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corporate.totalenergies.us
article
https://corporate.totalenergies.us/driving-carbon-reduction-through-ccus-tech…
Carbon Capture, Utilization and Storage (CCUS) is an essential climate solution for decarbonizing industry and reducing or removing CO2 emissions from industrial processes. Carbon Capture, Utilization and Storage (CCUS) refers to the full value chain of managing carbon dioxide: from **capturing CO₂** at industrial or energy facilities, to **transporting it**, to either **recycling it** into carbon-based products or safely and permanently **storing it** in deep geological formations. In the U.S., TotalEnergies holds a 25% stake in the Bayou Bend CCS project, a large-scale carbon storage initiative along the Texas Gulf Coast designed to store hundreds of millions of tons of CO₂. In Houston, Texas, our **CO₂ Techno Hub** is identifying, evaluating, and accelerating solutions forCO₂capture, transport, storage and utilization across our operations. Through partnerships with leading ClimateTech innovators such as Greentown Labs and participation in programs like the Carbon to Value Initiative, the CO2 Techno Hub is leveraging the strength of the U.S. innovation ecosystem to accelerate next-generation carbon solutions.
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bakerhughes.com
article
https://www.bakerhughes.com/carbon-capture-use-and-storage-ccus-solutions
+ Carbon Capture, Utilization, and Storage (CCUS) Integrated suite of solutions to capture, process, store, and monitor CO2 emissions"). That’s why carbon capture, utilization, and storage (CCUS) technologies will undoubtedly play an important role in achieving a net-zero emissions energy future in not only the US but also Europe and China. Now, we are advancing our industry-leading CCUS portfolio—which includes technologies for direct air capture, transport, storage, monitoring, and well services—to develop and deploy carbon dioxide reduction and removal solutions to enable a Net Zero emissions future for the energy sector and beyond, sequestering greenhouse gases and offering solutions that enable industries to meet their climate goals while continuing to operate sustainably and keeping up with growing global energy demand. Our modular CCUS solutions and facilities are scalable and configurable to meet the needs of challenging industrial processes and CO2 capture projects. We can help energy and fossil-fuel intensive industrial processes and power plants decarbonize through turnkey energy partnerships and value chain solutions, from emissions reduction to CCUS facilities, gas reservoirs, and storage.
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en.wikipedia.org
article
https://en.wikipedia.org/wiki/Carbon_capture_and_storage
Carbon capture and storage (CCS) is a process by which carbon dioxide (CO2) from industrial installations or natural sources is separated before it is
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corporate.exxonmobil.com
article
https://corporate.exxonmobil.com/what-we-do/delivering-industrial-solutions/c…
# Carbon capture and storage. We’re a global leader in carbon capture and storage. What is carbon capture and storage (CCS)? 2025: Taking carbon capture and storage from momentum to impact. The International Energy Agency calls carbon capture and storage one of the critical technologies required to achieve net-zero emissions and the climate goals outlined in the Paris Agreement. Carbon capture and storage map. ## Let’s deliver reliable carbon capture and storage. Our carbon capture and storage (CCS) network can help reduce carbon dioxide (CO2) emissions for key industries in the U.S. Our combined assets now include:. ### 2025: Taking carbon capture and storage from momentum to impact. Low Carbon Solutions is helping to lower emissions by providing solutions to our industrial and commercial customers in growing markets for carbon capture and storage, hydrogen and lower emission fuels. 2. Subject to additional investment by ExxonMobil and permitting for carbon capture and storage projects.
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sciencedirect.com
article
https://www.sciencedirect.com/science/article/pii/S2666845924002010
# Carbon capture, utilization, and storage (CCUS) technologies: Evaluating the effectiveness of advanced CCUS solutions for reducing CO2 emissions. This review provides a comprehensive examination of Carbon Capture, Utilization, and Storage (CCUS) technologies, focusing on their advancements, challenges, and future prospects. It begins with an overview of carbon capture methods, including pre-combustion, post-combustion, and oxy-fuel combustion techniques, highlighting recent technological improvements and associated challenges. The review then explores various carbon utilization strategies, such as chemical conversion, biological processes, and mineralization, discussing emerging technologies, potential applications, and the economic and environmental benefits of utilizing captured CO2. The discussion on carbon storage covers geological options like saline aquifers and depleted oil and gas fields, as well as recent advancements in monitoring and safety measures. In addressing the integration and optimization of CCUS systems, it evaluates the synergies between capture, utilization, and storage, includes techno-economic analyses of integrated systems, and presents case studies of successful CCUS projects. The review also identifies key research gaps, explores innovation potential, and provides strategic recommendations for advancing CCUS adoption.
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climate.mit.edu
research
https://climate.mit.edu/explainers/carbon-capture
Carbon capture and storage is a technology that captures the carbon dioxide from burning fossil fuels before it is released to the atmosphere.
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wri.org
article
https://www.wri.org/insights/carbon-capture-technology
Policies like the EU's Net Zero Industry Act, the 45Q tax credit in the U.S. and Denmark's CCUS Fund, as well as emerging regulation in Indonesia, are all helping to accelerate the deployment of carbon capture, utilization and sequestration (CCUS). Today CCUS captures around 0.1% of global emissions — around 50 million metric tons of carbon dioxide (CO2). CCUS is one of many ways to reduce emissions and plays a different role from carbon removal in long-term and net-zero climate plans developed by countries or companies. IPCC scenarios show a wide range of potential deployment of carbon capture technology: CCUS applied to fossil fuels reduces CO2 emissions by 0-5 GtCO2 by 2030 with a median of 1 GtCO2. Companies using or planning to use CCUS at their facilities should adhere to relevant regulatory frameworks; monitor and report the environmental impacts of the technology; engage with local communities; and commit to project agreements, including community benefits agreements.
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iea.org
article
https://www.iea.org/energy-system/carbon-capture-utilisation-and-storage
* The **United States** announced important opportunities in 2023 that are expected to boost CCUS project development, including USD 1.7 billion for carbon capture demonstration projects and USD 1.2 billion for direct air capture (DAC) hubs under the 2021 Infrastructure Investment and Jobs Act. Close to ten large-scale (capture capacity over 100 000 tCO2/year, and over 1 000 tCO2/yr for DAC applications) capture facilities entered operation in 2023, including the Blue Flint ethanol project, Linde Clear Lake capture facility, and Heirloom and Global thermostat’s first 1,000 tCO2/yr facilities in the United States, and four projects in China (the Jiling Petrochemical CCUS facility, the CNOOC Enping oil field, the first phase of the Guanghui Energy CCUS integration project and the China Energy Taizhou power plant). The database covers all CCUS projects commissioned since the 1970s with an announced capacity of more than 100 000 t per year (or 1 000 t per year for direct air capture facilities) and a clear scope for reducing emissions.