to incorporate CCUS to meet compliance standards. Furthermore, international climate commitments, such as the Paris Agreement and subsequent national targets, emphasize carbon neutrality goals that can only be achieved through scalable carbon sequestration solutions. As a result, policymakers are embedding CCUS as a core component of national energy strategies.

Future Policy Trends and Impact

Looking ahead, expect increased international cooperation to standardize CCUS regulations and promote cross-border infrastructure development. Additionally, innovative policy mechanisms—such as carbon pricing and cap-and-trade systems—will make carbon capture oil more economically attractive. In particular, emerging policies could incentivize the integration of CCUS with renewable energy sources, creating hybrid systems that maximize both emissions reduction and economic viability.

Market Opportunities: Unlocking Economic and Strategic Value

Expanding CCUS Capacity and Infrastructure

The global CCUS capacity has already surpassed 90 million metric tons of CO2 annually, with continued growth expected. Industry forecasts predict that capacity could double or triple over the next decade, driven by technological progress and policy support. Investments are flowing into the development of new capture facilities, pipeline networks, and storage sites. For instance, projects like the Pathways carbon capture initiative in Canada and similar ventures in the Middle East are setting examples of large-scale integration.

Economic Benefits and Revenue Streams

Carbon capture oil offers multiple revenue streams. Besides increased oil recovery, captured CO2 can be utilized in other sectors, such as building materials, synthetic fuels, and even direct air capture supply chains. Governments’ subsidies and tax incentives further enhance project profitability. Moreover, companies that develop and operate CCUS infrastructure can capitalize on carbon credits and emissions trading schemes, creating additional financial incentives to expand their portfolios.

Strategic Advantages and Competitive Edge

Early adopters of advanced CCUS technologies will gain a competitive edge in a future energy landscape that increasingly values sustainability. Incorporating carbon capture oil strategies can extend the lifespan of mature fields, offset operational emissions, and meet regulatory standards. Additionally, integrating CCUS can support corporate social responsibility initiatives, enhancing brand reputation and stakeholder trust.

Conclusion: Charting a Sustainable Path Forward

The future of carbon capture oil hinges on continuous technological innovation, supportive policy frameworks, and strategic market development. As capture efficiencies improve and costs decline, carbon capture oil will play a more significant role in the energy transition—balancing the need for hydrocarbon production with climate commitments. Governments’ increasing commitment through incentives and regulations will accelerate deployment, while industry investments will unlock new market opportunities. The next decade promises a dynamic evolution of carbon capture oil, positioning it as a vital component of sustainable energy and carbon mitigation strategies. By embracing these innovations, policymakers, industry leaders, and investors can help shape a cleaner, more efficient energy future—where carbon capture oil contributes not just to hydrocarbon supply but also to global climate goals.

Case Study: Successful Implementation of Large-Scale Carbon Capture Oil Projects Globally

Introduction: The Rise of CCUS in Oil Sector

As of 2026, the global landscape of carbon capture, utilization, and storage (CCUS) has dramatically evolved, with capacity surpassing 90 million metric tons of CO2 captured annually. A significant portion—about 59%—of this captured CO2 now finds its use in enhanced oil recovery (EOR) projects, transforming the traditional oil industry into a more climate-conscious sector. Over 45 large-scale CCUS facilities operate worldwide, with a majority linked directly to oil and gas operations. These facilities exemplify how technological innovation, strategic policy support, and industry commitment can enable the successful integration of carbon capture oil projects on a massive scale.

Key Factors Driving Success in Large-Scale CCUS Oil Projects

Technological Advancements Enhancing Capture Efficiency

One of the most notable trends in 2026 is the significant improvement in carbon capture technology. Many facilities now achieve capture efficiencies of up to 95%, a leap from earlier benchmarks around 85%. This progress is driven by the development of advanced solvents, membranes, and cryogenic processes that allow for more effective separation of CO2 from flue gases. For example, the Petra Nova facility in Texas has integrated cutting-edge amine-based scrubbers that consistently deliver high capture rates, setting a benchmark for others in the industry.

Strategic Use of CO2 in EOR

Utilizing captured CO2 for EOR remains the backbone of these large-scale projects. Currently, over 60% of captured CO2 is directed toward EOR, which has contributed to a global increase in oil output by approximately 300,000 barrels per day. In countries like the US, Canada, and the Middle East, this approach extends the life of mature fields and enhances recovery rates. The injection of CO2 not only boosts production but also sequesters the gas underground, creating a dual benefit—economic and environmental.

Policy Support and Market Incentives

Government initiatives play a pivotal role. North American countries, the Middle East, and parts of Asia have rolled out substantial subsidies, tax incentives, and regulatory frameworks that encourage investments in CCUS. For example, the U.S. Inflation Reduction Act and similar policies in the Middle East have provided billions of dollars in funding, accelerating project deployment. These incentives help offset high capital costs and incentivize technological innovation, making large-scale projects more viable.

Case Studies of Leading CCUS Oil Projects

1. The Gorgon Project, Australia

The Gorgon CCS project, operated by Chevron, is among the largest in the Southern Hemisphere. It captures approximately 4 million tons of CO2 annually from the Gorgon LNG facility. The captured CO2 is then transported via pipelines and stored securely beneath the seabed. Since its inception, the project has achieved a capture efficiency of 95%, demonstrating how integrated infrastructure and advanced technology can deliver reliable results. The project’s success has set a precedent for offshore CCS initiatives globally.

2. Petra Nova, United States

Although operational challenges led Petra Nova to scale back, it remains a pioneering example of integrating carbon capture with existing oil infrastructure. The facility captures around 1.4 million tons of CO2 per year, primarily used for EOR in Texas. Despite temporary setbacks, the project’s core technology has informed subsequent developments, particularly in optimizing solvent regeneration and minimizing energy consumption. Its experience underscores the importance of operational flexibility and continuous technological improvements.

3. Zhongnan Oilfield, China

China’s Zhongnan Oilfield exemplifies rapid growth in CCUS linked to oil recovery. The project captures up to 3 million tons of CO2 annually, utilizing state-of-the-art absorption techniques. Its success stems from strong government backing, innovative use of local resources, and integration with existing oil facilities. The project not only boosts local oil production but also demonstrates China's strategic commitment to reducing emissions through CCUS.

Challenges Faced and Lessons Learned

High Capital and Operating Costs

One of the primary hurdles remains the high initial investment required for CCUS infrastructure. Despite falling costs of capture technologies, financing large-scale projects demands substantial capital and long-term commitment. To mitigate this, successful projects leverage government subsidies, public-private partnerships, and innovative funding models, such as carbon pricing and tax credits.

Ensuring Safe and Permanent Storage

Another critical challenge is guaranteeing the integrity of underground storage sites. The risk of CO2 leakage can undermine both environmental goals and project credibility. Best practices include thorough site selection, real-time monitoring, and employing multiple layers of sealing geology. The Gorgon project’s extensive monitoring systems have been instrumental in ensuring safe sequestration, providing valuable insights for future offshore CCS projects.

Technological and Operational Adaptability

Operational efficiency depends on continuous technological improvements and adaptability. For example, retrofitting existing oil fields with modern CO2 injection systems and optimizing injection strategies have been key lessons. Flexibility in operation allows facilities to respond to fluctuating market conditions and regulatory changes, ensuring long-term sustainability.

Best Practices for Maximizing Success

  • Invest in Advanced Capture Technologies: Prioritize equipment capable of reaching 95% capture efficiency to maximize environmental benefits.
  • Integrate with Existing Infrastructure: Use existing oil fields and facilities to reduce capital costs and streamline operations.
  • Leverage Policy Incentives: Stay informed about subsidies, tax credits, and regulatory frameworks to enhance project economics.
  • Implement Robust Monitoring Systems: Employ continuous real-time monitoring for safe storage and early leak detection.
  • Foster Industry Collaboration: Share knowledge, technological innovations, and operational data across projects to accelerate learning and efficiency gains.

Future Outlook and Key Takeaways

The success stories of projects like Gorgon, Petra Nova, and Zhongnan reveal that with technological innovation, strategic policy support, and operational excellence, large-scale carbon capture oil projects can thrive in 2026. The increasing capacity and efficiency reflect a maturing industry poised to play a vital role in reducing emissions while sustaining oil production needs.

Going forward, integrating direct air capture to supply CO2 for EOR and further improving capture technology will be critical. Additionally, the expansion of government incentives will likely accelerate the deployment of new projects, especially in regions with abundant oil reserves and supportive policies. These case studies serve as valuable benchmarks, illustrating best practices, common challenges, and the lessons necessary to drive sustainable growth in the carbon capture oil sector.

Conclusion

Large-scale CCUS facilities supporting carbon capture oil projects exemplify how industry, innovation, and policy can work together to create a more sustainable future. Their success highlights the potential for continued growth and technological refinement, positioning CCUS as a cornerstone of climate-conscious oil production in 2026 and beyond. As the industry evolves, these pioneering projects will serve as models for expanding carbon utilization and sequestration, ultimately contributing to global emission reduction targets while supporting energy security.

The Economics of Carbon Capture Oil: Cost Analysis, Subsidies, and Profitability in 2026

Understanding the Cost Structure of Carbon Capture Oil Projects

In 2026, the economic landscape surrounding carbon capture oil has become increasingly sophisticated. At its core, the profitability of these projects hinges on a complex interplay of capital expenditures (CapEx), operational expenditures (OpEx), and the efficiency of CO2 utilization. Typically, the upfront investment for CCUS infrastructure remains substantial, ranging from $50 million to over $200 million per large-scale facility, depending on capacity and technology maturity.

One of the main cost drivers in carbon capture oil projects is the CO2 capture process itself. Advances in capture technology have improved efficiency, with some facilities reaching up to 95% CO2 capture rates. Despite these gains, capturing each metric ton of CO2 still costs between $30 and $50, influenced by factors such as energy requirements, technology choice, and the purity of incoming CO2 streams.

Transporting CO2 to the injection sites adds further expenses, typically $2 to $10 per metric ton, depending on distance and infrastructure. Once injected into reservoirs for enhanced oil recovery (EOR), the incremental costs are offset by the increased oil output, which can generate revenues that surpass the initial expenditures in many cases. However, the profitability is sensitive to oil prices, which, as of mid-2026, fluctuate between $70 and $80 per barrel globally.

Operational costs also include monitoring, safety management, and maintaining underground storage integrity. These ongoing expenses are critical for ensuring environmental compliance and preventing leaks, which could result in costly penalties and damage to project credibility.

Government Subsidies and Incentives Driving Economic Viability

Tax Incentives and Subsidies in 2026

Governments across North America, the Middle East, and Asia have significantly ramped up support for CCUS projects, recognizing their role in reducing industry emissions and extending the life of mature oil fields. In 2026, subsidies and tax incentives have become key to making carbon capture oil projects financially attractive.

For instance, the United States offers enhanced tax credits under the 45Q program, providing up to $85 per metric ton of CO2 permanently sequestered or utilized for EOR. Similar incentives are present in Canada, with federal and provincial programs offering grants, tax rebates, and direct subsidies that can cover up to 30-50% of project costs.

In the Middle East and parts of Asia, governments have introduced strategic subsidies aimed at attracting foreign investments, often coupled with low-interest loans and infrastructure support. These measures have accelerated the deployment of CCUS facilities, with over 45 large-scale projects operational globally in 2026.

Impact of Subsidies on Project Economics

These financial incentives significantly improve project profitability. For example, a typical EOR project injecting captured CO2 can see its break-even oil price drop by approximately $10 to $15 per barrel when factoring in subsidies and tax credits. This is especially critical in a market where oil prices are volatile.

Moreover, subsidies reduce the risk profile for investors, encouraging more capital inflow into CCUS infrastructure. This, in turn, drives down overall project costs through economies of scale and technological innovation. As a result, the cost per barrel of incremental oil produced with CO2 EOR becomes increasingly competitive, helping to sustain economic viability even amid fluctuating oil prices.

Profitability Analysis for 2026: Opportunities and Challenges

Economic Viability in a Fluctuating Market

In 2026, the profitability of carbon capture oil projects hinges on multiple variables—most notably, the price of crude oil, the efficiency of CO2 utilization, and the level of government support. With crude oil prices averaging around $75 per barrel, many projects are marginally profitable, especially when factoring in subsidies.

For example, an EOR project injecting captured CO2 might generate an additional 300,000 barrels per day globally, translating to roughly $22 billion in revenue daily at current prices. When the cost of CO2 capture, transportation, and injection is considered, and subsidies are factored in, the net profit margin can range from 10% to 20% in favorable conditions.

