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Physicochemical Properties of Biochars Produced from Biosolids in Victoria, Australia

Author

Listed:
  • Yumeng Yang

    (School of Science, RMIT University, GPO Box 2476, Melbourne 3001, VIC, Australia)

  • Barry Meehan

    (School of Science, RMIT University, GPO Box 2476, Melbourne 3001, VIC, Australia)

  • Kalpit Shah

    (School of Engineering, RMIT University, GPO Box 2476, Melbourne 3001, VIC, Australia)

  • Aravind Surapaneni

    (South East Water Corporation, Waters Edge, 101 Wells Street, Frankston 3199, Victoria, Australia)

  • Jeff Hughes

    (School of Science, RMIT University, GPO Box 2476, Melbourne 3001, VIC, Australia)

  • Leon Fouché

    (South East Water Corporation, Waters Edge, 101 Wells Street, Frankston 3199, Victoria, Australia)

  • Jorge Paz-Ferreiro

    (School of Engineering, RMIT University, GPO Box 2476, Melbourne 3001, VIC, Australia)

Abstract

Some of the barriers associated with the land application of biosolids generated in wastewater treatment plants can be eliminated simply by converting the biosolids into biochar using a thermal conversion process called “pyrolysis”. In the current work, eight biosolids from four different wastewater treatment plants in southeast Melbourne, Victoria, Australia were collected and pyrolysed to produce biochars at two different temperatures (500 and 700 °C). In addition, characterisation studies were carried out on the biochars to obtain their physicochemical properties, which were subsequently compared with the properties of the parent biosolids. The major findings of the work demonstrated that biochars exhibited large decreases in DTPA-extractable metals such as Cd, Cu, and Zn, and also led to favorable changes in several chemical and physical characteristics (i.e., pH, Olsen P, electrical conductivity, and surface area) for agricultural land application compared to their original form (i.e., biosolids). Overall, the study suggests that there is great potential for converting biosolids to biochar using pyrolysis. This may not only improve the properties of biosolids for land application, but also has potential to reduce the risk to receiving environments and, furthermore, eliminate many of the costly elements associated with biosolids stockpiling and management.

Suggested Citation

  • Yumeng Yang & Barry Meehan & Kalpit Shah & Aravind Surapaneni & Jeff Hughes & Leon Fouché & Jorge Paz-Ferreiro, 2018. "Physicochemical Properties of Biochars Produced from Biosolids in Victoria, Australia," IJERPH, MDPI, vol. 15(7), pages 1-13, July.
    • Handle: RePEc:gam:jijerp:v:15:y:2018:i:7:p:1459-:d:157263
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    References listed on IDEAS

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    1. Jorge Paz-Ferreiro & Aurora Nieto & Ana Méndez & Matthew Peter James Askeland & Gabriel Gascó, 2018. "Biochar from Biosolids Pyrolysis: A Review," IJERPH, MDPI, vol. 15(5), pages 1-16, May.
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    Cited by:

    1. Fen Liu & Zhihua Xiao & Jun Fang & Hao Li, 2023. "Effect of Pyrolysis Treatment on Phosphorus Migration and Transformation of Pig, Cow and Sheep Manure," Sustainability, MDPI, vol. 15(12), pages 1-14, June.

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