Evaluation of Potential Methane Generation in the Investigation of an Abandoned Contaminated Landfill in Santiago, Chile

The influence of fly ash particle size on methane production and anaerobic biodegradability was evaluated. Assays with different fly ash particle sizes (0.8-2.36mm) at a concentration of 50mg/L were ran under mesophilic conditions. In anaerobic processes operating with fly ash, greater removal of both volatile total and suspended solids, chemical oxygen demand (total and soluble) was achieved, with an increase of methane production between 28% and 96% compared to the control reactors. The highest increase occurred at ash particles sizes of 1.0-1.4mm. The metal concentrations in the digestates obtained after anaerobic digestion of sewage sludge are far below those considered as limiting for the use of sludge in soils.

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Increase in biogas production in anaerobic sludge digestion by combining aerobic hydrolysis and addition of metallic wastes

Montalvo

Vielma

Borja

et al. 2018

Renewable Energy

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The objective of this work was to determine the effect of a controlled micro-aeration as a pretreatment or hydrolytic stage of mixed sewage sludge and the incorporation of solid wastes as a source of trace metals in the anaerobic digestion of this pretreated sludge. Three experimental runs were carried out under the same conditions in laboratory-scale anaerobic reactors, to which a previously aerated mixed sludge was added as a substrate and anaerobic sludge as the inoculum. Two anaerobic digesters (blank) were also operated without aerobic pretreatment and without the addition of solid wastes. The aerobic pretreatment was performed with an aeration flow of 0.35 vvm, time of 48 hours and temperature of 35 °C. All anaerobic reactors were operated at the mesophilic temperature 2 of 35 ± 2 °C. Fly ash or Copper mining residues were added to the anaerobic reactors as trace metal supplementation. The aggregated concentrations were 250 mg.L-1 fly ash, 25 mg.L-1 Copper mining residues and 0 mg/L. The blank reactors produced 38% less methane than those generated in the reactors operating with the pre-aerobic treatment without addition of solid wastes (controls). It was found that the reactors with micro-aerobic pretreated sludge and the addition of fly ash gave the best yields of methane, producing a 201.6% increase in methane with respect to the blank reactors. On the other hand, the pretreatment of micro-aerobic hydrolysis and the addition of mining residues generated an increase of 185.8% in methane production compared to the blank reactors.

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Evaluation of Potential Methane Generation in the Investigation of an Abandoned Contaminated Landfill in Santiago, Chile

Cited by 5 publications

References 24 publications

Review and future perspectives on soil and groundwater inorganic contamination by non-sanitary landfills in Latin America

Review and future perspectives on soil and groundwater inorganic contamination by non-sanitary landfills in Latin America

Use of solid residue from thermal power plant (fly ash) for enhancing sewage sludge anaerobic digestion: Influence of fly ash particle size

Increase in biogas production in anaerobic sludge digestion by combining aerobic hydrolysis and addition of metallic wastes

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