Copper has been proven to have hazardous effects on human beings depending on its concentration levels. Recently, there has been a growing interest in developing geopolymers using local industrial minerals and by-products. However, research on the adsorption of heavy metals by geopolymer based on mordenite-rich tuffs is still limited. The geopolymer adsorbents have been synthesized using natural Ecuadorian zeolite-rich tuffs containing quartz, mordenite calcite and amorphous content with 20.8%, 28.5%, 4.2% and 46.4%, respectively. The geopolymers showed a maximum compressive strength of 26.86 MPa for 28 d of curing time. In the present study, an Ecuadorian zeolite-based geopolymer's removal capacity on copper ions in aqueous solutions, varying concentration and contact time were tested. Kinetic models were developed using pseudo first-order, pseudo second-order and the Elovich model. The adsorption data, using Cu
2+
concentrations from 20 to 160 ppm, at 25°C were described by the Langmuir and Freundlich isotherms. Linear coefficient of determination (
R
2
) results show that the Langmuir model fits the best. The attained adsorption capacity of 52.63 mg g
−1
demonstrates the low-cost geopolymer's effectiveness for this study and its competitiveness compared with other studies. Adsorption kinetics follows the pseudo second-order kinetics model at the lower initial concentration of Cu
2+
.
In this study the use of a natural zeolite-based geopolymer use in removal of copper from aqueous media has been presented for the first time. <div>Additionally, kinetics and isotherms of the adsorption have also been demonstrated. </div>
In this study the use of a natural zeolite-based geopolymer use in removal of copper from aqueous media has been presented for the first time. <div>Additionally, kinetics and isotherms of the adsorption have also been demonstrated. </div>
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