Litcius/Paper detail

Biogeochemical versus Conventional Landfill Soil Covers: Analysis of Gas Flow Profiles, Microbial Communities, and Mineralogy

Jyoti K. Chetri, Krishna R. Reddy, Dennis G. Grubb, Stefan J. Green

2022Journal of Hazardous Toxic and Radioactive Waste21 citationsDOI

Abstract

In this study, a novel biogeochemical cover system comprising biochar-amended soil and basic oxygen furnace (BOF) steel slag was explored as a sustainable alternative cover system to mitigate methane (CH4), carbon dioxide (CO2), and hydrogen sulfide (H2S) simultaneously from landfill gas (LFG). Long-term column studies of a simulated biogeochemical cover (BGCC) profile investigated CH4, CO2, and H2S removal potential. The performance of the BGCC system was compared with a conventional soil cover (SC) profile. The CH4 oxidation rates of biochar-amended soil were significantly higher, ranging from 185 to 407 µg CH4/g-day in comparison with the barrier soil in the SC system (6–7.5 µg CH4/g-day), based on the batch incubation of column-exhumed samples. In addition, the biochar-amended soil showed higher relative abundance of methanotrophic bacterial communities (20%–51%) in comparison with soil cover (10%–27%). In both columns, complete attenuation of H2S occurred near the inlet (75 cm bgs) and sulfur oxidizing bacteria (e.g., Thiobacillus) and methanotrophs were both detected. The sulfur content was elevated (0.68%) at the base of both columns and H2S may have imparted an inhibitory effect on CH4 oxidation rate in the SC system. The BOF slag showed a CO2 removal potential of 67 g CO2/kg BOF slag. Overall, the BGCC system outperformed the SC system, effectively mitigating CH4, CO2, and H2S simultaneously.

Topics & Concepts

BiocharBiogeochemical cycleSulfurEnvironmental chemistryAnaerobic oxidation of methaneMethaneHydrogen sulfideSlag (welding)Basic oxygen steelmakingChemistryEnvironmental scienceCarbon dioxideMetallurgyMaterials scienceSteelmakingPyrolysisOrganic chemistryLandfill Environmental Impact StudiesCO2 Sequestration and Geologic InteractionsGroundwater flow and contamination studies
Biogeochemical versus Conventional Landfill Soil Covers: Analysis of Gas Flow Profiles, Microbial Communities, and Mineralogy | Litcius