Loading...
2 results
Search Results
Now showing 1 - 2 of 2
- Ideal pH for the adsorption of metal ions Cr 6 + , Ni 2 + , Pb 2 + in aqueous solution with di ff erent adsorbent materialsPublication . Cruz-Lopes, Luísa; Macena, Morgana; Esteves, Bruno; Guiné, RaquelIndustrialization increases the number of heavy metals released into the environment. Lead ( Pb 2 + ) , nickel ( Ni 2 + ) and chromium ( Cr 6 + ) are among these toxic metals and cause irreversible e ff ects on ecosystems and human health due to their bio - accumulative potential. The decontamination through adsorption processes using lignocellulosic wastes from agricultural and/or forestry processes is a viable solution. Hence, this work aimed at studying the e ff ect of pH on the biosorption of the metal ions using four di ff erent by - product materials: walnut shell, chestnut shell, pinewood and burnt pine - wood. These experiments were conducted with solutions of the three heavy metals in which the adsorbents were immersed to measure the rate of adsorption. A range of pH values from 3.0 to 7.5 was used in the experiments, and the concentrations were determined by atomic absorption. The results showed di ff erent behaviour of the biosorbent materials when applied to the di ff erent metals. The lead adsorption had an ideal pH in the range of 5.5 – 7.5 when the walnut shell was used as an adsor - bent, corresponding to values of adsorption greater than 90%, but for the other materials, maximum adsorption occurred for a pH of 7.5. For the adsorption of chromium, the pH was very heterogeneous with all adsorbents, with optimal values of pH varying from 3.0 ( for chestnut shell ) to 6.5 ( for walnut shell and wood ) . For nickel, the best pH range was around pH 5, with di ff erent values according to the lignocellulosic material used. These results indicate that the tested biosorbents have the potential to decon - taminate wastewater in variable extensions and that by controlling the pH of the solution; a more e ffi cient removal of the heavy metals can be achieved.
- Competitive Adsorption of Metal Ions by Lignocellulosic Materials: A Review of Applications, Mechanisms and Influencing FactorsPublication . Weber Macena, Morgana; Helena Pereira; Gonçalves Oliveira Valente da Cruz-Lopes, Luísa Paula; Lucas Grosche; Esteves, BrunoThe rapid expansion of industrial and agricultural activities in recent years has significantly contributed to water pollution leading to a decline in water quality and the need for effective treatment and reuse strategies. Metal contamination in water bodies poses severe environmental and health risks, making the development of cost-effective and sustainable remediation methods essential. Among the various treatment approaches, biosorption using biological adsorbents has emerged as a promising alternative due to its low cost and high efficiency. However, while the adsorption mechanisms of single metals are well understood, the competitive interactions between multiple metal ions during the sorption process remain less explored. In this review, we analyze the competitive biosorption of metals in multi-metallic wastewater systems. Key factors influencing metal removal, such as pH, contact time, biosorbent dosage, and initial metal concentration, are discussed, along with the intrinsic properties of biosorbents and metal ions that affect sorption efficiency. Additionally, we highlight recent studies on agroforestry byproducts as effective biosorbents for metal removal, showcasing their potential for sustainable water treatment. Heavy metals pose significant risks even at low concentrations, necessitating robust regulations and advanced treatment technologies; biomass byproducts, as cost-effective biosorbents, can be optimized through pre-treatment, activation, pH and temperature control, and particle size reduction, while effectively manage