# Application of electrocoagulation process for the disposal of COD, NH3-N and turbidity from the intermediate sanitary landfill leachate

**Authors:** Aysenur Ogedey, Ensar Oguz

PMC · DOI: 10.1007/s11356-024-31937-7 · 2024-01-13

## TL;DR

This study shows that electrocoagulation effectively removes pollutants like COD, NH3-N, and turbidity from landfill leachate, with high efficiency and pseudo-first-order reaction kinetics.

## Contribution

The study evaluates electrocoagulation performance for intermediate landfill leachate treatment with detailed kinetic and cost analysis.

## Key findings

- Electrocoagulation achieved 87% COD and 62% turbidity removal at pH 5 after 40 minutes.
- NH3-N removal reached 33% at 10 mM NaCl concentration.
- Reaction kinetics followed pseudo-first-order with high R2 values (0.93–0.99).

## Abstract

This study aims to determine the COD, NH3-N and turbidity disposal efficiencies from leachate in the Bingöl landfill and highlight the electrocoagulation (EC) process’s performance in removing these pollutants. After establishing that landfill leachate was intermediate aged, its characteristics were identified using physical, chemical and elemental analyses. Six parallel-connected electrode plates with stainless steel as the cathode and aluminium as the anode were used to construct an electrocoagulation cell. After a 40-min treatment interval, the optimal disposal efficiencies for COD and turbidity from the leachate were determined to be 87% and 62%, respectively, at pH 5. Following a 40-min reaction, BOD5 concentration and BOD5/COD ratio were determined to be 85.75 mg O2/L and 0.64, respectively, at pH 5. At a NaCl concentration of 10 mM, the optimum disposal efficiency for NH3-N was determined to be 33%. The reaction kinetics matched pseudo-first-order (PFO) kinetics due to high correlation coefficients (R2 = 0.93–0.99) in removing COD, NH3-N and turbidity under different experimental conditions. The optimal reaction rate constants were determined as 2.93 × 10−2 min−1, 1.92 × 10−2 min−1 and 7.3 × 10−3 min−1 for the disposal of COD, NH3-N and turbidity, respectively. Energy consumption, unit energy consumption and total consumption cost rose in the EC process when the current density was augmented from 15 to 25 mA/cm2.

## Linked entities

- **Chemicals:** COD (PubChem CID 2724453), NaCl (PubChem CID 5234)

## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC10850227/full.md

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Source: https://tomesphere.com/paper/PMC10850227