Long-term performance and operational factors of a pilot-scale bioscrubber for landfill biogas desulfurization

Landfill biogas is a renewable energy source, but its utilization is hindered by hydrogen sulfide, a corrosive and toxic compound. Anoxic biodesulfurization using nitrified landfill leachate as a sustainable nitrate source provides a cost-effective and circular strategy for H2S removal. This study i...

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Vydáno v:Journal of cleaner production Ročník 534; s. 147100
Hlavní autoři: Torres-Herrera, S., Palomares-Cortés, J., González-Cortés, J.J., Cubides-Páez, D.F., Gamisans, X., Cantero, D., Ramírez, M.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.12.2025
Témata:
Anoxic biodesulfurization
Biogas
Bioscrubber
Landfill leachate
Microbial community dynamics
Nitrification
Bioscrubber
Anoxic biodesulfurization
Biogas
Landfill leachate
Microbial community dynamics
Nitrification
ISSN:0959-6526
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Abstract Landfill biogas is a renewable energy source, but its utilization is hindered by hydrogen sulfide, a corrosive and toxic compound. Anoxic biodesulfurization using nitrified landfill leachate as a sustainable nitrate source provides a cost-effective and circular strategy for H2S removal. This study investigates the long-term performance of anoxic biodesulfurization of landfill biogas using a pilot-scale bioscrubber (1 m3) fed with nitrified landfill leachate over 61 weeks. A total volume of 264,812 m3 of biogas was treated, achieving an average H2S removal efficiency (RE) of 85.2 ± 10.1 %. Optimal performance, reaching 97 ± 3 % RE, was obtained at an inlet load of 7.71 ± 0.16 gS-H2S m−3 h−1, pH 7.98 ± 0.07, and temperature 30.58 ± 3.16 °C. The research examined the impact of key operational parameters: oxidation-reduction potential (ORP) control influenced sulfur selectivity but proved challenging to stabilize; temperature showed a strong correlation with performance, with efficiency generally declining when reactor values dropped below ∼22 °C; and pH substantially affected performance, with efficiency decreasing at more acidic values (RE below 60 %, pH below 7.5). Microbial analysis revealed a dynamic bacterial community adapting to operational conditions, with Thioalkalispira-Sulfurivermis (relative abundance above 18 %) identified as the predominant functional genus. The system demonstrated resilience to operational disturbances like recirculation pump failure and fluctuations in biogas flow rate. This study provides valuable insights into the practical application of anoxic bioscrubbers for landfill biogas biodesulfurization, highlighting controlling factors and offering a foundation for enhancing the efficiency and sustainability of biogas purification technologies under real-world constraints. [Display omitted] •Pilot anoxic bioscrubber treated 264,812 m3 real landfill biogas over 61 weeks.•H2S RE up to 97 % was achieved using a total of 2.1 m3 of nitrified leachate.•Thioalkalispira-Sulfurivermis dominated microbial community.•System demonstrated resilience to operational upsets.
AbstractList Landfill biogas is a renewable energy source, but its utilization is hindered by hydrogen sulfide, a corrosive and toxic compound. Anoxic biodesulfurization using nitrified landfill leachate as a sustainable nitrate source provides a cost-effective and circular strategy for H2S removal. This study investigates the long-term performance of anoxic biodesulfurization of landfill biogas using a pilot-scale bioscrubber (1 m3) fed with nitrified landfill leachate over 61 weeks. A total volume of 264,812 m3 of biogas was treated, achieving an average H2S removal efficiency (RE) of 85.2 ± 10.1 %. Optimal performance, reaching 97 ± 3 % RE, was obtained at an inlet load of 7.71 ± 0.16 gS-H2S m−3 h−1, pH 7.98 ± 0.07, and temperature 30.58 ± 3.16 °C. The research examined the impact of key operational parameters: oxidation-reduction potential (ORP) control influenced sulfur selectivity but proved challenging to stabilize; temperature showed a strong correlation with performance, with efficiency generally declining when reactor values dropped below ∼22 °C; and pH substantially affected performance, with efficiency decreasing at more acidic values (RE below 60 %, pH below 7.5). Microbial analysis revealed a dynamic bacterial community adapting to operational conditions, with Thioalkalispira-Sulfurivermis (relative abundance above 18 %) identified as the predominant functional genus. The system demonstrated resilience to operational disturbances like recirculation pump failure and fluctuations in biogas flow rate. This study provides valuable insights into the practical application of anoxic bioscrubbers for landfill biogas biodesulfurization, highlighting controlling factors and offering a foundation for enhancing the efficiency and sustainability of biogas purification technologies under real-world constraints. [Display omitted] •Pilot anoxic bioscrubber treated 264,812 m3 real landfill biogas over 61 weeks.•H2S RE up to 97 % was achieved using a total of 2.1 m3 of nitrified leachate.•Thioalkalispira-Sulfurivermis dominated microbial community.•System demonstrated resilience to operational upsets.
ArticleNumber 147100
Author González-Cortés, J.J.
Cantero, D.
Gamisans, X.
Ramírez, M.
Torres-Herrera, S.
Cubides-Páez, D.F.
Palomares-Cortés, J.
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Keywords Bioscrubber
Anoxic biodesulfurization
Biogas
Landfill leachate
Microbial community dynamics
Nitrification
Language English
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Snippet Landfill biogas is a renewable energy source, but its utilization is hindered by hydrogen sulfide, a corrosive and toxic compound. Anoxic biodesulfurization...
SourceID crossref
elsevier
SourceType Index Database
Publisher
StartPage 147100
SubjectTerms Anoxic biodesulfurization
Biogas
Bioscrubber
Landfill leachate
Microbial community dynamics
Nitrification
Title Long-term performance and operational factors of a pilot-scale bioscrubber for landfill biogas desulfurization
URI https://dx.doi.org/10.1016/j.jclepro.2025.147100
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