Abstract
This study justifies the prospect of using aerial imagery from unmanned aerial vehicles (UAVs) for technological monitoring and operational control of municipal solid waste landfills. It presents the results of surveys (aerial imagery) of a number of Russian landfills, which were carried out using low-cost drones equipped with standard RGB cameras. In the processing of aerial photographs, both photogrammetric data processing algorithms (for constructing orthophotoplans of objects and 3D modeling) and procedures for thematic interpretation of photo images were used. Thematic interpretation was carried out based on lists of requirements for the operating landfills (the lists were compiled on the basis of current legislative acts). Thus, this article proposes framework guidelines for the complex technological monitoring of landfills using relatively simple means of remote control. It shows that compliance with most of the basic requirements for landfill operations, which are listed in both Russian and foreign regulation, can be controlled by unmanned aerial imagery. Thus, all of the main technological operations involving waste at landfills (placement, compaction, intermediate isolation) are able to be controlled remotely; as well as compliance with most of the design and planning requirements associated with the presence and serviceability of certain engineering systems and structures (collection systems for leachate and surface wastewater, etc.); and the state of the landfill body. Cases where the compliance with operating standards cannot be monitored remotely are also considered. It discusses the advantages of air imagery in comparison with space imagery (detail of images, operational efficiency), as well as in comparison with ground inspections (speed, personnel safety). It is shown that in many cases, interpreting the obtained aerial photographs for technological monitoring tasks does not require special image processing and can be performed visually. Based on the analysis of the available world experience, as well as the results of the study, it was concluded that unmanned aerial imagery has great potential for solving problems of waste landfill management.
Highlights
IntroductionWaste disposal technology has improved significantly in the United States (US) and Western Europe over the past half century
In the course of this research, it was found that a significant portion of the compl of landfills with the regulatory requirements that are mandatory for Russian, United States (US) an legislation can be monitored remotely—through aerial imagery from a unmanned aerial vehicles (UAVs) equi with a standard RGB camera
In the course of this research, it was found that a significant portion of the compliance of landfills with the regulatory requirements that are mandatory for Russian, US and European Union (EU)
Summary
Waste disposal technology has improved significantly in the United States (US) and Western Europe over the past half century. Waste storage in open dumps has been replaced by modern landfill disposal technology. The main provisions of a managed landfill concept have been incorporated into European Union (EU) and US legislation and, currently, most of their waste disposal sites (WDSs) operate in accordance with well-developed technological regulations under the strict supervision of state regulatory authorities [1]. This means that while the severity of the problem with the impact of WDSs on the environment has decreased, the problem of monitoring the WDS operation remains urgent
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