Abstract
This work aimed to evaluate three different milling conditions, seeking the optimization of CNS isolation process. The paper sludge was chemically treated with detergent and H2O2, by two steps, to remove the noncellulosic contents (hemicellulose and lignin). After these treatments, the sample was milled with the variation of a liquid medium. The three liquids milling medium were: i) dry medium (CNS-D); ii) moist with water and (CNS-W) iii) moist with ethanol (CNS-E). The CNSs were characterized by Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), scanning electron microscopy (SEM), zeta potential and dynamic light scattering (DLS). The milled samples presented different behavior, depending on the medium applied. The CNS-W presented low efficiency due to the formation of agglomerates around the ceramic ball, resulting in larger fiber sizes (microsizes). Although, the samples CNS-D and CNS-E presented similar behavior of sizes distribution, with average size 340 nm and 373 nm, respectively, determined by DLS. The CNS-E sample presented higher yield and electrostatic stability in solution, besides not presenting loss of crystallinity, as occurred with CNS-D, observed by FTIR analysis. Thus, the isolation with ethanol showed more efficient process among the three processes studied. This work achieved the isolation of CNS; besides, it proposed an environmentally friendly isolation method, and this may add value in the paper sludge. Keywords: industrial residue, cellulose nanostructures, ball mill, cellulose characterization.
Highlights
A demographic and economic expansion has demanded a greater need for natural resources around the world, and, the generation of solid waste is growing
The cellulose nanostructures (CNSs) were characterized by Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), scanning electron microscopy (SEM), zeta potential and dynamic light scattering (DLS)
The treatments were efficient in the removal of non-cellulosic components, and it was observed an increase in cellulose content (98%), compared to the virgin sample
Summary
A demographic and economic expansion has demanded a greater need for natural resources around the world, and, the generation of solid waste is growing. The high waste production is becoming a major social, economic, and environmental problem. Brazilian is the second biggest producer of cellulose in the world, and paper production in 2016 totaled 10.3 million tons [4]. This industry presents the high generation of waste during the processes. The production of one ton of paper generates about 50 kg of sludge (primary waste). One example is the chemical conversion of paper industry effluents in carboxymethyl cellulose [7]. This material can be used to obtain cellulose nanostructures (CNSs)
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