Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 671, Issue -, Pages 1134-1143Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2019.03.437
Keywords
Poultry litter; Co-pyrolysis; Contamination; Surface functional groups
Categories
Funding
- Minas Gerais State Agency for Research and Development - FAPEMIG
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Novel phosphorus/magnesium-engineered biochars were prepared from poultry litter and tested for their Cd2+ retention capacity, unraveling the adsorption mechanisms. Batch experiments were conducted to evaluate the adsorption ability of Cd2+ by biochars and a wide range of characterization techniques were used: scanning electron microscopy with energy-dispersive X-ray spectroscopy, Fourier transform infrared spectroscopy, surface area and pore volume, and X-ray photoelectron spectroscopy. Results showed that, in general, Cd2+ removal did not drastically change with initial pH variation and was relatively fast (up to 3 h); the pseudo-second order kinetic model provided slightly better fitting to the data. Cadmium adsorption capacities of the P/Mg-engineered biochars were much higher than that of the unmodified biochar (up to 113.9 mg g(-1)), following the SIPS isotherm model. The surfaces of the biochars contain a rich variety of oxygen-containing functional groups as well as phosphate groups. Since the specific surface areas of the biochars are considered low (up to 25.19 m(2) g(-1)), surface groups contributed more to Cd2+ retention. Biochars can be represented by type II isotherms with significant type H3 hysteresis patterns, which suggest the presence of asymmetrically slit-shaped pores. Complexation and precipitation were the predominant adsorption mechanisms. Thus, P/Mg-engineered biochars produced from poultry litter are considered effective and eco-friendly adsorbents for Cd2+ removal from aqueous medium, especially PLB-H3PO4-MgO, which is produced from low-cost materials. (C) 2019 Elsevier B.V. All rights reserved.
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