Abstract
Purification of leachates is currently a big challenge due to their high variability in composition and amount. The complexity of the medium, namely leachates, makes new solutions highly sought after and finds the existing ones in need of optimization. The effects of ultrasound pretreatment (20 kHz, 12 µm) on biological treatment of landfill leachates in the form of processes carried out in two sequencing batch reactors were investigated. The experiment was divided into two stages. In the first stage, leachate was treated by an ultrasonic field at different sonication times (0.5, 1, 3, 5, 10 and 15 min). Next, leachates with and without conditioning were combined with municipal wastewater in the following ratios: 5, 10, 15 and 25% v/v. For optimal processing time (3 min), 16% removal of COD was achieved. In turn, the BOD5/COD ratio was 0.3, which is higher by approximately 270% than that of the non-conditioned sample. Further elongation of sonication time did not significantly affect both parameters. Also, pretreatment of leachate resulted in a maximum increase noted in the study of specific oxygen uptake rate and dehydrogenase activity of approximately 21 and 2 times compared to the non-conditioned sample. The implementation of a pretreatment step prior to the biological treatment was shown to result in higher pollutant removal efficiency. Depending on the share of leachates in the mixture, the removal enhancements of BOD, COD, and ammonium nitrogen for conditioned samples ranged from 6–48.5%, 4–48% and 11–42%, respectively. Furthermore, pretreatment of leachate allows for an increased (by up to 20%) share of leachate volume in the influent stream entering the reactor, while maintaining the quality of effluents in accordance with national regulation requirements. However, in scenarios without pretreatment, the leachate ratio cannot exceed 5% of the total wastewater due to poor quality of the effluents. The operational cost of ultrasound pretreatment of leachate was 22.58 €/(m3·g removed COD).
Highlights
The generation of landfill leachate poses a serious environmental problem associated with the disposal of municipal solid waste
The study revealed that sonication of landfill leachates increased leachate biodegradability and reduced its toxicity to microorganisms of the activated sludge and reduces the risk of negative impact on the condition of conventional activated sludge (CAS)
It was observed that the pH value of the leachate decreased from 8.3 to 6.4 with prolongation of sonication time
Summary
The generation of landfill leachate poses a serious environmental problem associated with the disposal of municipal solid waste Many factors determine their composition and amount, some of them being: (a) the type and amount of waste deposited and the degree of their grinding; (b) climate conditions; (c) age of the landfill; (d) storing technology, and the degree of waste compaction as well as the method of sealing the landfill; (e) humidity of waste; (f) volume of precipitation infiltrating through the bed; (g) geomorphology and topography of the area where the landfill is located; (h) the lifetime of the landfill and (i) reclamation and the type of vegetation covering the top of the landfill after its shutdown [1,2,3,4]. There are several known methods of leachate treatment that incorporate incorporate various physical,and chemical, andprocesses biological[7].
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