Fig. 1. Structure of current LNG open rack vaporizer.
Fig. 2. LNG evaporation phenomena inside tube.
Fig. 3. Temperature and velocity profile of seawater in current ORV.
Fig. 4. Two-way supplying system of seawaterin ORV.
Fig. 5. Temperature profile of two- way seawater supplying system in ORV.
Fig. 6. Winter seawater temperature of Incheon in 2018.
Fig. 7. Current LNG evaporation rate of SMV with seawater temperature in winter.
Fig. 8. Current daily LNG evaporation rate of SMV in Incheon terminal.
Fig. 9. LNG evaporation rate of SMV with twoway seawater supplying system.
Fig. 10. Daily LNG evaporation rate of SMV with two-way seawater supplying system in Incheon terminal.
Table 1. Current LNG evaporation rate of ORV with seawater temperature in winter
Table 2. LNG evaporation rate of ORV with twoway seawater supplying system in winter
참고문헌
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- Pan J., Li R., Tao L., Wu G. and Deng Z., "Thermal Performance Calculation and Analysis of Heat Transfer Tube in Super Open Rack Vaporiser", Applied Thermal Engineering, 93, 27-35, (2016) https://doi.org/10.1016/j.applthermaleng.2015.09.047
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