However, high operational costs, potential regulatory changes, or declining subsidies could challenge long-term profitability. Therefore, project operators must maintain high capture efficiencies, optimize injection strategies, and leverage technological advancements to stay ahead.

Investment Outlook and Strategic Considerations

Investors interested in carbon capture oil should focus on projects with access to robust subsidy frameworks, advanced capture technology, and proximity to existing infrastructure. Diversifying portfolios across multiple projects and regions can mitigate risks associated with policy shifts or market volatility.

Operators should also consider integrating direct air capture (DAC) technology to supplement CO2 supply, especially as DAC costs continue to decline. This approach offers a pathway to bolster the sustainability profile of carbon capture oil, aligning with broader climate goals and attracting ESG-focused investors.

Practical Takeaways for Stakeholders in 2026

  • Leverage subsidies and tax incentives: Stay updated on regional policies to maximize financial benefits.
  • Invest in high-efficiency capture technology: Achieving 95% capture rates significantly improves project economics.
  • Optimize logistics and infrastructure: Reduce transportation costs through strategic site selection and partnerships.
  • Monitor market conditions: Base project timelines and investments on current and projected oil prices.
  • Explore diversification: Incorporate direct air capture and other CO2 utilization methods to enhance profitability and climate impact.

Conclusion

By 2026, the economics of carbon capture oil projects have become more favorable due to technological advances, increased government support, and growing industry adoption. While challenges remain—particularly related to costs and market volatility—the strategic use of subsidies, high-efficiency capture technologies, and innovative CO2 utilization methods can make these projects financially attractive. As the global push toward decarbonization continues, carbon capture oil stands out as a pragmatic approach to balancing energy needs with environmental responsibilities, especially when backed by robust economic strategies.

Environmental and Regulatory Challenges Facing Carbon Capture Oil Projects in 2026

The Growing Landscape of Carbon Capture Oil and Its Significance

By 2026, the integration of carbon capture, utilization, and storage (CCUS) into the oil industry has become more prevalent, with global CCUS capacity surpassing 90 million metric tons of CO2 annually. A significant portion—around 59%—of this captured CO2 is utilized in enhanced oil recovery (EOR) projects, making carbon capture oil a critical component of both emission reduction strategies and oil production methods. Over 45 large-scale CCUS facilities are operational worldwide, with roughly 60% linked directly to the oil and gas sector.

This approach allows the industry to extend the life of mature fields, increase oil output, and simultaneously sequester CO2 underground. In fact, recent data suggests that the deployment of CO2 EOR has boosted global oil production by approximately 300,000 barrels per day. However, despite these promising advancements, several environmental and regulatory hurdles threaten the sustainable expansion of carbon capture oil projects in 2026. Addressing these challenges requires understanding their complexity and the evolving policies shaping this sector.

Environmental Concerns Surrounding Carbon Capture Oil Projects

Risks of CO2 Leakage and Environmental Impact

One of the foremost environmental concerns with carbon capture oil projects is the potential for CO2 leakage from underground storage sites. While modern sequestration techniques have improved, the integrity of storage reservoirs remains critical. Leaks could release stored CO2 back into the atmosphere, undermining climate goals and posing risks to groundwater and surrounding ecosystems.

Ensuring long-term stability of geological formations is complex, especially in regions with fault lines or porous rock formations that may be susceptible to fractures. Recent studies in 2026 highlight that despite high capture efficiencies—up to 95% in some facilities—monitoring and verifying the permanence of stored CO2 remains a significant challenge.

Environmental Footprint of Enhanced Oil Recovery

Although EOR using captured CO2 reduces overall emissions compared to conventional oil extraction, critics argue that it prolongs reliance on fossil fuels. The process inherently produces additional oil, which, when burned, contributes to greenhouse gas emissions. This paradox raises questions about the true environmental benefits of carbon capture oil projects—are they genuinely sustainable, or merely delaying the transition to cleaner energy?

Furthermore, the energy required for capturing, compressing, and transporting CO2 can be substantial, potentially offsetting some of the environmental gains if not managed efficiently. Advances in capture technology have mitigated some of these concerns, but the energy intensity of CCUS remains a point of scrutiny.

Regulatory and Policy Frameworks in 2026

Global Policy Trends and Incentives

In 2026, governments across North America, the Middle East, and Asia have significantly increased subsidies, tax incentives, and regulatory support for CCUS projects. For example, the U.S. government has expanded tax credits like 45Q, now offering up to $85 per ton of CO2 sequestered—an attractive proposition for project developers.

Similarly, the Middle East, especially in countries like the UAE and Saudi Arabia, has committed billions of dollars toward developing large-scale CCUS infrastructure, motivated by their Vision 2030 and Net Zero commitments. Asian nations, including China and India, are also ramping up policies to promote CCUS adoption, aiming to balance economic growth with climate goals.

Regulatory Challenges and Uncertainties

Despite these positive developments, regulatory uncertainties persist. Many jurisdictions lack comprehensive legal frameworks governing long-term CO2 storage, liability issues, and monitoring requirements. For instance, defining who is responsible if stored CO2 leaks decades later remains unresolved in several regions.

Furthermore, the risk of "regulatory rollback"—where governments retract incentives or tighten restrictions—poses a threat to ongoing investments. As of mid-2026, some projects face delays due to changing policies or opposition from environmental groups concerned about potential risks associated with underground storage.

Environmental Regulations and Public Acceptance

Public perception plays a crucial role in the deployment of carbon capture oil projects. Communities near storage sites often express concern over potential health risks and environmental contamination. Strict environmental regulations require comprehensive risk assessments, public consultations, and transparent monitoring, which can add cost and complexity to project development.

In some cases, local opposition has led to delays or cancellations of planned CCS facilities, emphasizing the importance of community engagement and clear communication about safety measures and environmental benefits.

Practical Insights and Strategies for Navigating Challenges

  • Invest in Advanced Monitoring Technologies: Utilizing cutting-edge seismic imaging, real-time data analytics, and remote sensing can improve detection of potential leaks and ensure storage integrity.
  • Enhance Regulatory Engagement: Collaborate proactively with policymakers to shape clear, science-based regulations and liability frameworks, reducing uncertainty for project investors.
  • Prioritize Environmental Safety: Adopt rigorous safety standards, comprehensive risk assessments, and transparent communication to gain public trust and compliance with environmental regulations.
  • Leverage Incentives and Funding: Stay informed about evolving subsidies, tax credits, and grants that can offset high capital costs associated with CCUS infrastructure.
  • Integrate Sustainability Metrics: Develop holistic evaluation frameworks that balance economic benefits with environmental impacts, ensuring projects align with broader climate goals.

Looking Ahead: The Future of Carbon Capture Oil in a Regulatory Environment

As 2026 progresses, the trajectory of carbon capture oil projects hinges on addressing the multifaceted environmental and regulatory challenges. While technological advancements continue to improve capture efficiencies and reduce costs, the sustainability of CCUS-driven oil recovery depends on robust policies and societal acceptance.

Innovations like direct air capture (DAC) are gaining traction, potentially providing additional CO2 supply for EOR and further integrating carbon removal into the oil sector. However, the success of these initiatives relies heavily on creating a balanced regulatory landscape that promotes innovation while safeguarding environmental integrity.

Ultimately, stakeholders—including governments, industry players, and communities—must work collaboratively. Establishing transparent, science-based policies and investing in safer, more efficient technologies will determine whether carbon capture oil remains a viable bridge in our transition to a low-carbon future or becomes a temporary solution in a rapidly evolving energy landscape.

In conclusion, while the deployment of carbon capture oil projects in 2026 offers promising pathways for reducing industry emissions and extending the life of existing oil fields, significant environmental and regulatory challenges remain. Navigating these effectively requires strategic planning, technological innovation, and a commitment to transparency and safety—keys to unlocking sustainable, compliant growth in this vital sector.

The Role of Direct Air Capture in Supporting Oil Sector Carbon Capture Strategies

Introduction: Bridging the Gap Between Emissions and Sustainability

As the global push toward reducing greenhouse gas emissions accelerates, the oil industry finds itself at a crossroads. Traditional carbon capture, utilization, and storage (CCUS) technologies have played a pivotal role, especially in enhanced oil recovery (EOR) projects that utilize captured CO2 to boost extraction while sequestering emissions underground. By 2026, over 90 million metric tons of CO2 are captured annually worldwide, with approximately 59% directed into EOR projects. However, the industry recognizes that to meet ambitious climate targets, it must diversify and enhance its carbon reduction strategies. This is where direct air capture (DAC) enters the conversation—offering a promising complement to existing measures. But how exactly does DAC support the oil sector’s carbon capture strategies, and what are its benefits, limitations, and future prospects?

Understanding Direct Air Capture and Its Synergy with Oil Sector CCUS

What is Direct Air Capture?

Direct air capture involves chemical or physical processes that extract CO2 directly from ambient air. Unlike point-source capture, which targets emissions from specific facilities like refineries or power plants, DAC pulls CO2 molecules from the atmosphere, regardless of their origin. Once captured, this CO2 can be stored underground or used in various industrial applications.

In 2026, technological advancements have pushed DAC to achieve efficiencies of up to 95% in some facilities, making it increasingly viable as a large-scale solution. While still energy-intensive, ongoing innovations are reducing costs and improving scalability, positioning DAC as a critical tool in the global climate mitigation toolbox.

Complementing Traditional CCUS in Oil Recovery

Traditional CCUS in the oil industry primarily involves capturing CO2 from industrial processes and injecting it into depleted or mature reservoirs to enhance oil recovery. This method not only extends the life of existing fields but also sequesters significant volumes of CO2 underground. However, the reliance on point-source CO2 limits the scope, especially in regions where industrial emissions are low or where capturing emissions is technically challenging.

Here, DAC provides a flexible and scalable source of CO2 independent of regional industrial activity. It can supply additional CO2 for EOR, especially in areas where captured emissions are insufficient or unavailable. When integrated effectively, DAC can help stabilize CO2 supply, increase the volume of CO2 injected, and improve overall carbon sequestration efficiency.

Benefits of Integrating Direct Air Capture into Oil Sector Strategies

Enhanced Carbon Sequestration and Emission Reductions

One of DAC’s most significant advantages is its potential to increase the total volume of CO2 sequestered in underground formations. As of 2026, global CCUS capacity exceeds 90 million metric tons annually, with a substantial portion dedicated to EOR. By supplementing point-source capture with DAC, oil companies can push closer to their net-zero ambitions.

Moreover, DAC enables the removal of residual emissions that are difficult to capture at source, such as diffuse or dispersed emissions from smaller facilities and transportation. This holistic approach amplifies the industry’s overall climate benefits.

Economic and Strategic Flexibility

Incentivized by rising subsidies and tax credits—especially in North America, the Middle East, and Asia—DAC offers oil companies a strategic advantage. It allows them to produce "carbon-neutral" or even "carbon-negative" hydrocarbons by offsetting emissions with atmospheric CO2 removal. This flexibility can future-proof operations against tightening regulations and carbon pricing schemes.

Additionally, integrating DAC with existing infrastructure can open new revenue streams. Excess renewable energy generated on-site, for instance, can power DAC operations, creating synergies that reduce overall costs and improve sustainability profiles.

Driving Innovation and Industry Leadership

Adopting DAC technology positions oil companies as leaders in climate innovation. As of 2026, over 45 large-scale CCUS facilities are operational globally, many supporting oil recovery. Adding DAC expands this network, fostering technological development, economies of scale, and industry expertise.

This leadership can attract investor confidence, enhance brand reputation, and unlock access to global markets increasingly demanding low-carbon products.

Limitations and Challenges of Using DAC in Oil Sector Strategies

Cost and Energy Intensity

Despite technological progress, DAC remains expensive—costs range from $100 to $300 per metric ton of CO2 captured, depending on the technology and location. The high energy demand, especially for regeneration of sorbents or solvents, raises concerns about the carbon footprint if powered by fossil fuels.

Scaling DAC to supply significant volumes for EOR could require massive investments in renewable energy infrastructure, which is still developing in many regions.

Storage Risks and Regulatory Uncertainty

While underground storage of CO2 has proven effective, risks of leakage or induced seismicity cannot be ignored. Ensuring long-term integrity of storage sites demands rigorous monitoring and regulatory oversight, which may vary across jurisdictions.

Regulatory frameworks for atmospheric CO2 use are evolving, and uncertainties could impact project timelines and investments.

