Efficacy study of recycling materials by lemon peels as novel lead adsorbents with comparing of material form effects and possibility of continuous flow experiment.

Lead contamination in the industrial wastewater is a major concern because of human health effects, so wastewater treatment is required before uses. Adsorption is an effective method with a reasonable cost, and natural wastes are an interesting choice as low-cost adsorbent. Lemon peels were chosen with their proper chemical properties for lead removal. This study is aimed at synthesizing lemon peel adsorbents; analyzing adsorbent characterizations; investigating affecting factors on dose, contact time, pH, and concentration; examining adsorption isotherms and kinetics; and exploring desorption experiments and fixed-bed column experiments. This study was successful synthesized adsorbents of lemon peel powder (LP) and beads (LPB) and was characterized through XRD, FESEM-FIB, EDS, BET, and FTIR. The optimum conditions of LP and LPB of 50 mg L-1 lead concentration were 4 g, 6 h, and pH 5 and 3 g, 5 h, and pH 5, respectively. Both adsorbents were corresponded to Freundlich and pseudo-second-order kinetic model. Fixed-bed column experiments which represented LPB had high lead removal efficiency with the adsorption capacity of 1.67 mg g-1, and it was also a good reusability more than 2 cycles. Therefore, LPB is a potential adsorbent to possibly apply for wastewater treatment.