Enhancing Sewage Sludge Stabilization, Pathogen Removal, and Biomass Production through Indigenous Microalgae Promoting Growth: A Sustainable Approach for Sewage Sludge Treatment

Ben Hamed, Hajer; Debuigne, Antoine; Kleinjan, Hetty; Toye, Dominique; Léonard, Angélique

doi:10.3390/recycling9050097

Article (Scientific journals)

Enhancing Sewage Sludge Stabilization, Pathogen Removal, and Biomass Production through Indigenous Microalgae Promoting Growth: A Sustainable Approach for Sewage Sludge Treatment

Ben Hamed, Hajer; Debuigne, Antoine; Kleinjan, Hetty et al.

2024 • In Recycling

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/323414

DOI
10.3390/recycling9050097

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Keywords :

sewage sludge; stabilization; pathogen removal; microalgae–bacteria biomass; sludge properties; extracellular polymeric substances

Abstract :

[en] Sewage sludge (SS), a byproduct of wastewater treatment plants, poses significant environmental and health risks if not properly handled. Conventional approaches for SS stabilization often involve costly and energy-consuming processes. This study investigated the effect of promoting native microalgae growth in SS on its stabilization, pathogen bacteria removal, and valuable biomass production. The effect on settleability, filterability, and extracellular polymeric substances (EPSs) was examined as well. Experiments were conducted in photobioreactors (PBRs) without O2 supply and CO2 release under controlled parameters. The results show a significant improvement in SS stabilization, with a reduction of volatile solids (VSs) by 47.55%. Additionally, fecal coliforms and E. coli were efficiently removed by 2.25 log and 6.72 log, respectively. Moreover, Salmonella spp. was not detected after 15 days of treatment. The settleability was improved by 71.42%. However, a worsening of the sludge filterability properties was observed, likely due to a decrease in floc size following the reduction of protein content in the tightly bound EPS fraction. Microalgae biomass production was 16.56 mg/L/day, with a mean biomass of 0.35 g/L at the end of the batch treatment, representing 10.35% of the total final biomass. These findings suggest that promoting native microalgal growth in SS could be sustainable and cost-effective for SS stabilization, microalgal biomass production, and the enhancement of sludge-settling characteristics, notwithstanding potential filtration-related considerations.

Research Center/Unit :

Chemical engineering - ULiège

Disciplines :

Chemical engineering

Author, co-author :

Ben Hamed, Hajer ; Université de Liège - ULiège > Chemical engineering

Debuigne, Antoine ; Université de Liège - ULiège > Département de chimie (sciences) ; Université de Liège - ULiège > Département de chimie (sciences) > Chimie des macromolécules et des matériaux organiques (CERM)

Kleinjan, Hetty; Centre d’Expertise en Traitement et Gestion de l’eau (CEBEDEAU), Quartier Polytech 1, 4000 Liege, Belgium

Toye, Dominique ; Université de Liège - ULiège > Department of Chemical Engineering > PEPs - Products, Environment, and Processes

Léonard, Angélique ; Université de Liège - ULiège > Department of Chemical Engineering > PEPs - Products, Environment, and Processes

Language :

English

Title :

Enhancing Sewage Sludge Stabilization, Pathogen Removal, and Biomass Production through Indigenous Microalgae Promoting Growth: A Sustainable Approach for Sewage Sludge Treatment

Publication date :

12 October 2024

Journal title :

Recycling

eISSN :

2313-4321

Publisher :

MDPI AG, Switzerland

Peer reviewed :

Peer Reviewed verified by ORBi

Development Goals :

9. Industry, innovation and infrastructure

Additional URL :

https://www.mdpi.com/2313-4321/9/5/97

Funders :

F.R.S.-FNRS - Fund for Scientific Research

Funding number :

40004289

Available on ORBi :

since 15 October 2024

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