Overview of polymeric and mixed‐matrix membranes for CO₂ separation, highlighting key materials, fabrication techniques, performance challenges, and innovations supporting industrial decarbonization and sustainable development. ABSTRACT Carbon dioxide (CO₂) emissions from anthropogenic sources are major contributors to global warming and climate change,
Muhammad Mansha +5 more
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Nonenergy Biomass Carbon Removal and Storage (BiCRS): Assessing Durability of Nongaseous Carbon Products Across Terrestrial Storage Fates. [PDF]
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A Comprehensive Systematic Well-to-Refinery Carbon Intensity Assessment of Technoeconomically Viable CO<sub>2</sub>-EOR Operations in Alberta. [PDF]
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Integrated perspective on ocean carbon cycle: Untangling facts, fluxes, and fictions. [PDF]
Resplandy L, Lévy M, Bopp L.
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Large-Scale Hydrogen Storage in Deep Saline Aquifers: Multiphase Flow, Geochemical-Microbial Interactions, and Economic Feasibility. [PDF]
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Pore-Scale Imaging to Quantify the Evolution and Reduction in Trapped CO<sub>2</sub> due to Ostwald Ripening. [PDF]
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Assessment of CO₂ sequestration potential in the Abu Sannan oil field for sustainable energy and environment using seismic modeling, Western Desert, Egypt. [PDF]
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International Developments in Geological Storage of CO2
Exploration Geophysics, 2006Geological storage of captured CO2 is a new way of reducing greenhouse gas emissions to protect the climate, but is based on the established technology associated with injection of fluids underground. The geological formations of interest for this technique include operational and depleted oil and gas fields, and deep saline aquifers.
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