Abstract
The monitoring of waste disposal sites is important in order to minimize leakages of biogas, produced by anaerobic digestion and potentially explosive and detrimental to the environment. In this research, thermal imaging from unmanned aerial vehicles (UAVs) has been proposed as a diagnostic tool to monitor urban landfills. Since the anaerobic decomposition produces heat along with biogas, thermal anomalies recorded over the soil are likely to be associated with local biogas escaping from the landfill terrain and leaving a local thermal print. A simple and novel approach, based only on the processing of thermal maps gathered by the remote sensing surveys, has been proposed for the estimation of the fugitive methane emissions from landfills. Two case studies, concerning two Italian landfills, have been presented. For one of them (Mount Scarpino, Genoa), significant thermal anomalies were identified during several UAV flights and the relevant thermal images processed to obtain a rough estimation of the associated methane leakages. For the second landfill (Scala Erre, Sassari), the thermal map did not reveal any anomaly attributable to local biogas emission. Despite some limitations outlined in the paper, the present approach is proposed as an innovative method to identify significant biogas leakages from an urban landfill and to provide a preliminary evaluation of the methane production potential.
Highlights
The recent urbanization and industrialization of towns have led to a progressive increase in the number of municipal solid waste (MSW) disposals
As outlined in the review paper by Mønster et al [11], the unmanned aerial vehicles (UAVs)-based infrared survey of waste disposal sites has the great advantage to be rapid and simple to deploy in the field, and relatively inexpensive
Thermal infrared inspection assisted by UAV aerial survey has been proposed as a diagnostic tool for the monitoring of urban landfills
Summary
The recent urbanization and industrialization of towns have led to a progressive increase in the number of municipal solid waste (MSW) disposals. The degradation of landfilled organic waste inevitably generates biogas, mainly methane and carbon dioxide. Landfill biogas continues to form until the majority of the organic material has been degraded, which can take several decades. Since methane is a potent greenhouse gas, its emission from landfills contributes to climate change; on the other hand, biogas leakages impact on the surrounding environment (risks of fire or explosions, detrimental effects on human health and vegetation). For these reasons, uncontrolled biogas emissions have to be detected and controlled
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