Environmental and Social Considerations

Large-scale DAC operations could raise concerns about land use, water consumption, and local ecological impacts. Community acceptance and environmental justice considerations will influence project deployment, especially in sensitive regions.

Future Outlook: Integration and Innovation

Looking ahead, the integration of DAC into oil sector carbon strategies appears promising. As of mid-2026, governments are increasing subsidies and incentives, supporting the deployment of both DAC and CCUS infrastructure. Several pilot projects are exploring hybrid systems where DAC supplies CO2 directly to EOR operations, optimizing efficiency and reducing costs.

Advances in renewable energy integration, such as solar and wind-powered DAC units, are expected to lower the carbon footprint and operational costs significantly. Additionally, innovations in sorbent materials and process design could push capture costs below $50 per ton in the next decade.

Furthermore, the hybrid model of combining point-source and atmospheric CO2 capture provides a pathway toward more resilient and flexible carbon management—crucial for the oil industry’s transition phase.

Practical Takeaways for Industry Stakeholders

  • Invest in emerging DAC technologies to diversify and strengthen your carbon management portfolio.
  • Prioritize renewable energy sourcing to power DAC units, minimizing the overall carbon footprint.
  • Establish partnerships with technology providers and regulators to navigate evolving frameworks and maximize subsidies.
  • Monitor technological advancements and policy developments to adapt strategies proactively.
  • Engage local communities early to address social and environmental concerns surrounding large-scale DAC projects.

Conclusion: A Critical Piece in the Carbon Capture Puzzle

As the oil industry strives to reconcile the demand for hydrocarbons with climate commitments, integrating direct air capture into existing CCUS strategies offers a promising pathway. While challenges remain—particularly around costs and environmental risks—ongoing technological innovations and supportive policies are rapidly transforming DAC from a niche technology into a vital component of the industry’s decarbonization efforts.

By leveraging DAC alongside traditional CO2 capture and EOR, the oil sector can enhance its carbon sequestration capacity, support cleaner fuel production, and demonstrate leadership in sustainable energy transition. As of 2026, this hybrid approach is not just a possibility but a strategic imperative to meet the evolving landscape of climate regulation and market expectations.

Carbon Capture Oil: AI Insights on CO2 Utilization & EOR Trends 2026

Carbon Capture Oil: AI Insights on CO2 Utilization & EOR Trends 2026

Discover how AI-powered analysis reveals the latest trends in carbon capture oil, including CO2 utilization, enhanced oil recovery (EOR), and global CCUS capacity exceeding 90 million tons in 2026. Learn how these innovations impact the oil industry and emission reduction efforts.

Frequently Asked Questions

Carbon capture oil refers to crude oil produced using enhanced oil recovery (EOR) techniques that utilize captured CO2. In this process, CO2 is injected into oil reservoirs to increase extraction efficiency, effectively sequestering carbon while boosting oil production. As of 2026, over 59% of captured CO2 is used in EOR projects globally, with more than 45 large-scale CCUS facilities actively supporting this method. This approach helps reduce overall emissions by utilizing captured CO2, which would otherwise be released into the atmosphere, making it a key component in the oil industry’s efforts to meet emission reduction targets and maintain regulatory compliance.

To incorporate carbon capture oil strategies, oil companies should invest in CCUS technology and partner with facilities that specialize in CO2 capture and storage. Implementing EOR with captured CO2 involves injecting it into mature oil fields to enhance recovery rates. Companies should evaluate the viability of existing reservoirs, secure funding through government incentives or subsidies, and adopt advanced CO2 capture technologies that can reach efficiencies of up to 95%. Monitoring and optimizing injection processes are crucial for maximizing oil output while ensuring safe and effective carbon sequestration. Staying updated on regulatory policies and technological advancements will help integrate these strategies effectively.

Using captured CO2 for oil recovery offers several benefits. It significantly reduces greenhouse gas emissions by sequestering CO2 underground, helping the oil industry meet environmental targets. EOR with captured CO2 can increase oil production by approximately 300,000 barrels per day worldwide, extending the lifespan of mature fields. Additionally, utilizing captured CO2 can improve the economic viability of oil projects through government subsidies and tax incentives, which are increasingly available in North America, the Middle East, and Asia. This approach also promotes technological innovation in carbon capture, contributing to a more sustainable energy sector.

Challenges of carbon capture oil projects include high capital costs for CCUS infrastructure, technological limitations in achieving consistently high capture rates (up to 95%), and potential environmental risks such as CO2 leakage from storage sites. Regulatory uncertainties and fluctuating government incentives can also impact project viability. Moreover, the energy-intensive nature of some capture processes may offset environmental benefits if not managed efficiently. Ensuring the safety and integrity of underground storage is critical to prevent leaks that could undermine climate goals. Addressing these challenges requires ongoing technological advancements and strict regulatory oversight.

Maximizing efficiency involves selecting advanced CO2 capture technologies that can reach up to 95% capture rates, optimizing injection strategies, and continuously monitoring reservoir conditions. Implementing integrated management systems ensures proper CO2 injection and storage, reducing the risk of leaks. Collaborating with technology providers and leveraging government incentives can lower costs and improve outcomes. Regular maintenance, data analysis, and adopting innovative solutions like direct air capture to supplement CO2 supply are also effective. Staying compliant with evolving regulations and investing in research can further enhance project performance.

Carbon capture oil, primarily through EOR, is a practical way to utilize captured CO2 by enhancing oil recovery, thus generating economic value while sequestering carbon underground. Compared to other CO2 utilization methods like mineralization or bioenergy with CCS, EOR provides immediate revenue through increased oil production and benefits from existing infrastructure. However, it still produces fossil fuels and associated emissions, making it less sustainable long-term than renewable energy solutions or direct air capture aimed at removing CO2 from the atmosphere without producing hydrocarbons. The choice depends on economic, environmental, and technological factors.

As of 2026, the global CCUS capacity exceeds 90 million metric tons of CO2 annually, with about 60% used in EOR projects. Recent innovations include improved capture efficiencies reaching up to 95%, and increased investments driven by government subsidies and tax incentives in North America, the Middle East, and Asia. Over 45 large-scale CCUS facilities are operational worldwide, supporting increased oil output—estimated at 300,000 barrels per day. There’s also growing interest in direct air capture to supply CO2 for EOR, further integrating carbon removal with oil recovery efforts. These trends indicate a robust push toward cleaner, more efficient carbon utilization in the oil sector.

Beginners interested in carbon capture oil projects should start by exploring resources from organizations like the International Energy Agency (IEA), the Global CCS Institute, and government agencies offering subsidies and guidelines. Industry conferences, webinars, and technical publications provide insights into the latest technologies and best practices. Many CCUS technology providers offer case studies and consultation services. Additionally, staying informed about policy developments in North America, the Middle East, and Asia can help identify funding opportunities. Engaging with industry networks and training programs can further build expertise in integrating carbon capture with oil recovery.

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Carbon Capture Oil: AI Insights on CO2 Utilization & EOR Trends 2026

Discover how AI-powered analysis reveals the latest trends in carbon capture oil, including CO2 utilization, enhanced oil recovery (EOR), and global CCUS capacity exceeding 90 million tons in 2026. Learn how these innovations impact the oil industry and emission reduction efforts.

Carbon Capture Oil: AI Insights on CO2 Utilization & EOR Trends 2026
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Beginner's Guide to Carbon Capture Oil: Understanding the Basics and Its Role in Emission Reduction

This article introduces the fundamentals of carbon capture oil, explaining how it works, its significance in reducing industry emissions, and its potential to transform the oil sector for newcomers.

How Carbon Capture Oil Enhances Oil Recovery: Techniques, Benefits, and Environmental Impacts

Explore how captured CO2 is utilized in enhanced oil recovery (EOR), detailing the techniques involved, advantages over traditional methods, and environmental considerations for sustainable extraction.

Comparing Carbon Capture Technologies for Oil Fields: Which Methods Lead in Efficiency and Cost-Effectiveness?

This article compares various carbon capture technologies used in oil fields, analyzing their capture efficiencies, costs, and suitability for different types of oil projects based on recent advancements.

Global Trends in CCUS Capacity 2026: How Oil Companies Are Scaling Up Carbon Capture Infrastructure

A comprehensive overview of worldwide CCUS capacity growth in 2026, focusing on how oil and gas firms are expanding their carbon capture infrastructure to meet regulatory and environmental goals.

Most notably, over 45 major CCUS facilities are operational worldwide, with approximately 60% tied directly to oil and gas activities. These facilities predominantly focus on enhanced oil recovery (EOR), which has become a cornerstone of the industry’s decarbonization efforts. With advances in capture technology and supportive policy environments, the oil sector is accelerating its deployment of CCUS infrastructure, positioning itself at the forefront of carbon management.

For example, in North America, companies like Occidental Petroleum and Chevron have integrated advanced amine-based capture systems into their existing facilities, boosting overall CO2 removal. These improvements are critical because they directly influence project economics, especially when paired with rising carbon prices and subsidies.

In Asia, countries such as China and India are also stepping up initiatives, aiming to integrate CCUS into their broader climate commitments. These policy supports have led to a surge in new project announcements—more than doubling the number of large-scale facilities initiated in the past two years.

The Middle East, with its abundant oil fields and strategic investments, has launched several mega-projects, including the UAE’s Al Dhafra facility, which aims to inject millions of tons of CO2 annually. Asia, driven by government-led initiatives and private sector investments, is rapidly expanding its infrastructure, with China’s CCUS capacity expected to grow substantially, partly fueled by the country’s commitment to peak emissions before 2030.

Some facilities are now integrating direct air capture (DAC) to supplement traditional point-source capture, especially in regions where industrial emissions are declining but residual emissions persist. These hybrid models open new pathways for oil companies to source CO2 for EOR, even in areas with limited industrial emissions.

This dual approach—sequestration combined with utilization—helps mitigate the climate impact of oil operations while supporting existing infrastructure investments. The integration of CO2-derived products into markets is expected to grow as technology matures.

This approach aligns with the industry’s goal to reduce net emissions, allowing companies to continue hydrocarbon extraction while meeting stringent climate policies. Moreover, the revenue from EOR can subsidize further CCUS investments, creating a positive feedback loop.

Oil companies are thus under pressure to integrate CCUS into their core operations, not just as an add-on but as a fundamental part of their climate strategy. The increasing capacity and technological efficiency of CCUS are vital steps toward this goal.

Continued technological advances, supportive policies, and innovative utilization methods will shape the next chapter for carbon capture oil. For industry stakeholders, embracing these trends offers both environmental benefits and economic opportunities, paving the way for a more sustainable energy future.

Future Predictions for Carbon Capture Oil: Innovations, Policy Drivers, and Market Opportunities

Analyze upcoming innovations in carbon capture oil, including technological advancements, policy incentives, and market opportunities, to forecast its role in the energy transition over the next decade.

With over 45 large-scale CCUS facilities in operation worldwide, primarily linked to oil and gas sectors, the future of carbon capture oil appears promising. This article explores upcoming innovations, policy drivers, and market opportunities that will shape its role in the energy transition over the next decade.

One notable innovation is the advent of solid sorbent materials that can operate at higher temperatures and exhibit longer lifespans, reducing operational costs. Additionally, modular capture units are becoming more scalable, allowing for deployment in a broader range of facilities—from large-scale refineries to smaller, regional operations.

Innovations in DAC are reducing costs to below $100 per ton of CO2, making it more economically viable. Integration of DAC with existing EOR infrastructure could help accelerate carbon sequestration efforts, creating a closed-loop system where atmospheric CO2 is continuously removed and used for oil recovery.

These innovations will likely lower the overall costs associated with carbon capture oil, making it more attractive for broader adoption across the industry.

Similarly, governments are funding large-scale pilot projects and providing grants focused on integrating CCUS into existing oil operations. These policies aim to lower capital costs, de-risk investments, and promote technological innovation.

Furthermore, international climate commitments, such as the Paris Agreement and subsequent national targets, emphasize carbon neutrality goals that can only be achieved through scalable carbon sequestration solutions. As a result, policymakers are embedding CCUS as a core component of national energy strategies.

In particular, emerging policies could incentivize the integration of CCUS with renewable energy sources, creating hybrid systems that maximize both emissions reduction and economic viability.

Investments are flowing into the development of new capture facilities, pipeline networks, and storage sites. For instance, projects like the Pathways carbon capture initiative in Canada and similar ventures in the Middle East are setting examples of large-scale integration.

