<p>In recent decades, numerous greenhouse gases have been released into the atmosphere, resulting in climatic changes and rising global temperatures. Various methods have been devised to reduce the emission of carbon dioxide (CO<sub>2</sub>) and appropriately address this issue. Carbon capture, use, and storage (CCUS) are currently embraced as a potential method, among several others. The current review article examines CCUS and its influence on mitigating the impact of carbon dioxide on the environment. Carbon dioxide capture and storage conditions&#xa0;are analyzed, and various technologies, transportation methods, and storage options are evaluated. The prerequisites and techniques for prolonged carbon dioxide sequestration are discussed, involving the insertion of supercritical carbon dioxide into subsurface geological formations. The economic feasibility of CO<sub>2</sub> collection and utilization is evaluated, encompassing the integration of CCUS with electricity-producing infrastructures and the application of CO<sub>2</sub> in the production of biofuel. Artificial intelligence plays a crucial role in evaluating CCUS criteria. Therefore, its growing significance is explored. Examining&#xa0;political policies, budgetary challenges, and incentives for&#xa0;CCUS is conducted within the framework of its 2050 forecast. Attention is also given to safety, environmental, cost, and economic considerations that significantly influence the capacity of CCUS initiatives to get adequate finance and garner governmental backing.</p> Graphical Abstract <p>Carbon Capture, Utilization, and Storage (CCUS): A holistic pathway to mitigate CO<sub>2</sub> emissions through capture, transport, conversion into biofuels, and secure geological storage</p>

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Carbon dioxide capture, utilization, and storage: recent approaches, challenges, and future prospects toward a carbon-free world

  • Nourhan S. Sultan,
  • Eman M. Hieba,
  • Rewida R. Hamed,
  • Hagar L. Mostafa,
  • Wael M. Elshemey,
  • A. Ismael,
  • Heba M. Fahmy

摘要

In recent decades, numerous greenhouse gases have been released into the atmosphere, resulting in climatic changes and rising global temperatures. Various methods have been devised to reduce the emission of carbon dioxide (CO2) and appropriately address this issue. Carbon capture, use, and storage (CCUS) are currently embraced as a potential method, among several others. The current review article examines CCUS and its influence on mitigating the impact of carbon dioxide on the environment. Carbon dioxide capture and storage conditions are analyzed, and various technologies, transportation methods, and storage options are evaluated. The prerequisites and techniques for prolonged carbon dioxide sequestration are discussed, involving the insertion of supercritical carbon dioxide into subsurface geological formations. The economic feasibility of CO2 collection and utilization is evaluated, encompassing the integration of CCUS with electricity-producing infrastructures and the application of CO2 in the production of biofuel. Artificial intelligence plays a crucial role in evaluating CCUS criteria. Therefore, its growing significance is explored. Examining political policies, budgetary challenges, and incentives for CCUS is conducted within the framework of its 2050 forecast. Attention is also given to safety, environmental, cost, and economic considerations that significantly influence the capacity of CCUS initiatives to get adequate finance and garner governmental backing.

Graphical Abstract

Carbon Capture, Utilization, and Storage (CCUS): A holistic pathway to mitigate CO2 emissions through capture, transport, conversion into biofuels, and secure geological storage