Design and Exergy Analysis of Combined Rankine Cycle Using LNG Cold Energy. Lee, U. & Han, C. Volume 33 , 2014. doi abstract bibtex In this study, a 90MWe combined Rankine cycle utilizing LNG cold exergy was proposed. Utilizing LNG cold exergy and waste heat from the conventional steam cycle, this process was able to generate additional power in the CO2 organic Rankine cycle (ORC). A conventional steam cycle generates only 42MW electric power; this combined Rankine cycle produced more than twice as much power as the conventional steam cycle while consuming the same amount of fossil fuel. Through parameter sensitivity analysis and exergy analysis, the optimum design and operating conditions were also determined. Finally, reduction of the power plant de-rate by introducing a CO2 capture process was also analyzed. © 2014 Elsevier B.V.
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title = {Design and Exergy Analysis of Combined Rankine Cycle Using LNG Cold Energy},
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keywords = {CCS,Combined cycle,LNG,ORC},
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abstract = {In this study, a 90MWe combined Rankine cycle utilizing LNG cold exergy was proposed. Utilizing LNG cold exergy and waste heat from the conventional steam cycle, this process was able to generate additional power in the CO2 organic Rankine cycle (ORC). A conventional steam cycle generates only 42MW electric power; this combined Rankine cycle produced more than twice as much power as the conventional steam cycle while consuming the same amount of fossil fuel. Through parameter sensitivity analysis and exergy analysis, the optimum design and operating conditions were also determined. Finally, reduction of the power plant de-rate by introducing a CO2 capture process was also analyzed. © 2014 Elsevier B.V.},
bibtype = {book},
author = {Lee, U. and Han, C.},
doi = {10.1016/B978-0-444-63455-9.50116-1}
}
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