Analysis of thermally coupled chemical looping combustion-based power plants with carbon capture

Engineering

• Chemical Looping Combustion 100%
• Reactor 71%
• Efficiency 57%
• Cycle Efficiency 42%
• Models 42%
• Couplings 42%
• Parametric Study 28%
• Reactor Design 28%
• Fuel 28%
• Steam 28%
• Power Generation 14%
• Carbon Capture 14%
• Environmental Impact 14%
• Microchannel 14%
• Entropy Generation 14%
• Reactor Temperature 14%
• Heat Recovery 14%
• Metal Oxide 14%
• Thermal Equilibrium 14%
• Oxygen Transfer 14%
• Thermodynamic Model 14%
• Oxycombustion 14%
• Generation Technology 14%
• Production Strategy 14%
• Oxygen Carrier 14%
• Steam Generation 14%
• Design 14%
• Demonstrates 14%
• Internals 14%
• Energy Engineering 14%
• Illustrates 14%
• Reduction 14%
• Limitations 14%
• Cycles 14%
• Temperature Difference 14%
• Power Plant 14%
• Carbon Capture 14%

Physics

• Model 42%
• Combustion System 28%
• Fuel 28%
• Air 28%
• Technology 28%
• Steam 28%
• Oxidation 14%
• Carbon Dioxide Emission 14%
• Pressure 14%
• Increasing 14%
• Particle 14%
• Impact 14%
• Cycles 14%
• Streams 14%
• Metal 14%
• Fractions 14%
• Sides 14%
• Carbon Dioxide 14%
• Temperature Gradients 14%