Abstract
In recent years, studies on the more efficient use of natural materials in adsorption processes have increased significantly. Thus, obtaining new adsorbents from marine algae biomass with higher adsorptive performance will ensure a better use of these renewable resources. In this study, the adsorption of Cu(II) ions from aqueous solution was done using three types of adsorbent materials obtained from marine red algae biomass (Callithamnion corymbosum sp.), namely: alginate (Alg), algae waste biomass resulted after alginate extraction (AWB) and iron nanoparticles functionalized with alginate (Fe-NPs-Alg), compared to raw marine red algae biomass (RAB). FTIR spectra and SEM images recorded for each type of adsorbent indicate a porous structure and the presence of various superficial functional groups who may be involved in the retention of Cu(II) ions. The biosorption experiments were performed in a batch system, at different initial Cu(II) ion concentrations and contact times, maintaining a constant initial solution pH (4.4), adsorbent dose (2.0 g/L), and temperature (25 ± 1 °C). The obtained results indicate that the retention of Cu(II) ions requires a maximum of 60 min to reach equilibrium, and the maximum adsorption capacity increases in order: RAB (47.62 mg/g) < Fe-NPs-Alg (52.63 mg/g) < AWB (83.33 mg/g) < Alg (166.66 mg/g). The quantitative removal of Cu(II) ions from aqueous effluents can be done in two successive adsorption stages, using AWB (in the first stage) and Fe-NPs-Alg (in the second stage), when the treated solution has a Cu(II) ions concentration below the maximum permissible limit. The quantitative recovery of retained Cu(II) ions (over 97%) can be done by treating these exhausted adsorbent materials with 0.1 N HNO3 solution. Therefore, the extraction of alginate from marine red algae biomass could be a viable solution to obtain efficient adsorbent materials for Cu(II) ions removal from aqueous media, and allow for a better valorisation of marine red algae biomass.
Highlights
One of the major environmental issues around the world is heavy metal pollution
Ions from aqueous effluents can be done in two successive adsorption stages, using algae waste biomass (AWB) and Fe-NPs-Alg, when the treated solution has a Cu(II) ions concentration below the maximum permissible limit
It is well known that the performances of an adsorbent material in the adsorption processes of heavy metal ions from aqueous solution depend by its structural characteristics [35,36]
Summary
One of the major environmental issues around the world is heavy metal pollution. The presence of heavy metal ions in water resources has become an important factor in degrading the quality of ecosystems globally, especially as they are toxic, persistent, and have a strong tendency to accumulate [1].Industrial activities are considered the main sources of environmental pollution with heavy metalWater 2020, 12, 372; doi:10.3390/w12020372 www.mdpi.com/journal/waterWater 2020, 12, 372 ions. One of the major environmental issues around the world is heavy metal pollution. The presence of heavy metal ions in water resources has become an important factor in degrading the quality of ecosystems globally, especially as they are toxic, persistent, and have a strong tendency to accumulate [1]. Industrial activities are considered the main sources of environmental pollution with heavy metal. Different industrial sectors, such as metallurgy, mining, electroplating, coating, fertilizers manufacturing, etc., [2,3,4] generate an important amount of effluents that contain huge amounts of heavy metals ions, and whose discharge without proper treatment is a threat to the quality of the environment. It is necessary to find suitable methods that are environmentally friendly and remove heavy metal ions more efficiently and cheaply [5]
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