Biosorption removal of benzene and toluene by three dried macroalgae at different ionic strength and temperatures: Algae biochemical composition and kinetics

Release of low−molecular aromatic hydrocarbons (HC) into natural waters brings severe consequences to our environment. Unfortunately very limited information is available regarding the treatment of these pollutants. This work evaluated the use of brown, green and red macroalgae biomass as biosorbents of benzene and toluene, two of the most soluble HC. Raw seaweed biomasses were completely characterized, then evaluated under different temperatures and ionic strengths to assess their potential as biosorbents and to elucidate the biosorption mechanisms involved. Brown macroalgae registered the highest removal capacities for benzene and toluene (112 and 28 mg·g−1, respectively), and these were not affected at ionic strength < 0.6 M. Langmuir and Sips isotherm equations well described biosorption data, and the pseudo-second order model provided the best fit to the kinetics rate. Hydrocarbons are adsorbed onto the diverse chemical components of the cell wall by London forces and hydrophobic interactions. © 2017 Elsevier Ltd

Biosorption; Ionic strength; Macroalgae; Soluble-hydrocarbons benzene; hydrocarbon; toluene; toluene; water pollutant; benzene; biochemical composition; biomass; hydrocarbon; macroalga; numerical model; pollutant removal; reaction kinetics; seaweed; sorption; temperature effect; Acanthophura spicifera; acid dissociation constant; adsorption kinetics; Article; ash; biochemical composition; biomass; biosorption; hydrophobicity; infrared spectroscopy; ionic strength; kinetics; macroalga; Macrocystis; Macrocystis pyrifera; molecular interaction; nonhuman; potentiometry; red alga; seaweed; surface charge; temperature sensitivity; Ulva; Ulva expansa; waste component removal; water pollution; adsorption; chemistry; osmolarity; pH; temperature; water pollutant; England; London [England]; United Kingdom; algae; Adsorption; Benzene; Biomass; Hydrogen-Ion Concentration; Kinetics; Osmolar Concentration; Seaweed; Temperature; Toluene; Water Pollutants, Chemical

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