Litcius/Paper detail

Transformation of Fe–P Complexes in Bioreactors and P Recovery from Sludge: Investigation by XANES Spectroscopy

Ruo‐hong Li, Jinli Cui, Jia-hui Hu, Wei-jun Wang, Bing Li, Xiangdong Li, Xiang-dong Li, Xiao-yan Li, Xiao-yan Li

2020Environmental Science & Technology51 citationsDOIOpen Access PDF

Abstract

The transformation of Fe–P complexes in bioreactors can be important for phosphorus (P) recovery from sludge. In this research, X-ray absorption near-edge structure analysis was conducted to quantify the transformation of Fe and P species in the sludge of different aging periods and in the subsequent acidogenic cofermentation for P recovery. P was readily removed from wastewater by Fe-facilitated coprecipitation and adsorption and could be extracted and recovered from sludge via acidogenic cofermentation and microbial iron reduction with food waste. The fresh Fe-based sludge mainly contained fresh ferrihydrite and amorphous FePO 4 with sufficient accessible surface area, which was favorable for Fe–P mobilization and dissolution via microbial reaction. Ferric iron dosed into wastewater underwent rapid hydrolysis, clustering, aggregation, and slow crystallization to form hydrous iron oxides (HFO) with various complicated structures. With the aging of sludge in bioreactors, the HFO densified into phases with much reduced surface area and reactivity (e.g., goethite), which greatly increased the difficulty of P release and recovery. Thus, aging of P-containing sludge should be minimized in wastewater treatment systems for the purpose of P recovery.

Topics & Concepts

FerrihydriteChemistryGoethiteBioreactorDissolutionWastewaterXANESAcidogenesisHydrolysisAdsorptionNuclear chemistryEnvironmental chemistryWaste managementAnaerobic digestionOrganic chemistryMethaneSpectroscopyEngineeringPhysicsQuantum mechanicsPhosphorus and nutrient managementAdsorption and biosorption for pollutant removalChromium effects and bioremediation