Design optimization of supercritical carbon dioxide (s-CO2) cycles for waste heat recovery from marine engines

Engineering & Materials Science

• Marine engines 87%
• Waste heat utilization 68%
• Carbon dioxide 60%
• Hot Temperature 31%
• Brayton cycle 29%
• Engines 28%
• Waste heat 24%
• Climate change 24%
• Conversion efficiency 23%
• Flue gases 22%
• Exhaust gases 22%
• Energy conversion 22%
• Diesel engines 19%
• Energy efficiency 17%
• Carbon 16%
• Flow rate 16%
• Temperature 8%

Earth & Environmental Sciences

• waste heat 84%
• engine 60%
• carbon dioxide 52%
• energy conversion 26%
• exhaust gas 25%
• diesel engine 25%
• energy efficiency 22%
• flue gas 22%
• carbon emission 21%
• footprint 21%
• global climate 19%
• climate change 12%
• temperature 8%
• rate 7%

Chemistry

• Waste Heat 100%
• Carbon Dioxide 51%
• Flue Gas 25%
• Flow Kinetics 16%
• Heat 16%
• Gas 11%
• Energy 10%