Utilization of paper sludge in preparation of high-purity calcium formate

Hassan, Mohammad L.; Hassan, Enas A.; Elseoud, Wafaa S. Abou; Moustafa, Aisha M.

doi:10.1007/s13399-023-05216-3

Biomass Conv. Bioref.

2023

DOI: 10.1007/s13399-023-05216-3

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Utilization of paper sludge in preparation of high-purity calcium formate

Mohammad L. Hassan,

Enas A. Hassan,

Wafaa S. Abou Elseoud

et al.

Abstract: Paper sludge generated from recycling of printed paper is a negative value waste since cellulosic fibers in the sludge are too damaged to be used in paper making and, more important, the sludge has very high content of ash (up to ~ 35%) and ink residues. To be able to utilize cellulosic fibers in bio-conversion industries which depend on saccharification of the fibers into sugars, de-ashing of the sludge is necessary. The major component of the ash is fillers used in paper making, especially calcium carbonate.… Show more

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2024

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Cited by 2 publications

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Waste paper sludge ash as a pozzolanic material: Enhancing concrete performance and sustainability

Ravikumar,

Chandra,

Surendra

2024

J Build Rehabil

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Waste paper sludge ash as a pozzolanic material: Enhancing concrete performance and sustainability

Ravikumar,

Chandra,

Surendra

2024

J Build Rehabil

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Characterization of sludge from a cellulose pulp mill for its potential biovalorization

Alves,

Condezo Castro,

Gonçalves

et al. 2024

Nordic Pulp &Amp; Paper Research Journal

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This study collected sludge samples from the kraft pulp mills of a Brazilian industry and physicochemically characterized them to investigate their biovalorization. The objective was to identify opportunities to produce value-added products, promoting the circular economy and environmentally appropriate destinations. The types of processes and raw materials influence sludge characteristics. The primary sludge was composed mainly of fibers and water, has a slightly alkaline pH, Carbon:Nitrogen (C:N) ratio is high attributed to fibers, and contains calcium, magnesium, phosphorus, and organic carbon. The biological sludge was rich in proteins, bacterial cells, and minerals. The analyses revealed functional groups such as hydroxyls and aliphatic methylene, high concentrations of carbon and oxygen, a fibrous and crystalline structure of cellulose in the primary sludge, and dense microparticles in the biological sludge. Thermogravimetry found a mass loss of 11 % and final combustion at 742 °C for the biological sludge. The primary sludge showed a mass loss of 38 % with peaks at 329 and 784 °C, which suggests that the primary sludge could be used as fuel. Potential routes for the use of the primary and biological sludge included its use as agricultural fertilizer, thermal processing, biochar, and production of activated carbon, despite the low calorific values.

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Utilization of paper sludge in preparation of high-purity calcium formate

Cited by 2 publications

References 45 publications

Waste paper sludge ash as a pozzolanic material: Enhancing concrete performance and sustainability

Waste paper sludge ash as a pozzolanic material: Enhancing concrete performance and sustainability

Characterization of sludge from a cellulose pulp mill for its potential biovalorization

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