Dairy processing sludge and co-products: a review of present and future re-use pathways in agriculture
Shi, W. ; Healy, Mark G. ; Ashekuzzaman, S.M. ; Daly, K. ; Leahy, J.J. ; Fenton, Owen
Shi, W.
Healy, Mark G.
Ashekuzzaman, S.M.
Daly, K.
Leahy, J.J.
Fenton, Owen
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Publication Date
2021-06-22
Type
Article
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Citation
Shi, W., Healy, M. G., Ashekuzzaman, S. M., Daly, K., Leahy, J. J., & Fenton, O. (2021). Dairy processing sludge and co-products: A review of present and future re-use pathways in agriculture. Journal of Cleaner Production, 314, 128035. doi:https://doi.org/10.1016/j.jclepro.2021.128035
Abstract
The dairy industry is one of the largest global producers of wastewater and generates huge volumes of dairy processing sludge (DPS). There are two main types of DPS, lime-treated dissolved air floatation sludge and bio-chemically-treated activated sludge. These sludge types may also be converted to STRUBIAS (STRUvite, BIochar, AShes) products which have potential as fertilizers, secondary feedstocks for phosphate fertiliser granules, and soil amendments. A small number of studies indicate that these products have variable nutrient and metal contents, which differ across sludge and STRUBIAS product types. This is due to many factors such as the type of dairy plants, wastewater treatment process and production technologies. Although such products are commonly applied to land, their phosphorus (P) and nitrogen (N) fertilizer equivalency values (FEV) are understudied at field scale. Their contaminants including heavy metals, antimicrobial drugs, hormones, pesticides, disinfectants, persistent organic pollutants (POPs), microplastics and nano particles require quantification, as do their impact on soil and plant materials, and potential environmental impacts. This review concluded that while DPS and STRUBIAS products have potential in nutrient recycling, their uncertain plant-available nutrient content and the potential presence of emerging contaminants make them difficult to be used efficiently. Future research should focus on the characterisation, fertilising effects, environmental risks and the production technologies across all types before they can be a marketable fertiliser product.
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Publisher
Elsevier
Publisher DOI
10.1016/j.jclepro.2021.128035
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Attribution-NonCommercial-NoDerivs 3.0 Ireland