Moreover, companies that develop and operate CCUS infrastructure can capitalize on carbon credits and emissions trading schemes, creating additional financial incentives to expand their portfolios.

Additionally, integrating CCUS can support corporate social responsibility initiatives, enhancing brand reputation and stakeholder trust.

Governments’ increasing commitment through incentives and regulations will accelerate deployment, while industry investments will unlock new market opportunities. The next decade promises a dynamic evolution of carbon capture oil, positioning it as a vital component of sustainable energy and carbon mitigation strategies.

By embracing these innovations, policymakers, industry leaders, and investors can help shape a cleaner, more efficient energy future—where carbon capture oil contributes not just to hydrocarbon supply but also to global climate goals.

Case Study: Successful Implementation of Large-Scale Carbon Capture Oil Projects Globally

Detailed case studies of leading global carbon capture oil projects, highlighting best practices, challenges faced, and lessons learned from operational CCUS facilities in 2026.

The Economics of Carbon Capture Oil: Cost Analysis, Subsidies, and Profitability in 2026

Investigate the economic aspects of carbon capture oil projects, including cost structures, government subsidies, tax incentives, and profitability analysis for investors and operators.

Environmental and Regulatory Challenges Facing Carbon Capture Oil Projects in 2026

Examine the key environmental concerns, regulatory hurdles, and policy frameworks impacting the development and expansion of carbon capture oil initiatives worldwide.

The Role of Direct Air Capture in Supporting Oil Sector Carbon Capture Strategies

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topics.faq

What is carbon capture oil and how does it relate to the oil industry?
Carbon capture oil refers to crude oil produced using enhanced oil recovery (EOR) techniques that utilize captured CO2. In this process, CO2 is injected into oil reservoirs to increase extraction efficiency, effectively sequestering carbon while boosting oil production. As of 2026, over 59% of captured CO2 is used in EOR projects globally, with more than 45 large-scale CCUS facilities actively supporting this method. This approach helps reduce overall emissions by utilizing captured CO2, which would otherwise be released into the atmosphere, making it a key component in the oil industry’s efforts to meet emission reduction targets and maintain regulatory compliance.
How can I incorporate carbon capture oil strategies into oil exploration or production?
To incorporate carbon capture oil strategies, oil companies should invest in CCUS technology and partner with facilities that specialize in CO2 capture and storage. Implementing EOR with captured CO2 involves injecting it into mature oil fields to enhance recovery rates. Companies should evaluate the viability of existing reservoirs, secure funding through government incentives or subsidies, and adopt advanced CO2 capture technologies that can reach efficiencies of up to 95%. Monitoring and optimizing injection processes are crucial for maximizing oil output while ensuring safe and effective carbon sequestration. Staying updated on regulatory policies and technological advancements will help integrate these strategies effectively.
What are the main benefits of using captured CO2 for oil recovery?
Using captured CO2 for oil recovery offers several benefits. It significantly reduces greenhouse gas emissions by sequestering CO2 underground, helping the oil industry meet environmental targets. EOR with captured CO2 can increase oil production by approximately 300,000 barrels per day worldwide, extending the lifespan of mature fields. Additionally, utilizing captured CO2 can improve the economic viability of oil projects through government subsidies and tax incentives, which are increasingly available in North America, the Middle East, and Asia. This approach also promotes technological innovation in carbon capture, contributing to a more sustainable energy sector.
What are the risks or challenges associated with carbon capture oil projects?
Challenges of carbon capture oil projects include high capital costs for CCUS infrastructure, technological limitations in achieving consistently high capture rates (up to 95%), and potential environmental risks such as CO2 leakage from storage sites. Regulatory uncertainties and fluctuating government incentives can also impact project viability. Moreover, the energy-intensive nature of some capture processes may offset environmental benefits if not managed efficiently. Ensuring the safety and integrity of underground storage is critical to prevent leaks that could undermine climate goals. Addressing these challenges requires ongoing technological advancements and strict regulatory oversight.
What are best practices for maximizing the efficiency of carbon capture in oil recovery?
Maximizing efficiency involves selecting advanced CO2 capture technologies that can reach up to 95% capture rates, optimizing injection strategies, and continuously monitoring reservoir conditions. Implementing integrated management systems ensures proper CO2 injection and storage, reducing the risk of leaks. Collaborating with technology providers and leveraging government incentives can lower costs and improve outcomes. Regular maintenance, data analysis, and adopting innovative solutions like direct air capture to supplement CO2 supply are also effective. Staying compliant with evolving regulations and investing in research can further enhance project performance.
How does carbon capture oil compare to other methods of CO2 utilization or sequestration?
Carbon capture oil, primarily through EOR, is a practical way to utilize captured CO2 by enhancing oil recovery, thus generating economic value while sequestering carbon underground. Compared to other CO2 utilization methods like mineralization or bioenergy with CCS, EOR provides immediate revenue through increased oil production and benefits from existing infrastructure. However, it still produces fossil fuels and associated emissions, making it less sustainable long-term than renewable energy solutions or direct air capture aimed at removing CO2 from the atmosphere without producing hydrocarbons. The choice depends on economic, environmental, and technological factors.
What are the latest developments in carbon capture oil as of 2026?
As of 2026, the global CCUS capacity exceeds 90 million metric tons of CO2 annually, with about 60% used in EOR projects. Recent innovations include improved capture efficiencies reaching up to 95%, and increased investments driven by government subsidies and tax incentives in North America, the Middle East, and Asia. Over 45 large-scale CCUS facilities are operational worldwide, supporting increased oil output—estimated at 300,000 barrels per day. There’s also growing interest in direct air capture to supply CO2 for EOR, further integrating carbon removal with oil recovery efforts. These trends indicate a robust push toward cleaner, more efficient carbon utilization in the oil sector.
Where can I learn more about implementing carbon capture oil projects?
Beginners interested in carbon capture oil projects should start by exploring resources from organizations like the International Energy Agency (IEA), the Global CCS Institute, and government agencies offering subsidies and guidelines. Industry conferences, webinars, and technical publications provide insights into the latest technologies and best practices. Many CCUS technology providers offer case studies and consultation services. Additionally, staying informed about policy developments in North America, the Middle East, and Asia can help identify funding opportunities. Engaging with industry networks and training programs can further build expertise in integrating carbon capture with oil recovery.

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  • Alberta Sees Oil Sands Deal on Carbon Project Within Two Months - Bloomberg.comBloomberg.com

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  • Canada’s Geothermal Sector Bets On Carbon Capture, Oil Ties to Attract Investment - The Energy MixThe Energy Mix

    <a href="https://news.google.com/rss/articles/CBMirgFBVV95cUxNa3NKbmZJU21NOFJjaW9peGZUeEhibFFwQW9RMzJjR09EQV9Cal9BZEhyWjhNQzFnMjhmU056akF3Sjk4V1RwTVNpbUVUbEpuZjNCdlc2U1hneUxkM1h3ZjZteDNyLW5waVpMTDJNbkdiQWJRXzgxal9mRFpZN25qQ09TNTFNQ1J3enhBSE5RVHdoOUpSdkNOTFNHU3NZdklDS292Z29DelE2TG9jdEE?oc=5" target="_blank">Canada’s Geothermal Sector Bets On Carbon Capture, Oil Ties to Attract Investment</a>&nbsp;&nbsp;<font color="#6f6f6f">The Energy Mix</font>

  • Flagship $20B-plus carbon capture project lowered goals in Ottawa-Alberta oilsands deal - Canada's National ObserverCanada's National Observer

    <a href="https://news.google.com/rss/articles/CBMizAFBVV95cUxNZGotREVKTk5EWG93TFRCVkNGREpZOFBOQ2tidzF0LUlXcW9Yei13NEtiSnJFenNITUQ2c1FKM240VHhwTnd0QXBwZm5IZUFPQ1ZXbGNJWHVvOEdmOFN1N1Ayc25WMVkxSVI2RFFib0dLSXpEaGQxVTFqSnM1YUx1SEdkVmc5MDEtSUtZM1RRQTdLamRzUm9wcUkxZWNfZkZubW1OcXV5YWtCcWI1bm1WSzFDMU5HVW1GVVRLb25RNW9zbTJOaGNXejBrLVQ?oc=5" target="_blank">Flagship $20B-plus carbon capture project lowered goals in Ottawa-Alberta oilsands deal</a>&nbsp;&nbsp;<font color="#6f6f6f">Canada's National Observer</font>

  • Opinion: It's time to move on from the Pathways carbon capture project - Edmonton JournalEdmonton Journal

    <a href="https://news.google.com/rss/articles/CBMitgFBVV95cUxQMUN4SXdLbjRHQXdRZjVzdEdIVGpjM1ZrbTV0NVBtZUN4ZTMyV25IdEtlMmhmU29Yb0lBU2VHUHNpNE45dFh5bEFidXlldFdkaHhTTWRrQkxRZzhGbjZNYmM0V2ZLbURKaDltLUdBTzdSS1pyNkhfaFdIWEU0UWZFSnJKb0Jvd1JSYjlJcEEzb0w0WUNGcTZZaUI0ZEthbGtOczRPZXZWbzJZZzU3REIyaFI0YmJpdw?oc=5" target="_blank">Opinion: It's time to move on from the Pathways carbon capture project</a>&nbsp;&nbsp;<font color="#6f6f6f">Edmonton Journal</font>

  • Big Oil Wants to Turn Our Oceans Into Its Dumping Grounds - Food & Water WatchFood & Water Watch

    <a href="https://news.google.com/rss/articles/CBMipgFBVV95cUxOYnRSZG1xQVFrbUwtcS1SbTJfLTc0bjVQU29Da3Z3eV95cWRJMFhjMGwxTGpEZDRTRE1WY2JzZjIwa1pQWWdMTUNsai0teTFkRG1iMUxySjB1amo0U2dJdmVQdDE5Qmc2MVpJSDQtUUY3RFo1Zk4ta2hEWl9zUFhsTFFiZVRaU0N4ZFVUd1VTMGpSSjNvdmFlT0VUZHg1WHVxYVUtS0NB?oc=5" target="_blank">Big Oil Wants to Turn Our Oceans Into Its Dumping Grounds</a>&nbsp;&nbsp;<font color="#6f6f6f">Food & Water Watch</font>

  • World's largest carbon capture complex gets go-ahead in Ottawa's oilsands 'grand bargain' - Canada's National ObserverCanada's National Observer

    <a href="https://news.google.com/rss/articles/CBMiywFBVV95cUxOcUpEX2pfdzZ4bEwwNDk2MnBCSGdNcWVTMmxlcUVPMXVrXzVzbWJpS29OQ3ZoOXZDRVcxUnlmMVpTaGY1NW5TZjVrczMxS3BsTWwzdGVGekE2emZtMEdyRlZxY1I5b0otd1dIUkxVTXpGcDRQbVpTeXFGYk15MnJQRTgtVWxwUFU5ZHpsczZPLUp5ejlzNF9JaTJvcTNhOFBnblNZdTRYWFZveHZ3aWtscEtfa0t0bUNfUC1jZ0RJa0xYUF84dHJzbi10Yw?oc=5" target="_blank">World's largest carbon capture complex gets go-ahead in Ottawa's oilsands 'grand bargain'</a>&nbsp;&nbsp;<font color="#6f6f6f">Canada's National Observer</font>

  • NOW WHAT? VARCOE COMMENTARY: Alberta, Ottawa Have Their Pipeline Deal, but Industry Will Still Have Say With Massive Carbon Capture Project - EnergyNowEnergyNow

    <a href="https://news.google.com/rss/articles/CBMi-AFBVV95cUxQdlFJMjFQN0MwbkFFQVozUVB1T2wzUFBNeHhONHlNU2xMVkUwS2p4UVBHZU1MSWFGUlVNcW84bnRDTm5kTlVkUWRab29lUjM5WmZ0ZTlWM004YzdtbVdRbW9pQ1ZETzI1dFdYNm9QRy1VVkI1YmViWGNRc2g4MDlmMkU5RlJGTjdscFpXcEtfSHB5ajNNMlMwQ0ZMRTByOHRRZlp4QW5sa2NMTEs2d2dxd2M3ZWFSaG9BOFhsanNKTkVrNmQybEc2VHhsMWlwWmk3OHRKMUlyMEdNbXlMWHhkNVRhTEJjWlZjRkxyby1SSWY3TEgwZG9heg?oc=5" target="_blank">NOW WHAT? VARCOE COMMENTARY: Alberta, Ottawa Have Their Pipeline Deal, but Industry Will Still Have Say With Massive Carbon Capture Project</a>&nbsp;&nbsp;<font color="#6f6f6f">EnergyNow</font>

