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Utilization of the cryogenic exergy of LNG by a mirror gas-turbine

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  • Kaneko, Kenichi
  • Ohtani, Kiyoshi
  • Tsujikawa, Yoshiharu
  • Fujii, Shoichi

Abstract

In the course of worldwide efforts to suppress global warming, the saving of energy becomes more important. Recently, LNG (liquefied natural gas) terminals in our country have received more than 50 million tons of LNG per year. Therefore, the utilization of the cryogenic exergy in connection with the regasification of LNG gains more and more importance. The aim of this paper is the recovery of the energy consumed in liquefaction using the MGT (mirror gas-turbine), which is a new kind of combined cycle of a conventional gas-turbine worked as a topping cycle and TG (inverted Brayton cycle) as a bottoming cycle. The optimum characteristics have been calculated and it is shown that this cycle is superior to the current-use gasification systems in employing seawater heat in terms of thermal efficiency and specific output. In the present cycle, the cold LNG is used to cool the exhaust gas from a turbine of a TG, and then the exergy of the liquefied natural gas is transformed, with a very high efficiency, to electric energy. The main feature of this new concept is the removal of an evaporation system using seawater.

Suggested Citation

  • Kaneko, Kenichi & Ohtani, Kiyoshi & Tsujikawa, Yoshiharu & Fujii, Shoichi, 2004. "Utilization of the cryogenic exergy of LNG by a mirror gas-turbine," Applied Energy, Elsevier, vol. 79(4), pages 355-369, December.
  • Handle: RePEc:eee:appene:v:79:y:2004:i:4:p:355-369
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    Cited by:

    1. Kanbur, Baris Burak & Xiang, Liming & Dubey, Swapnil & Choo, Fook Hoong & Duan, Fei, 2018. "Finite sum based thermoeconomic and sustainable analyses of the small scale LNG cold utilized power generation systems," Applied Energy, Elsevier, vol. 220(C), pages 944-961.
    2. Davide Di Battista & Roberto Cipollone, 2023. "Waste Energy Recovery and Valorization in Internal Combustion Engines for Transportation," Energies, MDPI, vol. 16(8), pages 1-28, April.
    3. Di Battista, D. & Fatigati, F. & Carapellucci, R. & Cipollone, R., 2019. "Inverted Brayton Cycle for waste heat recovery in reciprocating internal combustion engines," Applied Energy, Elsevier, vol. 253(C), pages 1-1.
    4. Sun, Heng & Zhu, Hongmei & Liu, Feng & Ding, He, 2014. "Simulation and optimization of a novel Rankine power cycle for recovering cold energy from liquefied natural gas using a mixed working fluid," Energy, Elsevier, vol. 70(C), pages 317-324.
    5. Kanbur, Baris Burak & Xiang, Liming & Dubey, Swapnil & Choo, Fook Hoong & Duan, Fei, 2017. "Thermoeconomic assessment of a micro cogeneration system with LNG cold utilization," Energy, Elsevier, vol. 129(C), pages 171-184.
    6. Hou, Mingyu & Wu, Zhanghua & Yu, Guoyao & Hu, Jianying & Luo, Ercang, 2018. "A thermoacoustic Stirling electrical generator for cold exergy recovery of liquefied nature gas," Applied Energy, Elsevier, vol. 226(C), pages 389-396.
    7. Baccanelli, Margaret & Langé, Stefano & Rocco, Matteo V. & Pellegrini, Laura A. & Colombo, Emanuela, 2016. "Low temperature techniques for natural gas purification and LNG production: An energy and exergy analysis," Applied Energy, Elsevier, vol. 180(C), pages 546-559.
    8. Querol, E. & Gonzalez-Regueral, B. & García-Torrent, J. & Ramos, Alberto, 2011. "Available power generation cycles to be coupled with the liquid natural gas (LNG) vaporization process in a Spanish LNG terminal," Applied Energy, Elsevier, vol. 88(7), pages 2382-2390, July.
    9. Szczygiel, Ireneusz & Bulinski, Zbigniew, 2018. "Overview of the liquid natural gas (LNG) regasification technologies with the special focus on the Prof. Szargut's impact," Energy, Elsevier, vol. 165(PB), pages 999-1008.
    10. Xue, Feier & Chen, Yu & Ju, Yonglin, 2017. "Design and optimization of a novel cryogenic Rankine power generation system employing binary and ternary mixtures as working fluids based on the cold exergy utilization of liquefied natural gas (LNG)," Energy, Elsevier, vol. 138(C), pages 706-720.
    11. Mehrpooya, Mehdi & Moftakhari Sharifzadeh, Mohammad Mehdi & Rosen, Marc A., 2015. "Optimum design and exergy analysis of a novel cryogenic air separation process with LNG (liquefied natural gas) cold energy utilization," Energy, Elsevier, vol. 90(P2), pages 2047-2069.
    12. He, Tianbiao & Nair, Sajitha K. & Babu, Ponnivalavan & Linga, Praveen & Karimi, Iftekhar A., 2018. "A novel conceptual design of hydrate based desalination (HyDesal) process by utilizing LNG cold energy," Applied Energy, Elsevier, vol. 222(C), pages 13-24.
    13. Kanbur, Baris Burak & Xiang, Liming & Dubey, Swapnil & Choo, Fook Hoong & Duan, Fei, 2017. "Cold utilization systems of LNG: A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 79(C), pages 1171-1188.
    14. He, Tianbiao & Chong, Zheng Rong & Zheng, Junjie & Ju, Yonglin & Linga, Praveen, 2019. "LNG cold energy utilization: Prospects and challenges," Energy, Elsevier, vol. 170(C), pages 557-568.
    15. Romero Gómez, M. & Ferreiro Garcia, R. & Romero Gómez, J. & Carbia Carril, J., 2014. "Review of thermal cycles exploiting the exergy of liquefied natural gas in the regasification process," Renewable and Sustainable Energy Reviews, Elsevier, vol. 38(C), pages 781-795.
    16. Koku, Oludolapo & Perry, Simon & Kim, Jin-Kuk, 2014. "Techno-economic evaluation for the heat integration of vaporisation cold energy in natural gas processing," Applied Energy, Elsevier, vol. 114(C), pages 250-261.
    17. Kanbur, Baris Burak & Xiang, Liming & Dubey, Swapnil & Choo, Fook Hoong & Duan, Fei, 2017. "Thermoeconomic and environmental assessments of a combined cycle for the small scale LNG cold utilization," Applied Energy, Elsevier, vol. 204(C), pages 1148-1162.

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