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Process Optimization of Electrochemical Treatment of COD and Total Nitrogen Containing Wastewater

Author

Listed:
  • Jiachao Yao

    (College of Biology and Environmental Engineering, Zhejiang Shuren University, Hangzhou 310015, China)

  • Yu Mei

    (College of Biology and Environmental Engineering, Zhejiang Shuren University, Hangzhou 310015, China)

  • Junhui Jiang

    (The Engineering Technology Center of Pollution Control in Taizhou, Taizhou 318000, China)

  • Guanghua Xia

    (College of Life Science, Taizhou University, Taizhou 318000, China)

  • Jun Chen

    (College of Biology and Environmental Engineering, Zhejiang Shuren University, Hangzhou 310015, China)

Abstract

In this work, an electrochemical method for chemical oxygen demand (COD) and total nitrogen (TN, including ammonia, nitrate, and nitrite) removal from wastewater using a divided electrolysis cell was developed, and its process optimization was investigated. This process could effectively relieve the common issue of NO 3 − /NO 2 − over-reduction or NH 4 + over-oxidation by combining cathodic NO 3 − /NO 2 − reduction with anodic COD/NH 4 + oxidation. The activity and selectivity performances toward pollutant removal of the electrode materials were investigated by electrochemical measurements and constant potential electrolysis, suggesting that Ti electrode exhibited the best NO 3 − /NO 2 − reduction and N 2 production efficiencies. In-situ Fourier transform infrared spectroscopy was used to study the in-situ electrochemical information of pollutants conversion on electrode surfaces and propose their reaction pathways. The effects of main operating parameters (i.e., initial pH value, Cl − concentration, and current density) on the removal efficiencies of COD and TN were studied. Under optimal conditions, COD and TN removal efficiencies from simulated wastewater reached 92.7% and 82.0%, respectively. Additionally, reaction kinetics were investigated to describe the COD and TN removal. Results indicated that COD removal followed pseudo-first-order model; meanwhile, TN removal followed zero-order kinetics with a presence of NH 4 + and then followed pseudo-first-order kinetics when NH 4 + was completely removed. For actual pharmaceutical wastewater treatment, 79.1% COD and 87.0% TN were removed after 120 min electrolysis; and no NH 4 + or NO 2 − was detected.

Suggested Citation

  • Jiachao Yao & Yu Mei & Junhui Jiang & Guanghua Xia & Jun Chen, 2022. "Process Optimization of Electrochemical Treatment of COD and Total Nitrogen Containing Wastewater," IJERPH, MDPI, vol. 19(2), pages 1-12, January.
  • Handle: RePEc:gam:jijerp:v:19:y:2022:i:2:p:850-:d:723565
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    Cited by:

    1. Keerthana Rani Minnalkodi Senguttuvan & Kanmani Sellappa & Saranya Kuppusamy, 2024. "Performance Evaluation of the Electro-Fenton Process for Distillery Wastewater Treatment," Sustainability, MDPI, vol. 16(15), pages 1-23, July.
    2. Hongyou Wan & Ruifeng Wang & Beibei Wang & Kehao Zhang & Huanhuan Shi & Hailong Wang, 2022. "A Case Study of Swine Wastewater Treatment via Electrochemical Oxidation by Ti 4 O 7 Anode," IJERPH, MDPI, vol. 19(21), pages 1-11, October.

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