  • Canada Extends Tax Credits For Enhanced Oil Recovery (EOR) Projects - Carbon HeraldCarbon Herald

    <a href="https://news.google.com/rss/articles/CBMilgFBVV95cUxObkpYejEyUkEzRWpfbUE1UjZLaUlha0hfYzVkN0NCZ0RnM0huRkZsM0p1R0lpenBncjVPLVhpazQ3ZUs1UDNWS1pRWkREX0tfcldjSjkwNHN4QkV3MUpkVHNrZXZTbmM1UDNSVDF2Szh1RWczUWlicTM1X3RNVEN6NXFnVTd3YjUyUTVldkRiWGg4SW5RVmc?oc=5" target="_blank">Canada Extends Tax Credits For Enhanced Oil Recovery (EOR) Projects</a>&nbsp;&nbsp;<font color="#6f6f6f">Carbon Herald</font>

  • Recycling Is to Textiles What Carbon Capture Is to Oil & Gas - Cleantech GroupCleantech Group

    <a href="https://news.google.com/rss/articles/CBMiiAFBVV95cUxOVjczbU9IM2JRSVRhaUFLR3ZQSURqaGtxbzN3eVZzblB2ajRta09zOUZZY3VnNzdiNWMtSGp6NEdSV3ZuaE53WnA3d1hOdkNlRkNvUVpsTUw3ck4wZk0zMEMta2F5X0FwbmJmX2wzNkNzR2pmM3NRcGt4a2hWbUJmQnhGbFpmcnE1?oc=5" target="_blank">Recycling Is to Textiles What Carbon Capture Is to Oil & Gas</a>&nbsp;&nbsp;<font color="#6f6f6f">Cleantech Group</font>

  • Guyana urges oil companies to invest in carbon capture technologies - Upstream OnlineUpstream Online

    <a href="https://news.google.com/rss/articles/CBMiwwFBVV95cUxQbWlENWxfaG1NN3FRYUctcTdhQy01Wm1faGhLT2lUbF9ZYjBIYVMyRXdhQkVTV2VFVUxwcmFmREZLa2k1UXpnR2gtZ2J6elI5YXg3ZFRJbGxFeVlZVU5sY3FvZllMSlhma3A3ay1id0N3T2JYS1VCTGxGa1NrRlBKZmZZQk9Bckx0bzUzR2RvaTBDb2lmY0ZQUFIxdDNTeVRoN2h1bG9SY0lTRlJRNURacFRkbFRfeWtkQjJhWVFzRkRUbms?oc=5" target="_blank">Guyana urges oil companies to invest in carbon capture technologies</a>&nbsp;&nbsp;<font color="#6f6f6f">Upstream Online</font>

  • BP to Sell Stakes in UK Carbon Capture Projects, Getting Back to Basics - Energy News BeatEnergy News Beat

    <a href="https://news.google.com/rss/articles/CBMitgFBVV95cUxOX0pZeFg1anNiczFvTldXWTFiUGdJZzd1QUlneFZfRm9sWENSeUZKVGVYODJFSGtwVVE1cVYzdDk2UVV1cGRRQTRfeXBGcG9OVWhERlBQcDNOanM2Z0J1ZnhibHJGcFBIVnFZOTh2S0RrRGV3UWpWaFh2QlRGa2czak90WEVtVWZQejdHNXhhNnBJVmxfYS00ZXpSY0NlVDdFR2o0Ny1yWW5Wby1XQjJfMWdadlYwdw?oc=5" target="_blank">BP to Sell Stakes in UK Carbon Capture Projects, Getting Back to Basics</a>&nbsp;&nbsp;<font color="#6f6f6f">Energy News Beat</font>

  • Mark Carney and Big Oil are distracting you with a carbon capture scam - The BreachThe Breach

    <a href="https://news.google.com/rss/articles/CBMimgFBVV95cUxPck14SWVtUlVXMzVKMmlQelR6Qk9NMkF2OENtcGtVcHlyVjdXRmtaTkFEQVZLQ28zbHpYam93V1JRZkRacEI4dWVZMEhSVzE2eHFSTG9DcngxdTdYZDVtODA5SmYycDFtZGJTUkNfN3JqVVhnb0VUazhSVTBfb2ZCNVdJSFM3Z3AybTJPN3BqSDB4TXNtaHFFVTVn?oc=5" target="_blank">Mark Carney and Big Oil are distracting you with a carbon capture scam</a>&nbsp;&nbsp;<font color="#6f6f6f">The Breach</font>

  • Feds stand firm as oil sands producers ramp up resistance to carbon policy - iPoliticsiPolitics

    <a href="https://news.google.com/rss/articles/CBMiiwFBVV95cUxOTnZKS0VWeDRLNHVEZEVrcGpudmR0YTkwejloYXdILUlhZEpDNnA4Mnh2RnFQeFRoYUYzdzFTTmUwV24tdDVVWWxPNmFrbGI3RWdPeFNrSmtTdHdPdmFPSlRJZW0tZmFWUlRBaTI1ZzZ2WlhqOU9WYm1Ra3RaVzRlTlIzOFdNVkk3TE1v?oc=5" target="_blank">Feds stand firm as oil sands producers ramp up resistance to carbon policy</a>&nbsp;&nbsp;<font color="#6f6f6f">iPolitics</font>

  • Group opposed to carbon capture pipeline makes stop in Mallaig - LakelandToday.caLakelandToday.ca

    <a href="https://news.google.com/rss/articles/CBMiswFBVV95cUxQSlYtQi0tR3pWU2FadmRZTlV3UExLQ1V4Wnl0Rm84VjJKbHpDa3c0RGIydTBLNTd5cl9lZnRRN1RGZ09wSXRTSjBDbjVORlZsbHljR1dSdWp2SEZHTU9FcC1DYkh6eklQNnB1SWV6UGpGeXB4S2FkRXpwcVcySXZQb0loTWJRTUVQNGdxZGlsTmxfYjVLX1RtTkZDMHNpZ2JEbmJYVTdJSi1QeXhsSTl4NzdvTQ?oc=5" target="_blank">Group opposed to carbon capture pipeline makes stop in Mallaig</a>&nbsp;&nbsp;<font color="#6f6f6f">LakelandToday.ca</font>

  • Carbon capture and storage: Powering the future of Louisiana’s industrial economy | Sponsored: ExxonMobil - The AdvocateThe Advocate

    <a href="https://news.google.com/rss/articles/CBMimwJBVV95cUxQZDhvWmh0YW5Mcl9SSW5IbnJXcHVhZWd0ZXFzUmtHWmNYTjE1VVlxbFJ2YlhOZTF3bXA5djM3Z0pnX0ZmanBsdGZGOV9yZFVEZ1ZaVzBhT2YzMEJRaHBWdGhJV3Zwd1Z5LWh3WWZXNjd6NzVyS1ZEcWtjTzM0V1M3bmI3OWdpd0l6cVc0SEp2UUlKUHI2S2I2WnJRUml2dmhsb215dDVycW9mSjF4TkR3SlhMdFVNdmdfMjQ4UmxzMXM1MWJaYXU1TXJVZjJ6bGRwX2FNOVJzSVJkbjFyc0c4dWgzMzZqZlNBQmZabDlqSnBrWFdpWTI1NGkydVRoT2ZRYU1yXzhiY3VOa1hrNmFsdkJMN05fdFdpN21z?oc=5" target="_blank">Carbon capture and storage: Powering the future of Louisiana’s industrial economy | Sponsored: ExxonMobil</a>&nbsp;&nbsp;<font color="#6f6f6f">The Advocate</font>

  • Excluded no more: Carbon capture incentives in Alberta-Canada energy accord could spur enhanced oil recovery - Canadian Energy CentreCanadian Energy Centre

    <a href="https://news.google.com/rss/articles/CBMi3AFBVV95cUxPdzhuZHcxT180OU1aMmp0YlhhYmR3SzRaQ25ZMHlQWTljWkxyb2psMlEyNEFRN2ZVMGhlNGFUdWRnZlg3bGVhS20wWlZ6SWRITDY3Z1B3bEJGaVJwTUNXY1E0RV9Wejk4bWxLQWhPT0FuZU13MU1nT3hsdVlGcHZmMHNRQzFNZW1pTkpfSUNtdk1sajdzOWlqSWtCc3RrSGJ1dERzcFlOVzZMVlN3NkNOU3FJTjlfNzB0cVBwRkptQ3lSZkd4UTE5Z254ZmpnTmgxOTg2bzNZeXh1TmFK?oc=5" target="_blank">Excluded no more: Carbon capture incentives in Alberta-Canada energy accord could spur enhanced oil recovery</a>&nbsp;&nbsp;<font color="#6f6f6f">Canadian Energy Centre</font>

  • Canada, Alberta close in on carbon price agreement, sources say - ReutersReuters

    <a href="https://news.google.com/rss/articles/CBMivgFBVV95cUxNcVA5TjVhYlVabXBfdkZkdlVwRVFJRG52YzJJcVdlQkFYaWhWUGpMUldaSE5aTV9WVWJzVDdndWhuSmNrdVkwZnFvaEQxQl9LNXdjLTM0VkJjb0FXUXBMWXU5Nl9HOVVNTzFPMUc3NU5FQS1WenliTnJrU21iQWJlR3FadXZVTjB4UFpwM1h4bXE1alR5d3IxN2l6MWpGeng1WWUzQURTeHdPbVg3OFM5a3BsTEItcTE1U0E0Sm9B?oc=5" target="_blank">Canada, Alberta close in on carbon price agreement, sources say</a>&nbsp;&nbsp;<font color="#6f6f6f">Reuters</font>

  • Feds formalize enhanced oil recovery tax credit flip-flop in spring economic update - BNN BloombergBNN Bloomberg

    <a href="https://news.google.com/rss/articles/CBMi0AFBVV95cUxONTZFQ1hOX1JqNks3by1LVUtfQ2hqUzFFNm05SVdrSUNLN3VYNy1jTWx6ekxfdHN5SnRtX0xHU3RsdVg1U0hMZHBzMHdfamU2RWZXbXpmVjZUZUlDbGZVWlVlVFI3NXRPeWJpXzBsT3UtU1BwbllveTVEa0tjTHViSEtpTzVGMkw5cmhiaXlnMk5YOHNWVlNLb0ZmLUhhcnBlcTRmVjF3R0EwSUVUR1VZRnJBSzVsUUR5ZDBnM3JzVVFaQ21INTZERG1DdG1HcFYx?oc=5" target="_blank">Feds formalize enhanced oil recovery tax credit flip-flop in spring economic update</a>&nbsp;&nbsp;<font color="#6f6f6f">BNN Bloomberg</font>

  • Carbon Capture and its Role in Alberta’s Climate Future - University of CalgaryUniversity of Calgary

    <a href="https://news.google.com/rss/articles/CBMixAFBVV95cUxOc3YzQVJybEpXczhkd0RIaGt3NC1pRUl0UEhwQ01oQ2JsZktJVTdiVDdvQjNSSV9FeTl6Yk5kZTdUeEZ4WVBVUjdkSWJNUlB0cjM5QmVWd2xRSHkwaWkyYjZCYjFPMGZFMGhrUHZiNjd3SVJzb0pVOWdGa2VmMmJPR25FbmM1MVUwN3pZbktXZXdmS2ZUTnBuejZXR2tKcl9CQWUwOGNKUGdJQ051WWZZM2YzQkhmcU9IM1lGZ2FSbEl2UXpp?oc=5" target="_blank">Carbon Capture and its Role in Alberta’s Climate Future</a>&nbsp;&nbsp;<font color="#6f6f6f">University of Calgary</font>

  • Cost‑effective offshore carbon capture, utilization and storage deployment and transport network optimization in southern China | Communications Earth & Environment - NatureNature

    <a href="https://news.google.com/rss/articles/CBMiX0FVX3lxTFB0VmEwQzZCMEdsZVJkSFNUQm81V3dlWjFLdFdIWEpXZUl6X2F6NnpBLUsyX2NvSmE4VENRQWt0NTNLYi1WY3o3eXFsWkppZ2oyZmpfREU4dmotX1JQOXhV?oc=5" target="_blank">Cost‑effective offshore carbon capture, utilization and storage deployment and transport network optimization in southern China | Communications Earth & Environment</a>&nbsp;&nbsp;<font color="#6f6f6f">Nature</font>

