Brogaard, Line Kai-Sørensen1; Stentsøe, Steen2; Willumsen, Hans Christian3; Christensen, Thomas Højlund1
1 Department of Environmental Engineering, Technical University of Denmark2 COWI A/S3 LFG Consult
Materials and energy used for construction of a hill-type landfill of 4 million m3 were quantified in detail. The landfill is engineered with a liner and leachate collections system, as well as a gas collection and control system. Gravel and clay were the most common materials used, amounting to approximately 260 kg per tonne of waste landfilled. The environmental burdens from the extraction and manufacturing of the materials used in the landfill, as well as from the construction of the landfill, were modelled as potential environmental impacts. For example, the potential impact on global warming was 2.5 kg carbon dioxide (CO2) equivalents or 0.32 milli person equivalents per tonne of waste. The potential impacts from the use of materials and construction of the landfill are low-to-insignificant compared with data reported in the literature on impact potentials of landfills in operation. The construction of the landfill is only a significant contributor to the impact of resource depletion owing to the high use of gravel and steel.
Waste Management and Research, 2013, Vol 31, Issue 6, p. 585-598
Landfilling; Capital goods; Waste; Environmental impact assessment (EIA)