Abstract
Olive cake obtained as a by-product from the olive oil industry has been evaluated as biosorbent of heavy metals from aqueous solutions in batch and continuous systems (fixed-bed columns). First, a complete study of effect of hydrothermal treatment with water on biosorption capacity of resulting solid was performed. Results showed that the values of biosorption capacity increased when the particle size of material decreased and the temperature of treatment increased. Then, hydrolyzed olive cake was treated by common chemicals (hot water, nitric acid, and sodium hydroxide) and the impact of chemical treatment was analyzed. The results were well reproduced by Langmuir and Freundlich isotherm models, getting maximum experimental biosorption capacities that changed between 42.34 mg/g obtained for the solid material modified by NaOH and 14.27 mg/g obtained for the solid material modified by nitric acid. Finally, laboratory tests in fixed-bed columns were performed with four different heavy metals and at three different inlet concentrations. The biosorption capacity increased from 2.83 mg/g (Cr), 4.51 mg/g (Cu), 12.30 mg/g (Pb), and 4.10 mg/g (Zn) to 3.08 mg/g (Cr), 5.17 mg/g (Cu), 13.21 mg/g (Pb), and 5.51 mg/g (Zn) when the concentration of metal ions increased, from 50 mg/L to 200 mg/L, respectively. Also, the experimental data obtained was successfully correlated with the Thomas, Yoon–Nelson, and dose–response models.
Highlights
The continuous historical expansion of olive cultivation has marked the landscape, economy, and culture of Spain
Olive oil is especially important in Andalusia region
The objective of this work was to provide knowledge about the recovering of metals from aqueous solutions by solid materials resulting from hydrothermal treatment with water, at very soft operational conditions, of olive cake
Summary
The continuous historical expansion of olive cultivation has marked the landscape, economy, and culture of Spain. Olive oil is especially important in Andalusia region. In the 2018/2019 campaign, global olive oil production is expected to exceed 3 million tons. In Spain, an increase in olive oil production is estimated to be 23.3% compared to last year. Andalusia will be the main producing region, with production forecasts of 86% of all olive oil nationwide and 44% globally. The area of olive for mill has experimented a progressive increase in recent years (93,600 ha in 10 years), currently exceeding
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