  • Summit sold its Midwest pipeline as a carbon solution. Now, it’ll be used for fossil fuels. - South Dakota SearchlightSouth Dakota Searchlight

    <a href="https://news.google.com/rss/articles/CBMizwFBVV95cUxQM3h4X3RLRk1JdFN1SFRVYVhKMURlbWRHR0tJS1FCYy1TdjREd29sdXlacE9NSmU0NEJIY1hhdm1QWDhpcC15VTNxal92MUFiNW9ld3ZHU2Q2Q3ljYlZJaFdXUGIyYmlQNkF1OTdMYkUxc0RPUzN1QVZFLXFJMUhZRlgwdHExdFppdnhvdUxwclRZdUYyUTJYWjhmMW9SS3Qybk85SGQ4ei1HS3Z4LUFRVU5mejNZYnR3bTExSHZ2b1VFNy0zSjNjaW1CcUN3Q0E?oc=5" target="_blank">Summit sold its Midwest pipeline as a carbon solution. Now, it’ll be used for fossil fuels.</a>&nbsp;&nbsp;<font color="#6f6f6f">South Dakota Searchlight</font>

  • Rural residents fuming as lawmakers allow land takeovers for carbon capture - WAFBWAFB

    <a href="https://news.google.com/rss/articles/CBMiowFBVV95cUxNcDhvX1kzWTJDeHVDLS1YNWI2dGFxME9KbmRsb0JkZ3FyVVVpME9pTUtHc3NFa0dVOE9ybXZTNXBuOGxqSjVmR1FQOTBxMTVXTlZLOE9uV3F2Q2hFS0h4YTRMWU9YOEVSTjk5YlN6R3d2dVA5eDNxbkpjRmkxZ1FLMlcxdFB5SDF5akJWcGE4WFNxTllES1ZDOHVjZGFnUTZuV2g00gG3AUFVX3lxTFBvOS1ScmRwZUtGQXZSUGtjdS1CMVl0YzZnTVpXSFEyRWVLOG84TU9zcE5YaV84TENmeV9jNUh5b3NFWjRaVFkwRktpdlV4SWRGc0xlN05OZWNVZE5pa0VWRV82WFUyR0RqdHBobzZ1Vjlaa1lJZUNwanJ3Z2d1emJ3UWJ3bjJIYmxaekhwSU1oMVpXNU11VFJXM19uNG1jS2xKQnVoWHNFTVRkclozVV9BNjFheTJJWQ?oc=5" target="_blank">Rural residents fuming as lawmakers allow land takeovers for carbon capture</a>&nbsp;&nbsp;<font color="#6f6f6f">WAFB</font>

  • What is carbon capture and storage? - CastanetCastanet

    <a href="https://news.google.com/rss/articles/CBMikAFBVV95cUxNNlFfaVptS29ld1FQZFpSaU5ZWjVIeTZZcE51VkVRVUsxc3Q3WFpma1BiZXVzaVN5OWl3YkRlSW81Y0RwZ3FwOEczX0dRZUlFN3FwMnZQcURxM2E2TzlVOVNOZUZfTjBBM2lMVlhuYndadTg1XzQxd29MZTlSeWpsQ2Fmc3ROUnhyb0Fza0R6aG8?oc=5" target="_blank">What is carbon capture and storage?</a>&nbsp;&nbsp;<font color="#6f6f6f">Castanet</font>

  • Oil-to-CO2 storage wells begin transformation journey offshore Denmark - Offshore EnergyOffshore Energy

    <a href="https://news.google.com/rss/articles/CBMipgFBVV95cUxPYUpKbHN4aFRaMGR5ZHZFS1BxUVZabXJhUHhkbHAyMjFVNy12M2xqTDVDSUh5X1lfTW9YU0puNmstalRycHdiM1kxelpMbGF1eWNiMW10SHh5U3JMOXRLUlIxQVMtUTRlUjZuZlNvQXc4M0JNWkp6b3Z0NnJzZldkNXV3WnRsYk9VVFYzZlBHR2h3UlpjMi1vWTNDcDFnX0MxbUxmR2JR?oc=5" target="_blank">Oil-to-CO2 storage wells begin transformation journey offshore Denmark</a>&nbsp;&nbsp;<font color="#6f6f6f">Offshore Energy</font>

  • Petroleum producers demand support for carbon capture technology - euractiv.comeuractiv.com

    <a href="https://news.google.com/rss/articles/CBMimwFBVV95cUxOeEtJVGV3Z2l6aUxTYU1PYVNjTU1ISEM1MnpTbU54cFVkakVBMkdkY3AxYnJyeWdWYXZueU0zdEdUQ0ZTTnl1b1JoVW0wdy1CdWVDMnlCYVpSQmVlb1ZCaS1PSHdSQl9ORkJtQ3JBbzd6OXpaT251Zl9IQlpYcTUwY2FFeG5vU0R1ZjlQUWFqS2tXanA5YzQyaXRTMA?oc=5" target="_blank">Petroleum producers demand support for carbon capture technology</a>&nbsp;&nbsp;<font color="#6f6f6f">euractiv.com</font>

  • Coalition of First Nations, rural landowners demands review of proposed Pathways carbon capture project - CBCCBC

    <a href="https://news.google.com/rss/articles/CBMiowFBVV95cUxPOHlMblRwelF1aFNqZHRodGhyWlZzUGZmVi1EbUNVc2FIbi1TTTNPSjA2NmxCakNBejY0SDM3OXBRai02UHVLZFlxVHdYa3hFSG1YbmZUTEJIMnhXT1Y5S3R3eWxNVDE1ekM2UjNLUi1DR1ZfR1JjbHZmUTVNdHdmZ1g0dy1hSURFcy1UZmF0cjhkZXM2LXE1WXhaQm9faUVZU05F?oc=5" target="_blank">Coalition of First Nations, rural landowners demands review of proposed Pathways carbon capture project</a>&nbsp;&nbsp;<font color="#6f6f6f">CBC</font>

  • Out of sight, out of mind: Pushing carbon storage offshore - Institute for Energy Economics and Financial Analysis (IEEFA)Institute for Energy Economics and Financial Analysis (IEEFA)

    <a href="https://news.google.com/rss/articles/CBMigwFBVV95cUxOM3FON0Z6eXJnd0JjTENlTXNFUkZuN2FVa1o2Rks4RUJWMWF0WWRwcVZKX3RMVGt1d2NMTDVXVGlGZGR1WWNhN3IyUGlid1RsMF9tVlYtcGhTaW0wQXBkaFpoTkxVR2pMQk15RHBsajdPemVZZ01WUXVWMnZtNy14enRQRQ?oc=5" target="_blank">Out of sight, out of mind: Pushing carbon storage offshore</a>&nbsp;&nbsp;<font color="#6f6f6f">Institute for Energy Economics and Financial Analysis (IEEFA)</font>

  • Out of sight, out of mind: Pushing CO2 storage offshore - Institute for Energy Economics and Financial Analysis (IEEFA)Institute for Energy Economics and Financial Analysis (IEEFA)

    <a href="https://news.google.com/rss/articles/CBMigAFBVV95cUxNNm1XakMzWDlxb1M1OFM3VEdOSDZkSmJ3VkpfQ3Y1ZWFHX3JtNUpnaF9qdWR6Ym5saFY0TjNKWEg5d3Y0Wklsd1MzeGd2Z3A4d2FLbURXTWpZOHhtd1o3OEw5MHRaVFV0RmxhYk5mV0p1YzNMTlAtd240czlHYWVrRA?oc=5" target="_blank">Out of sight, out of mind: Pushing CO2 storage offshore</a>&nbsp;&nbsp;<font color="#6f6f6f">Institute for Energy Economics and Financial Analysis (IEEFA)</font>

  • EnEarth gets permit for carbon storage at offshore oil field in Greece - Balkan Green Energy NewsBalkan Green Energy News

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  • Middle East Conflict Threatens to Derail the Region's Carbon Capture Boom - Crude Oil Prices Today | OilPrice.comCrude Oil Prices Today | OilPrice.com

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  • 45Q Tax Credit Faces Growing Backlash Over Oil-Linked Carbon Capture - Carbon HeraldCarbon Herald

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  • Carbon capture is a dangerous distraction, not a climate solution - Louisiana IlluminatorLouisiana Illuminator

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  • Carney Government Knew Carbon Capture Was ‘Very Limited,’ Docs Show - The Energy MixThe Energy Mix

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  • Carbon capture is a dangerous distraction, not a climate solution - thelensnola.orgthelensnola.org

    <a href="https://news.google.com/rss/articles/CBMiogFBVV95cUxQd25NdENoUEVHS2RXOXRZUmxKUlJSX3dPYjl4MGtIMllHM3YzRDZ3WGxZS3VObi02aXliU2hMOXpvelFpeEFzTGNZY1hVNU05SjlwR2ZaaWV1Qkp0azJnZXFDRU1sVnBUNy1CLWR4dGY4SE1KbHkzdk90WHowN1JtRUZlY0EzVmpZeWNmSkZDSTNsMTJveE5rcnZtWGQxcXJPa0E?oc=5" target="_blank">Carbon capture is a dangerous distraction, not a climate solution</a>&nbsp;&nbsp;<font color="#6f6f6f">thelensnola.org</font>

  • India's Carbon Capture Moment Has Arrived - Crude Oil Prices Today | OilPrice.comCrude Oil Prices Today | OilPrice.com

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  • Group behind Pathways carbon-capture project changes name to Oil Sands Alliance - The Globe and MailThe Globe and Mail

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  • France Bets on Carbon Capture as North Sea Rivals Surge Ahead - Crude Oil Prices Today | OilPrice.comCrude Oil Prices Today | OilPrice.com

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  • Canada’s Carbon Plan Will Help Oil Patch in Future, Energy Minister Says - EnergyNowEnergyNow

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  • Measure to repeal Wyoming coal carbon capture mandate advances - Oil City NewsOil City News

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  • Louisiana Leads in Proposed Carbon Capture Projects - Biz New OrleansBiz New Orleans

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  • Oil firm Tourmaline partners with CarbonQuest on carbon capture project - World Bio Market InsightsWorld Bio Market Insights

    <a href="https://news.google.com/rss/articles/CBMiqwFBVV95cUxQbkNQRlpqZXlQZF9lSlBCS0kzZklnZHVBYmtnbmljbVFGUVI5TGduZEV6d215TzIwZ0pXb1pkZ0NqU25wamlFVlA5MHYzbEYxcjdyTmVGQzF2SDRZeGlqX05XaHppa0VBdlVucVVjS1BwOUJhay0wS2UxNGlmRTMydW5rMzRhaklsQlZibFJXWVRZdjAzTDBsS2JqT2Nzc0stdExKNXQzSzFDRWc?oc=5" target="_blank">Oil firm Tourmaline partners with CarbonQuest on carbon capture project</a>&nbsp;&nbsp;<font color="#6f6f6f">World Bio Market Insights</font>

  • Green gambit sees China turn old oil pipeline into new carbon highway - South China Morning PostSouth China Morning Post

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  • Louisiana is ground zero for an emerging horror: geological landfills - prismreports.orgprismreports.org

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  • Why California Resources is Betting on Carbon Capture, Decarbonized Power - Hart EnergyHart Energy

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  • There’s a simple way to fix the economics of carbon capture - Corporate KnightsCorporate Knights

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  • Denmark Just Stress-Tested Carbon Capture Policy - Crude Oil Prices Today | OilPrice.comCrude Oil Prices Today | OilPrice.com

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  • Hydrothermal transformation of kerogen and oil in Low-permeability rocks of the domanic deposits in carbon dioxide media - NatureNature

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  • Carbon capture, ‘rare earth’ from coal among projects poised to get $11.7M in state grants - Oil City NewsOil City News

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  • Assessing Occidental Petroleum (OXY) Valuation After Recent Share Price Momentum And Carbon Capture Developments - Yahoo FinanceYahoo Finance

    <a href="https://news.google.com/rss/articles/CBMilAFBVV95cUxONjJzY051UmJwSTJLVHl4VVByVWVGMWRVWjM1c05HQjh1aGRrYzFRS3g0U3d1TTUyMDNJbnFHQlRMTGZ1YkE5UnViNWpyN3Q4Qm93X1NEdlgzd1pmSmd6WjEwYUJJamZxSzdpQmxYTUVOZG92VW96RmQtY0NFblJjWHdtaGEzNU1ydWxET2V0bE1PYVlj?oc=5" target="_blank">Assessing Occidental Petroleum (OXY) Valuation After Recent Share Price Momentum And Carbon Capture Developments</a>&nbsp;&nbsp;<font color="#6f6f6f">Yahoo Finance</font>

