Treatment of Landfill Leachate by Electrochemical Oxidation and Anaerobic Process

Abstract

The removal performance of typical refractory organic compounds in landfill leachate was investigated during the electrochemical (EC) oxidation and anaerobic process combined treatment system in this paper. The results indicated that the treatment of landfill leachate by the combined system was highly effective. The toxicity of leachate was notably decreased after the electrochemical oxidation process and the biodegradability was improved. The concentration of the organic acid with low molecular weight in the leachate increased from 28% to 90% based on the biodegradability assays after the EC oxidation process. The anaerobic digestion could further remove the residual organic compounds. At a hydraulic retention time (HRT) of 16 hours and an organic loading rate (OLR) of 8 kg COD/m 3 d, the concentration of COD, SS, ALK, VA, N‐TKN, N‐NH 4 + and P‐PO 3 − in UASB effluent were 532, 12, 6744, 400, 540, 455 and 11.6 mg/L, respectively, with approximately 90% removal efficiency of COD. The organic compounds in the landfill leachate revealed different degradation characteristics in the combined system. p ‐chloroaniline, bisphenol A, 6‐methyl‐2‐phenyl‐quinoline, dimethylnaphthaline and N′‐(2‐methyl‐4‐chlorophenyl)‐N‐cyclohexyformamidine, classified into the first group in this paper, were completely removed by the EC oxidation and did not reappear in the effluent of the UASB reactor. Phenylacetic acid, 3‐methyl‐indole and N‐cyclohexyl‐acetamide, called the second group, were completely removed, but reappeared in the UASB reactor. 4‐methyl‐phenol, 3,4‐dihydroisoquinoline, 2(3H)‐benzothiazolone, exo‐2‐hydroxycineole and benzothiazole, the third group, were degraded little in the EC oxidation process, but extensively removed by the anaerobic process. Benzoic acid, benzenepropanoic acid and 2‐cyano‐3,5‐dimethyl‐1‐hydroxy‐pyrrole, the fourth group, concentration obviously increased in the EC process, but was completely removed in the UASB reactor. The content of volatile fatty acids (VFAs) markedly increased from 0.68% in the leachate to 16.18% in the effluent from the electrochemical oxidation process (EC effl ). In addition, the degradation rate of organic compounds from the landfill leachate was different in the EC oxidation and anaerobic process.