Development of an oil-absorbent web by the dry-laid method from polypropylene and chemically treated kapok

PurposeKapok was well-known for its oleophilic properties, but its mechanical properties and morphology impeded it from forming suitable absorbent materials. This study aims to demonstrate the process of creating an oil-absorbent web from a blend of treated kapok and polypropylene fibers.Design/meth...

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Bibliographic Details
Published in:Research journal of textile and apparel 2024-01, Vol.28 (1), p.100-119
Main Authors: Dat Van Truong, Song Thanh Quynh Le, Huong Mai Bui
Format: Article
Language:English
Subjects:
Absorption
Blending
Carding machines
Cellulose fibers
Chemical treatment
Contact angle
Crude oil
Elongation
Fibers
Kerosene
Mechanical properties
Morphology
Nonwoven fabrics
Oil spills
Petroleum
Polypropylene
Raw materials
Research methodology
Tensile strength
Textile research
Vegetable oils
Waxes
Webs
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Summary:PurposeKapok was well-known for its oleophilic properties, but its mechanical properties and morphology impeded it from forming suitable absorbent materials. This study aims to demonstrate the process of creating an oil-absorbent web from a blend of treated kapok and polypropylene fibers.Design/methodology/approachKapok fibers were separated from dried fruits, then the wax was removed with an HCl solution at different concentrations. The morphological and structural changes of these fibers were investigated using scanning electron microscopy images. The blending ratios of kapok and polypropylene fibers were 60/40, 70/30 and 80/20, respectively. The fiber blends were fed to a laboratory carding machine to form a web and then consolidated using the heat press technique. The absorption behavior of the formed web was evaluated regarding oil absorption capacity and oil retention capacity according to ASTM 726.FindingsThe results showed that the HCl concentration of 1.0% (wt%) gave the highest wax removal efficiency without damaging the kapok fibers. This study found that oil absorbency is influenced by the fiber blending ratio, web tensile strength and elongation, porosity, oil type and environmental conditions. The oil-absorbency of the web can be re-used for at least 20 cycles.Research limitations/implicationsThis study only looked at three types of oils: diesel, kerosene and vegetable oils.Practical implicationsWhen the problem of oil spills in rivers and seas is growing and causing serious environmental and economic consequences, using physical methods to recover oil spills is the most effective solution.Originality/valueThis research adds to the possibility of using kapok fiber in the form of a web of non-woven fabric for practical purposes.
ISSN:1560-6074
2515-8090
DOI:10.1108/RJTA-12-2021-0145