Utilization of KOH-modified fly ash for elimination from aqueous solutions of potentially toxic metal ions

Long-term accumulation of toxic heavy metals in the environment was a potential hidden danger. High energy consumption, complicated operation and low adsorption capacity were the disadvantages of most current adsorbents. This study used one-step modification of fly ash (FA) by low-temperature melting method with KOH as the activator to generate modified fly ash (KFA) with high adsorption capacity to remove heavy metals from aqueous solutions. Various characterization results revealed a destruction that occurred on the surface structure of adsorbent, 12 times increase in specific surface area, and metal ions were successfully adsorbed onto KFA surface. Furthermore, adsorption proceeded most favorably at pH of 5, the presence of ionic strength and co-existing cations significantly influenced the adsorption effects. The description of adsorption data was more suitable by pseudo-second-order kinetics and Langmuir isotherm models. And in single system at 25 degrees C, for Pb(II), Cu(II), and Cd (II), the q(m) were 337.41, 310.09 and 125.00 mgmiddotg(-1). However, in ternary system, the q(m) decreased for all three ions in the order Pb(II) > Cu(II) > Cd(II), which was different from the law in single system, and the Pb(II) adsorption was found to have a significant inhibited effect on adsorption of Cd(II) and Cu(II). The adsorption mechanisms including ion exchange, electrostatic attraction and complexation were revealed. And by exploring the bioaccessibility of absorbed heavy metals in four simulated digestive fluids, it was found that KFA could load heavy metal ions and enable their release in organisms and other aquatic environments, which provided the possibility for subsequent related studies. Therefore, KFA with low energy consumption and high adsorption capacity is equipped a prospective development space on removing heavy metals from wastewater.

Automated summary

This study used one-step modification of fly ash to generate modified fly ash with high adsorption capacity for removing heavy metals from aqueous solutions. The modified fly ash showed a destroyed surface structure, 12 times increase in specific surface area, and successful adsorption of metal ions. The adsorption effects were influenced by pH, ionic strength, and co-existing cations. The adsorption mechanisms were ion exchange, electrostatic attraction, and complexation. The modified fly ash also showed the ability to release absorbed heavy metal ions in organisms and aquatic environments.