Impact of Temperature on Fluid-Rock Interactions During CO₂ Injection in Depleted Limestone Aquifers: Laboratory and Modelling Studies

Engineering & Materials Science

• Aquifers 100%
• Brines 20%
• Calcite 12%
• Calcium 18%
• Carbonate minerals 15%
• Chemical analysis 11%
• Core samples 11%
• Dissolution 9%
• Effluents 38%
• Experiments 9%
• Flow rate 6%
• Fluids 49%
• Limestone 88%
• Magnesium 18%
• Minerals 69%
• Molar ratio 10%
• Porosity 14%
• Rate constants 10%
• Reaction rates 38%
• Rocks 65%
• Solubility 65%
• Specific surface area 11%
• Temperature 30%
• Thermal effects 8%
• Thermal gradients 8%

Chemical Compounds

• Calcite 11%
• Calcium(0) 14%
• Carbonate Mineral 15%
• Dissolution 7%
• Flood Reaction 14%
• Flow 12%
• Flow Kinetics 7%
• Magnesium Atom 15%
• Mineral 62%
• Permeability 15%
• Porosity 11%
• Pressure 5%
• Reaction Rate Constant 10%
• Residence Time 30%
• Simulation 18%
• Solubility 42%
• Specific Surface Area 7%
• Surface Area 6%
• Volume 5%