Interactions between Humic Acid and the Mineral Surface of Laterite at Different Environmental pH

Abstract: Organic compounds such as humic substances in the natural environment, especially in aquatic environments, are source of environmental problems. The stability of humic compounds in the soil is due to their adsorption on colloid surfaces through reactions with cations to form organ- mineral complexes. Many parameters such as pH, ionic strength. can affect the adsorption of humic substance on mineral surfaces. This study was initiated to investigate the use of a natural geo-material such as laterite for recovery… Show more

“…Powdered activated carbon reduced UV absorbance by 92%, showing preferential adsorption by the hydrophobic fraction (HA and FA) [54]. Under optimal conditions (90 min of stirring time, 80 g/L laterite, and pH 3.5), laterite showed the higher removal of humic acids: 97% [55]. The regeneration of the sorbents limits the application of sorption-based therapy once they are spent [19].…”

“…Physical treatments such as adsorption on powered active carbon [54] or laterite [55] resulted in the most efficient processes based on sorption with 95% and 97% UVQS removal, respectively. In comparison, osmosis was the most efficient membrane separation-based method, with 98% of UVQS elimination [56].…”

An Overview of Treatments for Ultraviolet Quenching Substances (UVQS) and Per- and Polyfluoroalkyl Substances (PFAS) Removal from Landfill Leachate

“…Powdered activated carbon reduced UV absorbance by 92%, showing preferential adsorption by the hydrophobic fraction (HA and FA) [54]. Under optimal conditions (90 min of stirring time, 80 g/L laterite, and pH 3.5), laterite showed the higher removal of humic acids: 97% [55]. The regeneration of the sorbents limits the application of sorption-based therapy once they are spent [19].…”

“…Physical treatments such as adsorption on powered active carbon [54] or laterite [55] resulted in the most efficient processes based on sorption with 95% and 97% UVQS removal, respectively. In comparison, osmosis was the most efficient membrane separation-based method, with 98% of UVQS elimination [56].…”

An Overview of Treatments for Ultraviolet Quenching Substances (UVQS) and Per- and Polyfluoroalkyl Substances (PFAS) Removal from Landfill Leachate