Nickel ions abatement from aqueous solutions and shipbuilding industry wastewater using ZIF-8-chicken beak hydroxyapatite

In this work, a biocompatible material from chicken beak containing hydroxyapatite (HApB) was modified by the zeolitic imidazolate framework-8 (ZIF-8) compound and used in the Ni2+ abatement from aqueous solutions. Different experimental techniques were used to investigate the properties of adsorbents (HApB and HApB/ZIF-8). The active surface values of ZIF-8, HApB, and HApB/ZIF-8 were determined to be 1063.6, 12.2, and 267.2 m(2).g(-1) , respectively. The synthesized adsorbents had a crystalline structure. Maximum Ni2+ adsorption using HApB (98.82%) and HApB/ZIF-8 (99.12%) was recorded at pH7, Ni2+ quantity of 10 mg.L-1, sorbent mass of 2 and 1 g.L-1, and treatment time of 80 and 40 min, respectively. The kinetic data followed a pseudo-first-order kinetic equation. The intra-particle diffusion equation revealed that penetration through water film and diffusion into particles are effective in Ni absorption. The solid-adsorbent equilibrium using HApB/ZIF-8 followed the Freundlich equation. The maximum decontamination capacity using HApB and HApB/ZIF-8 was determined 24.27 and 63.49 mg.g(-1), respectively. Changes in thermodynamic factors showed that the Ni absorption is optimal, exothermic, and spontaneous. The adsorbents were recycled up to 5 cycles and the main adsorbent (HApB/ZIF-8) had a severe efficiency drop in cycles 4 and 5. Investigation of industrial wastewater treatment showed that the desired adsorbents have a nice potential to decontaminate metal ions from aqueous media and wastewater of shipbuilding industries. (C) 2022 Elsevier B.V. All rights reserved.

Automated summary

A novel adsorbent HApB/ZIF-8 was successfully prepared by modifying the biocompatible material HApB from chicken beak with the compound ZIF-8, and it was utilized for the removal of Ni2+ from aqueous solutions. The HApB/ZIF-8 adsorbent exhibited high adsorption capacity and purification efficiency under specific conditions, indicating its potential application in shipbuilding industry wastewater treatment.