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학술연구/단체지원/교육 등 연구자 활동을 지속하도록 DBpia가 지원하고 있어요.
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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 발행연도
- 2024.3
- 수록면
- 80 - 89 (10page)
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With growing interests in the marine environment, endeavors aimed at reducing impact from pollutants are being increased. Fuel with lower sulfur acid becomes popular since it can reduce pollutants with relatively low cost. However, this Low Sulfur Fuel Oil exhibits large viscosity at lower temperature as it tends to adhere strongly to oil recovery devices impeding the effectiveness of continuous oil removal. Recently, it has been proposed that hydrophilic surface treatment can increase the peeling performance of oil from surface. Our previous work was focused on identifying peeling mechanism acting on vertically dipping plate through numerical investigation. In this study, we are aiming to get insights for increased peeling performance from rachet structure since it can minimize contact between oil and the solid structure. At the same time, we also want to find out environmental effect from wave induced vibration in oceanic environment. The effect from wave amplitude, frequency, and direction will be studied in detail for both flat and ratchet geometries. It has been found that hydrophilic ratchet geometry is very effective for oil removal and the removal performance is enhanced by wave induced vibration contrary to the flat surface.
목차
ABSTRACT
1. 서론
2. 수치기법
3. 결과
4. 결론
References
참고문헌 (13)
참고문헌 신청
2020, Abidli, A., Huang, Y., Cherukupally, P., Bilton, A.M. and Park, C.B., “Novel separator skimmer for oil spill cleanup and oily wastewater treatment: From conceptual sysem design to the first pilot-scale prototype development,” Environmental Technology & Innovation, Vol.18, 100598.
2020, Daling, P.S, and Sorheim, K.R., Characterization of Low Sulfur Fuel Oils (LSFO)–A New Generation of Marine Fuel Oils-OC2020 A-050, SINTEF Ocean.
2020, Pawar, S.H., Kumar, S.A., Vishu, A., Yashodhan, P. and Mayuresh, P., “Design and fabrication of oil collector,” International Journal of Progressive Research in Science and Engineering, Vol.1, No.3, pp.167-185.
2021, Hoang, A.T., Nguyen X.P., Duong, X.Q. and Huynh, T.T., “Sorbent-based devices for the removal of spilled oil from water: a review,” Environmental Science and Pollution Research, Vol.28, pp.28876-28910.
2021, Ko, T.J. Cho, S., Kim S.J., Lee, Y.A., Kim, D.H., Jo, W., Kim, H.Y., Yang, S., Oh, K.H. and Moon, M.W., “Direct recovery of spilled oil using hierarchically porous oil scoop with capillary-induced anti-oil-fouling,” Journal of Hazardous Materials, Vol.410, 124549.
2020, Daling, P.S, and Sorheim, K.R., Characterization of Low Sulfur Fuel Oils (LSFO)–A New Generation of Marine Fuel Oils-OC2020 A-050, SINTEF Ocean.
2020, Pawar, S.H., Kumar, S.A., Vishu, A., Yashodhan, P. and Mayuresh, P., “Design and fabrication of oil collector,” International Journal of Progressive Research in Science and Engineering, Vol.1, No.3, pp.167-185.
2021, Hoang, A.T., Nguyen X.P., Duong, X.Q. and Huynh, T.T., “Sorbent-based devices for the removal of spilled oil from water: a review,” Environmental Science and Pollution Research, Vol.28, pp.28876-28910.
2021, Ko, T.J. Cho, S., Kim S.J., Lee, Y.A., Kim, D.H., Jo, W., Kim, H.Y., Yang, S., Oh, K.H. and Moon, M.W., “Direct recovery of spilled oil using hierarchically porous oil scoop with capillary-induced anti-oil-fouling,” Journal of Hazardous Materials, Vol.410, 124549.
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