Phosphorous and Silica Recovery from Rice Husk Poultry Litter Ash: A Sustainability Analysis Using a Zero-Waste Approach

Fiameni, Laura; Fahimi, Ario; Marchesi, Claudio; Sorrentino, Giampiero Pasquale; Zanoletti, Alessandra; Moreira, Karen; Valentim, Bruno; Predeanu, Georgeta; Depero, Laura E.; Bontempi, Elza

doi:10.3390/ma14216297

Cited by 7 publications

(1 citation statement)

References 48 publications

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“…Faridullah et al [34] presented increased concentrations of metals (Cu, Mn, Zn, Pb and Ni) with increasing combustion temperature and higher amounts of chicken litter ash than duck litter ash. Fiameni et al [35] proposed a strategy for phosphorous and silica recovery from rice husk poultry litter ash. The proposed method aims to maximize the P extraction using hydrochloric acid and minimize the possible contamination by leachable heavy metals, such as zinc.…”

Section: Introductionmentioning

confidence: 99%

Properties of Animal-Origin Ash—A Valuable Material for Circular Economy

2022

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In the presented paper, two types of animal-origin biomass, cow dung and chicken litter, are characterized in terms of combustion-related problems and ash properties. It was found that these parameters strongly depend on the farming style. Whether it is cow dung or chicken litter, free-range raw materials are characterized by higher ash contents than industrial farming ones. Free-range samples contain chlorine at lower levels, while industrial farming samples are chlorine rich. Free-range samples are characterized by the predominant content of silica in the ash: 75.60% in cow dung and 57.11% in chicken litter, while industrial farming samples contain more calcium. Samples were classified by 11 “slagging indices” based on the ash and fuel composition to evaluate their tendencies for slagging, fouling, ash deposition and bed agglomeration. Furthermore, an assessment was made against the current EU law regulations, whether the ashes can be component materials for fertilizers. The phosphorus concentration in the investigated ashes corresponds to 4.09–23.73 wt% P2O5 and is significantly higher in industrial chicken litter samples. The concentrations of Hg, Cu, As, Ni, Cd and Pb in all samples are below the limits of the UE regulations. However, concentrations of Cr in all samples and Zn in industrial chicken litter exceed these standards.

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Section: Introductionmentioning

confidence: 99%

Properties of Animal-Origin Ash—A Valuable Material for Circular Economy

2022

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A review of the use of rice husk silica as a sustainable alternative to traditional silica sources in various applications

Taiye,

Hafida,

Kong

et al. 2024

Env Prog and Sustain Energy

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Rice husk silica (RHS) has emerged as a sustainable alternative to traditional sources of silica in various applications, offering eco‐friendly attributes, cost‐effectiveness, and versatility. This review explores the potential of RHS as a substitute for conventional silica sources, highlighting its alignment with sustainable development objectives and its appeal to industries seeking environmental responsibility. Among the extraction methods, acid leaching is identified as yielding higher purity silica. In contrast, among the novel techniques, the hydrothermobaric process stands out for producing high purity and yielding nanosilica. Despite challenges like limited access to high‐quality rice husks and variations in silica content, RHS extraction methods show promising avenues for sustainable silica production, addressing waste management, and environmental concerns. Further development and optimization of extraction techniques are essential for widespread acceptance, with future research focusing on nanoparticle synthesis and incorporating green chemistry principles. This comprehensive review of RHS provides a valuable resource for researchers seeking to explore sustainable alternatives in their respective fields, aiming to foster adopting more sustainable practices and materials across various industries.

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