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Quantification of Emission Potential of Landfill Waste Bodies using a Stochastic Leaching Framework
  • Timo Jaakko Heimovaara,
  • Liang Wang
Timo Jaakko Heimovaara
Delft University of Technology

Corresponding Author:[email protected]

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Liang Wang
Delft University of Technology
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Abstract

Landfills require extensive aftercare to safeguard human health and the environment. This involves monitoring emissions like leachate and gas, maintaining cover layers, and managing leachate and gas collection systems. Researchers have explored methods to conclude or extend aftercare. Experimental programs in the Netherlands are testing stabilization techniques for landfill waste bodies. Quantifying emission potential, a key concept integrating various processes influencing emissions, is essential for managing and predicting landfill impacts. In this study we developed a stochastic travel time model based on water life expectancies. The model is used to predict leachate production rates and leachate chloride concentrations from landfill waste bodies. We present new data for long-term time series of leachate production and leachate quality for four different waste bodies in the Netherlands. Unknown parameters are quantified by matching model output to measured time series using Bayesian inference. Once parameter distributions have been obtained, we are able to describe the measured long-term leachate dynamics. By analyzing the parameters and evolution of model states, we obtain a deeper understanding of the water and mass balance of the waste bodies. We demonstrate that the model can be used to quantify the emission potential and the estimated values of total mass match data quantified by sampling from the waste body. The results confirm that emissions with leachate are dominated by preferential flow infiltrating from the cover layer. Similar results have been obtained by applying the model to datasets from four different waste bodies, demonstrating that the approach is generally applicable.
11 Jul 2024Submitted to ESS Open Archive
11 Jul 2024Published in ESS Open Archive