  • Visit the North Sea oilfield where CO2 is pumped under the seabed - BBCBBC

    <a href="https://news.google.com/rss/articles/CBMiWkFVX3lxTE84dkdHU09uMzFJSnRrOFl5SmhNX3I1bzJySWphdmhzMlQwdmpxNnNmdFBjZXA3OG10Tk9DbmZvWFlNNXJub3RDZGM1OFVuS1EwQWJsZnFleXlXZw?oc=5" target="_blank">Visit the North Sea oilfield where CO2 is pumped under the seabed</a>&nbsp;&nbsp;<font color="#6f6f6f">BBC</font>

  • ExxonMobil Doubles Down on Carbon Capture and Storage - Crude Oil Prices Today | OilPrice.comCrude Oil Prices Today | OilPrice.com

    <a href="https://news.google.com/rss/articles/CBMilwFBVV95cUxPVHBvREUySFFaNElUOE14dVk1czdOM1ZrQUpUNURWeFhubHhfeENtcHNKTFhveGN5X0dLOHFVeXhNSldSZFhZdXQ3bHo4R29Oc0pPQzJ0RFQ3cS1FMWlvblBBSU1NRW8tNXVEbkpvZjRYbHlJU29udU5wUlZJVHlJbWdXMjlkZEZjMlZjaW5TdHgteHluNVdj0gGcAUFVX3lxTE9QUFVlOUlTREdZT1JYWHFxbDQ4ZVVKaEwzNjJmVTljdk5JbUYybC1WTFpUYUgwdHE3YnJxbV9zYVlzNHV2NkIxMzBlMlJOQk5ndm9DWGtHcFV3OXg2NUNwZzZ4OW13bTB2MmE1dW04UENzVEE5T0huTnhDTmh3Mm9wRC1aN0luNjhzVkpXRy1hM0dhUDdoVFFXcnY5cQ?oc=5" target="_blank">ExxonMobil Doubles Down on Carbon Capture and Storage</a>&nbsp;&nbsp;<font color="#6f6f6f">Crude Oil Prices Today | OilPrice.com</font>

  • Google plans to power a new data center with fossil fuels, yet release almost no emissions – here’s how its carbon capture tech works - The Invading SeaThe Invading Sea

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  • Canada’s risky gamble on carbon capture and storage - Corporate KnightsCorporate Knights

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  • A closer look at CCS: Problems and potential - Zero Carbon AnalyticsZero Carbon Analytics

    <a href="https://news.google.com/rss/articles/CBMinAFBVV95cUxPTkZYeWdkUTQtRHpxaE9McE1wdVIySmM5TXdHN3c5YXVmWVpPTXQ5TFZwYk5BMjhzanhROFFjTk5oNkVlZDB2eDVJT3ZkVE9HY0gxLTBOeUo4bGlhZnJKanVIeVRsbGxyU202cG13TTNaZm1qRHZUeFRpZlg0Mkt3OVduQ1RiaDJGSUFtcXQyMkhNbkxNbkRENzBBRm8?oc=5" target="_blank">A closer look at CCS: Problems and potential</a>&nbsp;&nbsp;<font color="#6f6f6f">Zero Carbon Analytics</font>

  • A trillion-dollar climate industry emerging in Houston’s backyard meets new resistance - Houston ChronicleHouston Chronicle

    <a href="https://news.google.com/rss/articles/CBMitwFBVV95cUxOeDhaVmdoTGQ3akpySlo1UHRJN1NZV2hZN3lCXzVVZkRkTnFidnI1UTc0Zk5xb0ptU1kzTXBRdlV1ckZjRW96NDlxYXFfZ0Q1Sld3WDBoTUZDMkpjTm9TMXI3RHNRYTEzTDY0bm40YzlWenloN2YzLWs5eW0wUmlpWVRBYV9uVlV1T1pyOWRFbElwemw5UUkzRXVWWUhLYjNUWUFNSFlhb0FralF1S2lsWVpCRkZIaFE?oc=5" target="_blank">A trillion-dollar climate industry emerging in Houston’s backyard meets new resistance</a>&nbsp;&nbsp;<font color="#6f6f6f">Houston Chronicle</font>

  • Big Polluters have captured €17 billion in public subsidies for failed carbon capture technology – because fossil fuel lobbyists are setting the agenda - Oil Change InternationalOil Change International

    <a href="https://news.google.com/rss/articles/CBMiiAJBVV95cUxNZDVzZ0djSkp1QlhDNEZRRTBJVTRsNWRSX1dHYkFsd1F5QlNhN3NlNEFQREtvLVFBdmRfWXlYZU9PNU01Y25aNEg1OTlHZm40RHk2THFSU3VvaWY0QVNZalM5dDVwbktYeTdKOGpjRzFSOGlIYXB2bVVlR19XLThWZ0VZZkh6bUEwRklhSFhFNm5RbDFlYTBmT1p0Z1RHV0RMSF9ERHlWZTJWcmVNbEJyUUpYTWRSMFYyckZ3SHZUOXBaV0tHSFJ3OVFMU2hSeU41YWt2LXpiaVk5OWlQV2xNZTNocS1VRGtTTXBYbGpESk9GSDMxelZZd0VUT3ctRXIxS1FUbUV1VHE?oc=5" target="_blank">Big Polluters have captured €17 billion in public subsidies for failed carbon capture technology – because fossil fuel lobbyists are setting the agenda</a>&nbsp;&nbsp;<font color="#6f6f6f">Oil Change International</font>

  • Mapping the money behind carbon capture: Public subsidies and industry ties - Oil Change InternationalOil Change International

    <a href="https://news.google.com/rss/articles/CBMirwFBVV95cUxQYXEteDRUS1JLUHNxd2psN0xhOWhKamlFS1JuNlZ4V3pCNmNoUmZDSncydllKd2NRWDN0WXNISzJ5NkZ6VnFodjZlWHlxdTZfeV9NalBneWMxRlNsN0pZMnBFTVN1ZnhWTHlXMkp0QnJ2WW5meF94MGF3aEFnNFdBem9HS1BxejgyeWhvQVFmYTFPM2dhNG91NS13Y2FoY1BxUi1sSndFOTlhcGpuZm1N?oc=5" target="_blank">Mapping the money behind carbon capture: Public subsidies and industry ties</a>&nbsp;&nbsp;<font color="#6f6f6f">Oil Change International</font>

  • Google plans to power a new data center with fossil fuels, yet release almost no emissions – here’s how its carbon capture tech works - The ConversationThe Conversation

    <a href="https://news.google.com/rss/articles/CBMi9wFBVV95cUxNWmZ2bXlJd2ZHcE9NTlo5UUZQZlJLUmtsdmlQQkpEN1hJMDZNam5ncmJqSlV2akNrLTl6eVVkS0RFcmU5NXh0MUdGaUp3aDhpLS1GNVFqUlV6YXVDbUw1a0ZzWDJoVVVzUXJUZ2pKZ0dCX1ZHd2tHVVptbkpmbUduMkY2NU5BdUZnSTVQQ0M2azBYb2E3VUZDakFXbGVHTGtlQzk1cC12ZGVuQXVyQzY4c3pJWmtQcjR4Y3JFb1k3NTBTT0tsZEdZa0Rxeno5MnZic2szNjdmc2Ntd0JPWVl6TFJZR0o3T3NBSklVS05BZHc5WXZlRmtv?oc=5" target="_blank">Google plans to power a new data center with fossil fuels, yet release almost no emissions – here’s how its carbon capture tech works</a>&nbsp;&nbsp;<font color="#6f6f6f">The Conversation</font>

  • Canada, Alberta Ink Deal to Unlock Oil Pipeline, Build Carbon Capture - Bloomberg.comBloomberg.com

    <a href="https://news.google.com/rss/articles/CBMiugFBVV95cUxOTG4xOV9zRFBpZ3RTTDhiM3hVSWlTblJwQU9PWUxOSTdMSWg4ajZLekRLS19KM19YYWhUUTVWdmpRMmxfenFfd2xWZjA0SnlXcHdRS2NvempTZ1ZpVk5KNWdaeWRFX2ZCUGRMTXZ1UnpjNFFCaG0yT0t2aWhoSXBiMkhhaFNHQVBZUk41ektVVUd6ZFExbHA1SUw4eDhkQ1QzYlpYaUtwWHYzdVl6Ri1TNzhhM0oxb2NZVWc?oc=5" target="_blank">Canada, Alberta Ink Deal to Unlock Oil Pipeline, Build Carbon Capture</a>&nbsp;&nbsp;<font color="#6f6f6f">Bloomberg.com</font>

  • Ambitious plan to store CO2 beneath the North Sea set to start operations - AP NewsAP News

    <a href="https://news.google.com/rss/articles/CBMirAFBVV95cUxQU29RN01yM1VSRTNlWVF5TW1xdDJXLWpZbzcxaTZVLVU2YldfbTdTTGprUFMwU2hwLWNBMHMxWnZiRjBJM1NjNGNNeU1lWWRIZjV4dUowOU9qdlM5bkJSOUhOVm5DTEU4TVpGMktlbjF3NFM1am5fd2NsUm1WZ0lCS3BMdWhvME5VYVpxSEUwOThCZU5scDNZeFZPWVBzaG9CZEQxMjZkUTdScUQx?oc=5" target="_blank">Ambitious plan to store CO2 beneath the North Sea set to start operations</a>&nbsp;&nbsp;<font color="#6f6f6f">AP News</font>

  • Texas oil and gas regulators win new power to approve projects that shoot carbon underground - Houston Public MediaHouston Public Media

    <a href="https://news.google.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?oc=5" target="_blank">Texas oil and gas regulators win new power to approve projects that shoot carbon underground</a>&nbsp;&nbsp;<font color="#6f6f6f">Houston Public Media</font>

  • Texas can now approve certain carbon capture projects - The Texas TribuneThe Texas Tribune

    <a href="https://news.google.com/rss/articles/CBMipAFBVV95cUxPbDdyeFZvY1dsT0pkYjBPdThfRGRlOUlPZFVFcGxwMXZnMVJvVHR1T2Y3V3JCaGl1Y3g3TDNfc045R0l1aXM2TkozVlgwcFRlbUROZWROOUtrRjlSOUI4MUR1bjNIYk1vb0pZdjNIY3E0ZUlHeS1nZjllYlBqZDc1eF9IQ2tRRWNhdGw4S1YxcmNGZno2NmVXSFZ1Y3ZremJaUUFVVg?oc=5" target="_blank">Texas can now approve certain carbon capture projects</a>&nbsp;&nbsp;<font color="#6f6f6f">The Texas Tribune</font>

  • Why America Is Winning the Carbon Capture Race - Crude Oil Prices Today | OilPrice.comCrude Oil Prices Today | OilPrice.com

    <a href="https://news.google.com/rss/articles/CBMimgFBVV95cUxNU3ZWbUgtUlBkRzJBSjdaTWp2dnAySXZyVURCT2J0YWNVUzF6U2pBTWlYWW9Jc1o3TndiS3dkVjZzaHg4aFRGbVdQNjEtd2xuRlVwWmd2MElzQTZXYlhnS096TnlHeWlnYXFwT3R3Y3pWZWNaWmVod09vU2x3YmFiV09WY2dHcktiX0RuTjJjNThCTVpYX3R1azNB0gGfAUFVX3lxTE5fZ3hmUlNrcDFHZE1WRkZYZ1hEV0ppVGFwWHE5by03bHJjZC1ZMWYxci1fMHZnZGxKXzZMWjZ0N1VvMndEVThiNzFJS3E1LVkyRWIza3plZlhJYVNwbTVDV1dxZzZZTzVLa1hwNWxsRVQ1TjVzeVBDam8tb2tQckVzd1dMUThTb252eUQ0STdUbGxHSjVEbXN4eDF1QmJzYw?oc=5" target="_blank">Why America Is Winning the Carbon Capture Race</a>&nbsp;&nbsp;<font color="#6f6f6f">Crude Oil Prices Today | OilPrice.com</font>

  • 4 Ways the Carbon Capture Tax Credit Incentivizes More Pollution - Food & Water WatchFood & Water Watch

