Abstract
Water contamination by petroleum and its byproducts presents a major challenge worldwide. It is critical that sustainable treatment methods be employed for the removal of such contaminants from polluted water. For this investigation, magnetic nano silica (M-NS) was synthesized using agricultural waste from barley husk using a two-step process that is environmentally friendly and uses green chemistry synthesis. The barley husk waste was used as a precursor for the synthesis of nano-silica following a low energy and sustainable method of acid reflux and heat treatment. Nano-silica was then used for the synthesis of M-NS, with the addition of a magnetic solution of Fe3O4 nanoparticles. The magnetic nano-silica particles were characterized using scanning electron microscopy (SEM), Fourier transform infrared (FTIR), Zeta potential analysis (ZETA) and X-Ray Diffraction (XRD). Magnetic nano-silica particles were observed to have an average diameter of 162 nm and appeared to be hydrophobic, with a large surface area of ~120 m2/gm. Due to these characteristics, magnetic nano-silica was used as an adsorbent for the removal of petrol contaminants from water. The experimental procedure showed that only 0.6 gm. of M-NS was used on 40 mg/L concentration of petroleum and the experiments recorded a high uptake efficiency of 85%. The sorption was shown to be an effective process since a high amount of petroleum was removed. The study further demonstrates that as the amount of sorbent is increased, the sorption capacity also increases until an equilibrium is reached. The results of this study establish that synthesis of M-NS, using environmentally sustainable processes, has the required characteristics to serve as sorbent for petroleum and its byproducts from contaminated water, thus enhancing environmental sustainability.
Highlights
In our environment, waste materials are generated from different sectors of society on a daily basis and one of the sectors that generate a high amount of waste is the agriculture sector
The results of this study establish that synthesis of magnetic nano silica (M-NS), using environmentally sustainable processes, has the required characteristics to serve as sorbent for petroleum and its byproducts from contaminated water, enhancing environmental sustainability
We show a sustainable transformation of barley husk waste into magnetic nano silica and its application for the removal of petroleum from water, which is applicable to other long-chain hydrocarbon products, resulting in an environmentally sustainable outcome
Summary
Waste materials are generated from different sectors of society on a daily basis and one of the sectors that generate a high amount of waste is the agriculture sector. In Mediterranean areas like North Cyprus, where agriculture is a very large part of everyday life, there is a very high rate of the generation of barley waste, linked to a high rate of cultivation. In addition to high energy demand, the process produces large amounts of CO2 gas [10,11,12,13] It was shown by Chen et al, 2016 [14], that nano-silica is a very good sorbent for the removal of oily contaminants from water. We show a sustainable transformation of barley husk waste into magnetic nano silica and its application for the removal of petroleum from water, which is applicable to other long-chain hydrocarbon products, resulting in an environmentally sustainable outcome. The magnetization of the nanoparticles was measured at 300 K as a function of a magnetic field
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