Abstract
The management of mature landfill leachate (MLL) represents an increasingly crucial issue to tackle. In this study, the feasibility of an integrated treatment was investigated at the laboratory scale using synthetic leachate with the objective of maximizing the recovery of potentially useful compounds present in leachate (especially ammonia nitrogen). First, in order to remove heavy metals, active filtration of the MLL was carried out using zero-valent iron (ZVI) mixed with either lapillus or granular activated carbon (GAC). The average removal rates for the ZVI/lapillus and the ZVI/GAC filter were 33%, 85%, 66%, and 58% and 56%, 91%, 67%, and 75% for COD, Cu, Ni, and Zn, respectively. Then, pre-treated MLL was added during the anaerobic digestion (AD) of cellulose with the aim of providing bacteria with macro (i.e., ammonia nitrogen) and micro (e.g., residual heavy metals) nutrients. After 38 days, the best performance in terms of cumulative methane production (5.3 NL) and methane yield (0.26 NL/gVSadded on average) was recorded in the reactor fed with the lowest dosage (17.9 mL/d) of MLL pre-treated by the ZVI/lapillus filter. The main issue that emerged during AD was the possible inhibition of the process linked to an excessive presence of humic substances; however, in future experiments, this problem can be solved through an optimization of the management of the whole process. The residual digestate from AD, rich in nitrogen and humic substances, may be safely used for agriculture purposes, closing the cycle of MLL management.
Highlights
Among the potential environmental impacts arising from landfilling of waste, leachate generation constitutes a critical issue and its management is a major challenge [1]
The results, which are the average of two replicates, are summarized in Table 4 for the column tests carried out with the zero-valent iron (ZVI)/lapillus and ZVI/granular activated carbon (GAC) granular reactive media, respectively
Semicontinuous anaerobic digestion (AD) experiments revealed an early inhibition of the process, most probably linked to the presence of humic substances (HSs) in the mature landfill leachate (MLL), whereas the accumulation of NH4-N up to a toxic level did not occur
Summary
Among the potential environmental impacts arising from landfilling of waste, leachate generation constitutes a critical issue and its management is a major challenge [1]. On account of landfill age, leachate can be defined as young (10 years) [3] according to the anaerobic waste degradation processes occurring over the landfill lifespan [4]. Mature landfill leachates (MLLs) are collected from landfills when methanogenic microorganisms develop in waste and convert the readily biodegradable matter into biogas [4]. Ammonia nitrogen is the product of protein decomposition, and its concentration remains in the range of 500–2000 mg/L because no significant transformation mechanism occurs under methanogenic conditions in the landfill [5,6]. Depending on pH values, HM concentrations are lower in MLLs than in young landfill leachates because most metals are less soluble at neutral pH values [2]
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