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Combination of Coagulation–Flocculation–Decantation and Ozonation Processes for Winery Wastewater Treatment

Author

Listed:
  • Nuno Jorge

    (Escuela Internacional de Doctorado (EIDO), Campus da Auga, Campus Universitário de Ourense, Universidade de Vigo, 32004 Ourense, Spain
    Centro de Química de Vila Real (CQVR), Departamento de Química, Universidade de Trás-os-Montes e Alto Douro (UTAD), Quinta de Prados, 5000-801 Vila Real, Portugal)

  • Ana R. Teixeira

    (Centro de Química de Vila Real (CQVR), Departamento de Química, Universidade de Trás-os-Montes e Alto Douro (UTAD), Quinta de Prados, 5000-801 Vila Real, Portugal)

  • Carlos C. Matos

    (Centro de Química de Vila Real (CQVR), Departamento de Química, Universidade de Trás-os-Montes e Alto Douro (UTAD), Quinta de Prados, 5000-801 Vila Real, Portugal)

  • Marco S. Lucas

    (Centro de Química de Vila Real (CQVR), Departamento de Química, Universidade de Trás-os-Montes e Alto Douro (UTAD), Quinta de Prados, 5000-801 Vila Real, Portugal)

  • José A. Peres

    (Centro de Química de Vila Real (CQVR), Departamento de Química, Universidade de Trás-os-Montes e Alto Douro (UTAD), Quinta de Prados, 5000-801 Vila Real, Portugal)

Abstract

This research assessed a novel treatment process of winery wastewater, through the application of a chemical-based process aiming to decrease the high organic carbon content, which represents a difficulty for wastewater treatment plants and a public health problem. Firstly, a coagulation–flocculation–decantation process (CFD process) was optimized by a simplex lattice design. Afterwards, the efficiency of a UV-C/ferrous iron/ozone system was assessed for organic carbon removal in winery wastewater. This system was applied alone and in combination with the CFD process (as a pre- and post-treatment). The coagulation–flocculation–decantation process, with a mixture of 0.48 g/L potassium caseinate and 0.52 g/L bentonite at pH 4.0, achieved 98.3, 97.6, and 87.8% removals of turbidity, total suspended solids, and total polyphenols, respectively. For the ozonation process, the required pH and ferrous iron concentration (Fe 2+ ) were crucial variables in treatment optimization. With the application of the best operational conditions (pH = 4.0, [Fe 2+ ] = 1.0 mM), the UV-C/ferrous iron/ozone system achieved 63.2% total organic carbon (TOC) removal and an energy consumption of 1843 kWh∙m −3 ∙order −1 . The combination of CFD and ozonation processes increased the TOC removal to 66.1 and 65.5%, respectively, for the ozone/ferrous iron/UV-C/CFD and CFD/ozone/ferrous iron/UV-C systems. In addition, the germination index of several seeds was assessed and excellent values (>80%) were observed, which revealed the reduction in phytotoxicity. In conclusion, the combination of CFD and UV-C/ferrous iron/ozone processes is efficient for WW treatment.

Suggested Citation

  • Nuno Jorge & Ana R. Teixeira & Carlos C. Matos & Marco S. Lucas & José A. Peres, 2021. "Combination of Coagulation–Flocculation–Decantation and Ozonation Processes for Winery Wastewater Treatment," IJERPH, MDPI, vol. 18(16), pages 1-26, August.
    • Handle: RePEc:gam:jijerp:v:18:y:2021:i:16:p:8882-:d:620001
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    Citations

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    Cited by:

    1. Rita Beltrão Martins & Nuno Jorge & Marco S. Lucas & Anabela Raymundo & Ana I. R. N. A. Barros & José A. Peres, 2022. "Food By-Product Valorization by Using Plant-Based Coagulants Combined with AOPs for Agro-Industrial Wastewater Treatment," IJERPH, MDPI, vol. 19(7), pages 1-20, March.
    2. Nuno Jorge & Ana R. Teixeira & José R. Fernandes & Ivo Oliveira & Marco S. Lucas & José A. Peres, 2023. "Degradation of Agro-Industrial Wastewater Model Compound by UV-A-Fenton Process: Batch vs. Continuous Mode," IJERPH, MDPI, vol. 20(2), pages 1-15, January.
    3. Nuno Jorge & Ana R. Teixeira & Lisete Fernandes & Sílvia Afonso & Ivo Oliveira & Berta Gonçalves & Marco S. Lucas & José A. Peres, 2023. "Treatment of Winery Wastewater by Combined Almond Skin Coagulant and Sulfate Radicals: Assessment of HSO 5 − Activators," IJERPH, MDPI, vol. 20(3), pages 1-22, January.

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