    <a href="https://news.google.com/rss/articles/CBMipgFBVV95cUxNQk5VMFR4bWNKZkxSTHhTUXY0MExOQ1dwbGpoZ1Z4djhiUVV0R1JTQzdFVkloN3FQYTE1RjJFbkpoaVdiUGNkNlpGc1o2RTJ3Snl0aU54czdSN0ZaZkVLRHJNWUdhdHlObWVWLTN6QllqdE5SM25BdHhpQWVFMWJYSGhwQlV6ZjJWd0lKb2ZNX3FRZko5UlFJejIzdmF2ajlvc3NyeHdR?oc=5" target="_blank">4 Ways the Carbon Capture Tax Credit Incentivizes More Pollution</a>&nbsp;&nbsp;<font color="#6f6f6f">Food & Water Watch</font>

  • Oil company breaks ground on California’s first carbon capture project - E&E News by POLITICOE&E News by POLITICO

    <a href="https://news.google.com/rss/articles/CBMipAFBVV95cUxNTzNGY1hKY3dPM3hzZlpTZTkzNTNSWXVsTDE5bnF6YlN6cXFlbWhXWjZYWnBXbTg4OWZaX3RjZzBPYnQtX19kRGpjTjFFemNDZG1ZbGpHUFNVWGJ2cmJSMDQ3ODZPeHV0TUpPVDhFM0FFWEVtWmhMRHJYb1VTc0ZzX3hxbDVSWTB0anRXRVZRNTZqOFB2cGxsLU1ZSy16Uk4xUHpwTA?oc=5" target="_blank">Oil company breaks ground on California’s first carbon capture project</a>&nbsp;&nbsp;<font color="#6f6f6f">E&E News by POLITICO</font>

  • Capturing the $100 Billion Carbon Management Opportunity in Texas - RMIRMI

    <a href="https://news.google.com/rss/articles/CBMilgFBVV95cUxQb2dpejJyZTRITl9rOWpzSFFndktlcVdoYzZlZFdCWHo0Q2JHRllrbGh1SXdZYmdzelptTFZKUWZJZWlFUzZoVXRsS0VJRTJNS2pWenJoNWNpSDlhTVZCMVZzSncyOGw4NTRtWXNMbElsSGFJMFpHN2NQV0RjTXkzcVdHMUt0OVI0TEpOM3hjcEpXSmlrOGc?oc=5" target="_blank">Capturing the $100 Billion Carbon Management Opportunity in Texas</a>&nbsp;&nbsp;<font color="#6f6f6f">RMI</font>

  • Trump’s cuts hurt climate tech favored by Big Tech and Big Oil - SemaforSemafor

    <a href="https://news.google.com/rss/articles/CBMipwFBVV95cUxOZlctTGdqbzFnbkRaY2ZfaHgtUWxRWFh6T0JqNnh3MDRYanphSnVpUFl0MEVOem1HTGMxUm80SlVqTWxkNV8zQ1BhbVRySUx1QW45Vll3Mnl1UkNwa0d5dkkzUzZldlJ1VVQ2YkZyZTgxREU3RzAzWWFQMmxqcjdhRk9RNVFWVWdjQWc0Z3N5b1I1VEs5V2xvWWo1QXhXdUxVV3pnb3NrRQ?oc=5" target="_blank">Trump’s cuts hurt climate tech favored by Big Tech and Big Oil</a>&nbsp;&nbsp;<font color="#6f6f6f">Semafor</font>

  • The Cracks in Carbon Capture: Lessons from Enhanced Oil Recovery | by Michael Barnard | The Future is Electric - MediumMedium

    <a href="https://news.google.com/rss/articles/CBMiugFBVV95cUxPX05HbDluRUVHLWtqRjFTN0x5d3lUanh1TllRNnk0SFBEclZ0UnYwVTVhX2E2WWRDY0NqVkF0by0yUzA4b2xOX2RzLWpQV01OVXJUUUlVS3FrZXdaVEdZeEpBMTEyWmZacDI3VVp1YUhiQTlxQ0dULTVJNDBuU1hWTWFFS2tZTUVyMk8tUU54T3RvNnpJVWdTRGxFTXhOS3lUdVFrRmFVVU81QW51d2lmN1djcmdLN0VlM1E?oc=5" target="_blank">The Cracks in Carbon Capture: Lessons from Enhanced Oil Recovery | by Michael Barnard | The Future is Electric</a>&nbsp;&nbsp;<font color="#6f6f6f">Medium</font>

  • The Collapse of Confidence in Carbon Capture - Crude Oil Prices Today | OilPrice.comCrude Oil Prices Today | OilPrice.com

    <a href="https://news.google.com/rss/articles/CBMilwFBVV95cUxNRjdpLTFEVEl4dzdGTmlpVmJOS1ZjOXFJa2F5SkVfWkt6dmkzM1hGUzh4SHNGYWN6czZ2NWhpeTRfSGJ1aTNQYXo0N1pockJ0NFpVa05RNUhmV2RMTms5S3o4Rk02VG1pS2tTT09IVHc1TFBxeDI2X2VsSXg3ME0wZC1FTDJpVWZCWkJGNjZDQ01scmtDNTZV0gGcAUFVX3lxTE5IRkl1cThPa0pXWXFGWmdsdmU5aDFhWHh6cjV0UXVHSUxfTmxvN0RadGdPNXV1T1haUXRSOTV0RFRUd2t2WXdHZmpuMHZaOTN6UnFtZ25kcW9VR2QxQWFFalNKc25LankxVFZDOHhpQlh3ZnFPejUwNHZlNUFnWFAycDNETUYxRExpbWdOXy03czZ6R0MybDRQNHVvOA?oc=5" target="_blank">The Collapse of Confidence in Carbon Capture</a>&nbsp;&nbsp;<font color="#6f6f6f">Crude Oil Prices Today | OilPrice.com</font>

  • White House outlines priorities on oil and gas, offshore carbon storage - E&E News by POLITICOE&E News by POLITICO

    <a href="https://news.google.com/rss/articles/CBMipgFBVV95cUxOTHN4bXRPYXFQSTVYYnBBUzFscW9mbGNwWXQ0cmFFeGlGNFd4cExiNTJsM0FJUi0tcjZ6eUlVV3dINFd6VEw3VE1sMUlrc3N2VXJMa1kyRXR0YVV0UE90ZkI1ZUZUVUxHT2dmMS1IdnI3NDFUMjNEMUliLVNxV3ZiR3pTb1VtSTQtV25DVlI3NEFFWkdjWmlrUlVqelZ0enFsTVZfd0VR?oc=5" target="_blank">White House outlines priorities on oil and gas, offshore carbon storage</a>&nbsp;&nbsp;<font color="#6f6f6f">E&E News by POLITICO</font>

  • Alternative Carbon Carrier Technology Could Improve Oil Production — and Carbon Storage Too - Jackson School of GeosciencesJackson School of Geosciences

    <a href="https://news.google.com/rss/articles/CBMiygFBVV95cUxOWEc4cHExZUtXczlZM0pST1JFTjhmQ2ZWM0NEdFJKMTRhczJUemdSOXhvUXFqMWhHSHZhT0FJSWFRc1NmNU9fZGs1MldVUnZhWnJsU1NsbDBPamdZTUh3VmxCc0JJX2kya2hpNkY5OTVUdjg4NnFFSnNKQm5jRVdjVm9kLUNKQVBVcy1kaWtoeDVzZHNWeXZOcDV6MF9tbXFfUVpQM0tvNlU0OV9vR25QY2kyWWFWdWxsTm1yRnkyelgzQjkyNERtWUZn?oc=5" target="_blank">Alternative Carbon Carrier Technology Could Improve Oil Production — and Carbon Storage Too</a>&nbsp;&nbsp;<font color="#6f6f6f">Jackson School of Geosciences</font>

  • Distinguishing gold from oil: The EU’s global carbon capture and storage partnerships - European Union Institute for Security Studies |European Union Institute for Security Studies |

    <a href="https://news.google.com/rss/articles/CBMivAFBVV95cUxNNlY5ejZBR1E2WVM5UVVZZ0wwQVhLVl9wTmsxbUJibFB3RHpURU1yeGRaSUt6MVVuMEMtUWp3YTRwc0lxMTNaVHh3Nm1FOUdya1RXSkd1bUZWNWg2T0ZtZkZIZmdmRDJMU2J2OEVvNjhoRlRhZ2w5NXJLczhqbEdWSFhhQkJPY3duSE56UURiM0ZQWFRXSzZ0SGUzbnhJcW1yUW9RYmNIaHhEZVZOS1ZiaUJQZXpCSHRZRkNnUQ?oc=5" target="_blank">Distinguishing gold from oil: The EU’s global carbon capture and storage partnerships</a>&nbsp;&nbsp;<font color="#6f6f6f">European Union Institute for Security Studies |</font>

  • Capturing CO2, sold as climate solution, rebranded as oil industry boost - WWNOWWNO

    <a href="https://news.google.com/rss/articles/CBMitgFBVV95cUxPcm5YbWRCWjlIUDRjRkxydUpWcGhjM0o5ZnZzVjhRZ1ZQcVFua1lPOWIweld6M3ZYN045Z3ZzdURuVDBQSDdya1ZobDl2aXpMYnpvSV9UQTFQaERwQVVGUTRWRG9IbHJjU1B6NzVIeW5kbGktaVg1Vkw0ODhsekd3Z2c3NUZtOHRnaVlrQm1KSEVtTXJSb1A1b212WUlrR0RZSGQtM1gtMEVSajg1R1B4Vm0xU1ZmQQ?oc=5" target="_blank">Capturing CO2, sold as climate solution, rebranded as oil industry boost</a>&nbsp;&nbsp;<font color="#6f6f6f">WWNO</font>

  • Capturing carbon dioxide, sold as climate solution, rebranded as oil industry boost - Louisiana IlluminatorLouisiana Illuminator

    <a href="https://news.google.com/rss/articles/CBMiXEFVX3lxTE5WanV0cndONlZUcnB0TVhsMFVhSjNfX1lDX19pS1FpRnBIZnJuUzRIdjdDQU9DYUZBNmU3U1Y1UE1KMFR2LWNnekpMSDFJOWg2Vnd3SDlMSUxLM09a?oc=5" target="_blank">Capturing carbon dioxide, sold as climate solution, rebranded as oil industry boost</a>&nbsp;&nbsp;<font color="#6f6f6f">Louisiana Illuminator</font>

  • Carbon Capture Will Extend Oil Production by 84 Years, Industry Study Finds - DeSmogDeSmog

    <a href="https://news.google.com/rss/articles/CBMirgFBVV95cUxPOU9vSGpvR3J5eWFlUEhfcGdoeEVscExZRjMyY01WZGNSdnpPcEFJUDNBMVlCcDZVUENxOWJRdl82UTZ2QTQycE5uZGRYd0FtYm9xSHNuWDVNcUplXy1mc29OZnVENVppaW5YZjl5bzVmanpzWHhQRGRJWFdjS3RraHE4cVlqSmVvYW1zcUc5VkVNOFF0WXIzVERUOVZQeXhQZjRBLU5kZXR0RWx3TkE?oc=5" target="_blank">Carbon Capture Will Extend Oil Production by 84 Years, Industry Study Finds</a>&nbsp;&nbsp;<font color="#6f6f6f">DeSmog</font>

  • Big oil is racing to scale up carbon capture to slash emissions but the challenges are immense - CNBCCNBC

    <a href="https://news.google.com/rss/articles/CBMiogFBVV95cUxPWnFKS0Rob2NIWGpYSDVpRkUtaldPbmhld0hvSkNyZUZ6dTVUUkVDX1RVcmtEZEF6RS1McWs0VnZ1eVNNWlI3VnFjUEJIZWFMdWNJWXFhNzlUMDNJcVNoeW1UNmpJUVZOenNwR2Rqc2VlSWdUdTQ5VHNUa2pfUW5iTFpMd2pkLVFtZUxBLVpoT01lMEk5aEJsVnJPNXYzMGR2TXfSAacBQVVfeXFMTlRmY3N2aVlBTnp5bmx3RGF5RGVmRzhPMU5JQmtLZ0hQZmIwTWRSVXR0V3FycUdFdjdseXN1WFFFTzlIY0tuYmoyRWlZZUtwU2xxSmo0dUt1QWtyNTFTdm1HbWVkYjI5aHNwUDdXWXlFdHpQUVBmT21uR3RGRXU3Y1dkeUVYVDd3NjRGZlpCNkVyV2d6RmNRamRWMktzMGh4a2RlOG82dUE?oc=5" target="_blank">Big oil is racing to scale up carbon capture to slash emissions but the challenges are immense</a>&nbsp;&nbsp;<font color="#6f6f6f">CNBC</font>