| |
1. |
Carboni, M., Pio, G., Mocellin, P., Vianello, C., Maschio, G. and Salzano, E., 2022. Accidental release in the bunkering of LNG: Phenomenological aspects and safety zone. Ocean Engineering, 252(2022), 111163.
|
2. |
CCNR, 2021. Standard for a LNG bunker checklist – Bunker station to ship. Strasbourg: Central commission for the Navigation of the Rhine (CCNR). |
3. |
CVI, 2022. Specification of LNG Tank-lorry Truck [Online] Available at: http://etrucks.co.kr/ [Accessed 30 July 2022]. |
4. |
DNV, 2021. RP-G105: Development and operation of liquefied natural gas bunkering facilities, Oslo: Det Norske Veritas (DNV). |
5. |
DNV, 2022a. Alternative Fuels Insight Platforms: LNG Statistics [Online] Available at: http://afi.dnv.com/ [Accessed 30 July 2022]. |
6. |
DNV, 2022b. User Manual - Process hazard anlaysis software (PHAST), Oslo: Det Norske Veritas (DNV). |
7. |
EMSA, 2018. Guideance on LNG bunkering to port authorities and administrations. Lisboa: European Maritime Safety Agency (EMSA). |
8. |
Gerbec, M., Vidmar, P., Pio, G. and Salzano, E., 2021. A comparison of dispersion models for the LNG dispersion at port of Koper, Solovenia. Safety Science, 144(2021), 105467.
|
9. |
IACS, 2017. Rec.142: LNG bunkering guidelines, London: International Association of Classification Societies (IACS). |
10. |
IPA, 2022. LNG fueled ship: Eco-nuri. Incheon Port Authority. |
11. |
IEC, 2020. IEC 60079-10-1: Explosive atmospheres – Part 10-1: Classification of areas – Explosive gas atmospheres, Geneva: International Electrotechnical Commission (IEC). |
12. |
ISO, 2015. ISO 16903: Petroleum and natural gas industries - characteristics of LNG, influencing the design, and material selection, Geneva: International Organization for Standardization (ISO). |
13. |
ISO, 2021a. ISO 20519: Ships and marine technology – specification for bunkering of liquefied natrual gas fuelled vessels, Geneva; International Organization for Standardization (ISO). |
14. |
ISO, 2021b. ISO/TS 18683: Guidelines for safety and risk assessment of LNG fuel bunkering operations, Geneva: International Organization for Standardization (ISO). |
15. |
Korea LNG Bunkering (KOLB), 2022. KOLB business introduction [Online] Available at: http://kolb.co.kr [Accessed 30 July 2022]. |
16. |
Jeong, B., Lee, B.S., Zhou, P. and Ha, S.M., 2017. Evaluation of safety exclusion zone for LNG bunkering station on LNG-fuelled ships. Journal of Marine Technology, 16(3), pp.121–144.
|
17. |
Jeong, B., Lee, B.S., Zhou, P. and Ha, S.M., 2018. Determination of safety exclusion zone for LNG bunkering at fuel-supplying point. Ocean Engineering, 152, pp.113–129.
|
18. |
Jeong, B., Park, S., Ha, S. and Lee, J., 2020. Safety evaluation on LNG bunkering: to enhance practical establishment of safety zone. Ocean Engineering, 216, 107804.
|
19. |
MOF, 2020. Act on the promotion of development and distribution of environment-friendly ships, Republic of Korea: Ministry of Ocean and Fisheries. |
20. |
MOF, 2021. Act on the arrival and departure of ships, Republic of Korea: Ministry of Ocean and Fisheries. |
21. |
MOTIE, 2021. Urban Gas Business Act, Republic of Korea: Ministry of Trade, Industry and Energy. |
22. |
Park, S., Jeong, B., Yoon, J.Y. and Paik, J.K., 2018. A study on factors affecting the safety zone in ship-to-ship LNG bunkering. Ships and Offshore Structures, 13(sup1), pp.312–321.
|
23. |
Park, S., Kim, S. and Paik, J.K., 2020. Safety-zone layout design for a floating LNG-Fueled power plant in bunkering process. Ocean Engineering, 196(2020), 106774.
|
24. |
Park, S. and Paik, J.K., 2022. A Hybrid Method for the Safety Zone Design in Truck-to-Ship LNG Bunkering. Ocean Engineering, 243(2022), 110200.
|
25. |
Port of Gothenburg, 2022. Methanol bunker operating regulations, Gothenburg: Port of Gothenburg. |
26. |
SGMF, 2018. FP02-01: Recommendation of Controlled Zones during LNG bukering, London: Society for Gas as a Marine Fuel (SGMF). |