{"id":2612,"date":"2024-11-29T16:21:19","date_gmt":"2024-11-29T15:21:19","guid":{"rendered":"https:\/\/afen.fr\/?p=2612"},"modified":"2024-12-15T23:37:29","modified_gmt":"2024-12-15T22:37:29","slug":"elimination-du-carbone-csc-et-ccu-explication-des-differences-fondamentales-entre-ces-trois-approches-de-gestion-du-carbone","status":"publish","type":"post","link":"https:\/\/afen.fr\/en\/actualite\/carbon-elimination-csc-and-ccu-explanation-of-the-fundamental-differences-between-these-three-carbon-management-approaches\/","title":{"rendered":"Carbon removal, CCS and CCU: Explaining the fundamental differences between these three carbon management approaches"},"content":{"rendered":"

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We have already presented the role of Carbon Dioxide Removal (CDR). <\/a>in the energy transition and its crucial role in climate scenarios. However, as part of the fight against climate change, various carbon management technologies are being developed to reduce the concentration of carbon dioxide in the atmosphere. Another technology, often confused with CDR or at least associated with its development, is carbon capture and storage (CCS) and carbon capture and utilization (CCU). Although often lumped together under the banner of carbon management, these technologies differ in profound ways from CDR. They differ fundamentally from CDR in terms of CO\u2082 sources, processes and objectives.<\/p>\n\n\n\n

So we're going to explore these differences in greater depth to better understand the distinct and complementary role of each technology in the transition to Net-Zero.<\/p>\n\n\n\n

Comparison of the three carbon technologies<\/strong><\/p>\n\n\n\n

CCS, CCU, and CDR although three key technologies for carbon management, are distinguished by distinct mechanisms and specific objectives. CCS captures CO\u2082 at source, mainly in heavy industries, for storage in deep geological formations, sometimes used to enhance hydrocarbon recovery (EOR). CDR, meanwhile, captures CO\u2082 for reuse in the production of commercial products, reducing dependence on fossil carbon sources. CDR is distinguished by its ability to directly remove CO\u2082 from the atmosphere, aiming to achieve negative net emissions by storing carbon or incorporating it into sustainable products. While CCS and CCU focus on decarbonizing industries that are difficult to transform quickly, CDR targets the reduction of atmospheric CO\u2082 concentrations, offering an essential solution to counter historical and residual emissions.<\/p>\n\n\n\n

The importance of a diversified approach to tackling climate change cannot be underestimated. This portfolio strategy, which includes complementary solutions such as Carbon Capture and Storage (CCS), enhances decarbonization efforts at scale. CCS and the use of captured carbon (CCU) have their place in reducing industrial emissions, and their development generates significant synergies with other CDR technologies, particularly those focused on storing CO\u2082 in solid form, such as DAC (Direct Air Capture) and BECCS (Bioenergy with Carbon Capture and Storage). This integrated and complementary approach is essential to achieving carbon neutrality, making the most of each technology's capabilities.<\/p>\n\n\n\n

Technology<\/strong><\/td>Carbon Capture and Storage (CCS)<\/strong><\/td>Carbon Capture and Utilization (CCU)<\/strong><\/td>Carbon Dioxide Removal (CDR)<\/strong><\/td><\/tr>
How it works<\/strong><\/td>
The CCS consists of capture CO\u2082 directly at source<\/strong>emissions from power plants and industrial facilities, then transported and stored in deep geological formations for long-term sequestration. In some cases, these formations are stocks of fossil resources (gas or oil) whose exploitation is aided by CO2 storage (known as Enhanced Oil Recovery or EOR).<\/td>		The CCU involves reuse of captured CO\u2082<\/strong> to create commercial products such as synthetic fuels, chemicals, building materials and plastics.<\/td>The CDR consists of remove CO\u2082 directly from the atmosphere <\/strong>and store it permanently.<\/td><\/tr>


Conditions:<\/strong><\/td>		Source of CO\u2082:<\/em><\/td>
Mainly sources industrial<\/strong><\/td>		Mainly sources industrial or atmospheric<\/strong><\/td>CO\u2082 atmospheric<\/strong>.<\/td><\/tr>
Process :<\/em><\/td>
Water catchment <\/strong>Separation of CO\u2082 from other gases emitted by industrial sources via chemical processes such as amine absorption.<\/td>		Water catchment <\/strong>: As with CCS, CO\u2082 is captured from industrial exhaust gases.<\/td>Water catchment <\/strong>: Techniques such as direct air capture (DAC) use chemical processes to extract CO\u2082 from ambient air.<\/td><\/tr>

Storage<\/strong> : Injection of CO\u2082 into deep geological formations such as depleted oil and gas reservoirs or saline aquifers.<\/td>
Use <\/strong>: Captured CO\u2082 is used in industrial processes to produce consumer goods or synthetic fuels.<\/td>
Storage <\/strong>Storage in biomass, geological storage similar to CCS, or use in sustainable products.<\/td><\/tr>
Objectives :<\/strong><\/td>
Decarbonize <\/strong>industries where emissions reductions are difficult to achieve quickly<\/td>
Decarbonize <\/strong>industries where emissions reductions are difficult to achieve quickly<\/td>		Reduce <\/strong>CO\u2082 concentrations in the atmosphere.<\/td><\/tr>
Enable<\/strong> maintaining fossil fuel assets where necessary<\/td>
Reuse <\/strong>CO\u2082 captured to reduce the use of new fossil carbon sources.<\/td>		Reach <\/strong>negative net emissions by removing more CO\u2082 than is emitted.<\/td><\/tr>
Counterbalance <\/strong>historical and residual emissions from sectors that are difficult to decarbonize.<\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n

Differences in the nature of the three technologies<\/strong><\/h2>\n\n\n\n

According to the Intergovernmental Panel on Climate Change (IPCC), CDR is defined as human activities that capture CO\u2082 from the atmosphere and store it sustainably in geological reservoirs, on land or in the ocean, or in durable products. Three key principles guide this definition:<\/p>\n\n\n\n