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NTIS 바로가기한국섬유공학회지 = Textile science and engineering, v.57 no.6, 2020년, pp.332 - 339
Kapok fibers are one of the natural cellulosic fibers obtained from the seeds of kapok trees. It has a huge hollow structure, good buoyancy, and excellent oil absorbing properties. But it is limitedly used because of its mechanical weakness and difficulty to prepare nonwoven fabrics. In this study, ...
S. J. Shin, W. K. Jung, Y. J. Sung, J. W. Lee, and S. B. Kim, "Changes in Properties of Tropical Kapok Fibers by the Pretreatments", J. Korea TAPPI, 2013, 45, 52-58.
S. I. Hong, H. D. Lee, J. Y. Shim, W. J. Seo, and B. S. Lee, "Characteristic of Kapok Fibers According to Various Pretreatment Conditions", J. Korean Soc. Dye. Finish, 2014, 26, 230-236.
K. Hori, M. E. Flavier, S. Kuga, T. B. T. Lam, and K. Liyama, "Excellent Oil Absorbent Kapok [Ceiba pentandra(L.) Gaertn.] Fiber: Fiber Structure, Chemical Characteristics and Applications", J. Wood Sci., 2000, 46, 401-404.
T. T. Lim and X. Huang, "Evaluation of Kapok as a Natural Hollow Hydrophobic-Oleophilic Fibrous Sorbent for Oil Spill Cleanup", Chemosphere, 2007, 66, 955-963.
X. Huang and T. T. Lim, "Performance and Mechanism of Hydrophobic-Oleophilic Kapok Filter for Oil/water Separation", Desalination, 2006, 190, 295-307.
Z. Sun, M. Tang, Q. Song, J. Yu, Y. Liang, J. Hu, and J. Wang, "Filtration Performance of Air Filter Paper Containing Kapok Fibers Against Oil Aerosols", Cellulose, 2018, 5, 6719-6729.
M. A. Abdullah, A. U. Rahmah, and Z. Man, "Physicochemical and Sorption Characteristics of Malaysian Ceiba Pentandra (L.) Gaertn. as a Natural Oil Sorbent", J. Hazard. Mater., 2010, 177, 683-691.
T. Dong, S. Cao, and G. Xu, "Highly Efficient and Recyclable Depth Filtrating System Using Structured Kapok Filters for Oil Removal and Recovery from Wastewater", J. Hazard. Mater., 2017, 321, 859-867.
R. S. Rengasamy, D. Das, and C. P. Karan, "Study of Oil Sorption Behavior of Filled and Structured Fiber Assemblies made from Polypropylene, Kapok and Milkweed Fibers", J. Hazard. Mater., 2011, 186, 526-542.
J. Wang, Y. Zheng, and A. Wang, "Effect of Kapok Fiber Treated with Various Solvents on Oil Absorbency", Crops and Products, 2012, 40, 178-184.
S. U. Patel and G. G. Chase, "Separation of Water Droplets from Water-in-diesel Dispersion Using Superhydrophobic Polypropylene Fibrous Membranes", Sep. Purif. Technol., 2014, 126, 62-68.
Y. H. Lee, J. S. Kim, M. S. Kim, Y. J. Jung, D. J. Lee, and H. D, Kim, "Effect of Blend Ratio of PP/kapok Blend Nonwoven Fabrics Oil Soprtion Capacity", J. Environ. Technol., 2013, 34, 3169-3175.
R. S. Rengasamy and D. Das, "Studies on Needle-punched Natural and Polypropylene Fiber Nonwovens as Oil Sorbents", J. Ind. Text., 2016, 46, 1121-1143.
S. Viju and G. Thilagavathi, "Oil Spill Cleanip by Bonded Nettle Fibrous Mat", J. Inst. Eng. (India): Series E, 2019, 100, 93-100.
G. Thilagavathi, C. P. Karan, and D. Das, "Oil Sorption and Retention Capacities of Thermally-bonded Hybrid Nonwovens Prepared from Cotton, Kapok, Milkwood and Polypropylene Fibers", J. Environ. Manag., 2018, 219, 340-349.
http://super.textopia.or.kr:8888/newsletter/180904/lib02_1.pdf (Accessed October 6, 2020).
http://super.textopia.or.kr:8888/newsletter/170516/lib0201.pdf (Accessed October 6, 2020).
https://upcommons.upc.edu/bitstream/handle/2117/110633/insulation%20materials%20-%20Celia%20Viladot-.pdf (Accessed October 6, 2020).
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