[논문]A Preliminary Study on Direct Ethanol SOFC for Marine Applications

Bo Rim Ryu; To Thi Thu Ha; Hokeun Kang

doi:10.5394/kinpr.2024.48.2.125

[국내논문] A Preliminary Study on Direct Ethanol SOFC for Marine Applications

한국항해항만학회지 = Journal of navigation and port research, v.48 no.2, 2024년, pp.125 - 136

Bo Rim Ryu (Department of Marine System Engineering, Korea Maritime and Ocean University) , To Thi Thu Ha (Department of Marine System Engineering, Korea Maritime and Ocean University) , Hokeun Kang (Division of Coast Guard Studies, Korea Maritime and Ocean University)

Abstract ▼ AI-Helper

This research presents an innovative integrated ethanol solid oxide fuel cell (SOFC) system designed for applications in marine vessels. The system incorporates an exhaust gas heat recovery mechanism. The high-temperature exhaust gas produced by the SOFC is efficiently recovered through a sequential process involving a gas turbine (GT), a regenerative system, steam Rankine cycles, and a waste heat boiler (WHB). A comprehensive thermodynamic analysis of this integrated SOFC-GT-SRC-WHB system was performed. A simulation of this proposed system was conducted using Aspen Hysys V12.1, and a genetic algorithm was employed to optimize the system parameters. Thermodynamic equations based on the first and second laws of thermodynamics were utilized to assess the system's performance. Additionally, the exergy destruction within the crucial system components was examined. The system is projected to achieve an energy efficiency of 58.44% and an exergy efficiency of 29.43%. Notably, the integrated high-temperature exhaust gas recovery systems contribute significantly, generating 1129.1 kW, which accounts for 22.9% of the total power generated. Furthermore, the waste heat boiler was designed to produce 900.8 kg/h of superheated vapor at 170 ℃ and 405 kP a, serving various onboard ship purposes, such as heating fuel oil and accommodations for seafarers and equipment.

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표/그림 (9)

그림 Fig. 1 Schematic of the SOFC-GT-SRC-WHB integrated system
표 Table 1 General information of ship particular
표 Table 2 The exergy destruction in the major components
표 Table 3 The design and working indicators of system
그림 Fig. 2 Power produced by major components
표 Table 5 Performance of major subsystem
표 Table 4 The outcomes of the simulation conducted using the integrated model are presented alongside the pertinent variables obtained from the analysis of Liu et al.(2019)
표 Table 6 The design and working indicators of system
그림 Fig. 3 Exergy destruction of major components

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