Na-A zeolite (Z-Cl) was synthesized from coal fly ash, which is a byproduct of coal combustion for the generation of electricity. The adsorption of Cu2+ and Zn2+ions onto Z-C1 was investigated via batch tests over a range of temperatures (303.15 to 323.15 K). The resultant experimental equilibrium data were compared to theoretical values calculated using model equations. With these results, the kinetics and equilibrium parameters of adsorption were calculated using Lagergren and Langmuir-Freundlich models. The adsorption kinetics revealed that the pseudo second-order kinetic mechanism is predominant. The maximum adsorption capacity (qmax) values were 139.0-197.9 mg Zn2+/g and 75.0-105.1 mg Cu2+/g. Calculation of the thermodynamic properties revealed that the absorption reactions for both Cu2+and Zn2+ were spontaneous and endothermic. Collectively, these results suggest that the synthesized zeolite, Z-C1, can potentially be used as an adsorbent for metal ion recovery during the treatment of industrial wastewater at high temperatures.

Abstract
 1. Introduction
 2. Materials and methods
  2.1. Adsorbents
  2.2. Heavy metals
  2.3. Characterization
  2.4. Adsorption experiments
 3. Results and discussion
  3.1. Characterization of adsorbents
  3.2. Adsorption kinetics
  3.3. Adsorption isotherms
  3.4. Thermodynamic parameters
 4. Conclusions
 References

• Chang-Han Lee(College of Applied Sciences, Catholic University)
• Matthew Stanley Ambrosia(College of Applied Sciences, Catholic University) Corresponding author