2019
DOI: 10.3390/w11091849
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Treatment of a Mature Landfill Leachate: Comparison between Homogeneous and Heterogeneous Photo-Fenton with Different Pretreatments

Abstract: This study focuses on the treatment of a mature landfill leachate by coagulation and photo-Fenton at different conditions. Optimal coagulation is carried out with ferric chloride in acid conditions; and with alum in near-neutral conditions, to minimize the use of sulphuric acid for pH adjustment (1 g/L vs. 7.2 g/L), the generation of sludge and the increase of conductivity in the final effluent. In both cases, a similar chemical oxygen demand (COD) removal is obtained, higher than 65%, which is high enough for… Show more

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Cited by 64 publications
(49 citation statements)
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References 61 publications
(87 reference statements)
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“…At lower pH values, the efficiency of coagulation in terms of COD removal increased, as it has previously been reported by other authors [34,39]. In particular, it is well-known that the COD of LLROC will be reduced by decreasing the pH in the medium [45] due to the precipitation of humic acids [41,46]. Unfortunately, the high alkalinity of the sampled LLROC (44,125 mg L −1 CaCO 3 , Table 1) required the addition of a relatively large quantity of sulfuric acid, namely: 16, 23, and 24.5 g L −1 of H 2 SO 4 , to reduce the pH from its initial value of 8.13 (Table 1) to 7.0, 6.0, and 5.0, respectively, before performing the coagulation treatment.…”
Section: Coagulation Pretreatment Effect Of Ph and Coagulant Dosagesupporting
confidence: 75%
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“…At lower pH values, the efficiency of coagulation in terms of COD removal increased, as it has previously been reported by other authors [34,39]. In particular, it is well-known that the COD of LLROC will be reduced by decreasing the pH in the medium [45] due to the precipitation of humic acids [41,46]. Unfortunately, the high alkalinity of the sampled LLROC (44,125 mg L −1 CaCO 3 , Table 1) required the addition of a relatively large quantity of sulfuric acid, namely: 16, 23, and 24.5 g L −1 of H 2 SO 4 , to reduce the pH from its initial value of 8.13 (Table 1) to 7.0, 6.0, and 5.0, respectively, before performing the coagulation treatment.…”
Section: Coagulation Pretreatment Effect Of Ph and Coagulant Dosagesupporting
confidence: 75%
“…Coagulation with ferric chloride achieved COD removals of 43% at the natural pH value of the LLROC (8.13; Table 1); 78% at pH = 7.0; 76% at pH = 6.0; and 71% at pH = 5.0; respectively (Figure 1). In addition, whereas a 30 g L −1 dose of FeCl 3 were required to optimize coagulation at pH values at or above 7.0, only 5 g L −1 was required at the acidic pH values (i.e., 5.0 and 6.0) because the optimum pH for coagulation with FeCl 3 is about 4-5 [41], and the addition of FeCl 3 produces a significant reduction of pH with the subsequent precipitation of humic acids. In short, decreasing the initial pH value of LLROC to acid values not only favored a higher coagulation efficiency, but it also significantly reduced the optimum coagulant dose to one-sixth of that required at neutral and basic pH values, which results in a significantly lower treatment cost and reduces chloride content.…”
Section: Coagulation Pretreatment Effect Of Ph and Coagulant Dosagementioning
confidence: 99%
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