Litcius/Paper detail

Ammonium-based bioleaching of toxic metals from sewage sludge in a continuous bioreactor

Zhiyao Wang, Xi Lu, Xueqin Zhang, Zhiguo Yuan, Min Zheng, Shihu Hu

2024Water Research19 citationsDOIOpen Access PDF

Abstract

The broader reuse of sewage sludge as a soil fertilizer or conditioner is impeded by the presence of toxic metals. Bioleaching, a process that leverages microbial metabolisms and metabolites for metal extraction, is viewed as an economically and environmentally feasible approach for metal removal. This study presents an innovative bioleaching process based on microbial oxidation of ammonia released from sludge hydrolysis, mediated by a novel acid tolerant ammonia-oxidizing bacteria (AOB), Ca. Nitrosoglobus. Over a span of 1024 days, a laboratory-scale bioleaching reactor processing anaerobically digested (AD) sludge achieved an in-situ pH of 2.5 ± 0.3. This acidic environment facilitated efficient leaching of toxic metals from AD sludge, upgrading its quality from Grade C to Grade A (qualified for unrestricted use), according to both stabilization and contaminants criteria. The improved quality of AD sludge could potentially reduce sludge disposal expenses and enable a broader reuse of biosolids. Furthermore, this study revealed a pH-dependent total ammonia affinity of Ca. Nitrosoglobus, with a higher affinity constant at pH 3.5 (67.3 ± 20.7 mg N/L) compared to pH 4.5-7.5 (7.6 - 9.6 mg N/L). This finding indicates that by optimizing ammonium concentrations, the efficiency of this novel ammonium-based bioleaching process could be significantly increased.

Topics & Concepts

BioleachingBioreactorWaste managementSewage sludgeHeavy metalsSewageChemistryEnvironmental sciencePulp and paper industryEnvironmental chemistryEngineeringOrganic chemistryCopperMetal Extraction and BioleachingExtraction and Separation ProcessesMinerals Flotation and Separation Techniques
Ammonium-based bioleaching of toxic metals from sewage sludge in a continuous bioreactor | Litcius