LAUSR.org creates dashboard-style pages of related content for over 1.5 million academic articles. Sign Up to like articles & get recommendations!

Oil removal from water surface using reusable and absorptive foams via simple fabrication of liquid natural rubber (LNR)

Photo from wikipedia

Abstract A novel macroporous and oleophilic Natural Rubber (NR) foam is prepared through a vulcanization process using methanol (CH3OH) as solvent at different compositions of crosslinking agent (Disulphur Dichloride, S2Cl2).… Click to show full abstract

Abstract A novel macroporous and oleophilic Natural Rubber (NR) foam is prepared through a vulcanization process using methanol (CH3OH) as solvent at different compositions of crosslinking agent (Disulphur Dichloride, S2Cl2). NR was firstly modified to reduce its molecular weight by photochemical oxidation method to produce Liquid Natural Rubber (LNR). This spongy-like foam made of LNR was firstly reported here, has produced interconnected open-cell structures with pore volume ranged from 1.83 mL/g to 4.28 mL/g and diameter sizes between 2.09 μm and 13.24 μm. The absorption capability of LNR-foam resembled to the cotton fiber-based sorbent where it absorbed most of oil products by up to 9.39 g/g. The porous materials reached the saturation limit within 5 min of low-viscosity oils, and 15 min for higher-viscosity oils. In a simulated oil slick system, this LNR macroporous and hydrophobic foams maintained its high oil absorption capacity in the ranged of 3.54 g/g to 9.39 g/g. About 90% of absorbed oil is being recovered and the LNR-foams are able to perform up to 20 absorption cycles which demonstrated a good reusability. Hence, this new type of natural-based modified absorbent has the potentials to be commercialized.

Keywords: oil; natural rubber; liquid natural; oil removal; rubber lnr

Journal Title: Polymer Testing
Year Published: 2019

Link to full text (if available)


Share on Social Media:                               Sign Up to like & get
recommendations!

Related content

More Information              News              Social Media              Video              Recommended



                Click one of the above tabs to view related content.