Proposal of an Encapsulation-led Disposal Method for Tannery Sludge – A Circularity Approach

J, Saravanan; P, Venkateswara Rao; Bhavani, Pulijala; T, Ravindran; G.C, Venkata Siva Sai

doi:10.59440/ceer/183669

Civil and Environmental Engineering Reports

2024

DOI: 10.59440/ceer/183669

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Proposal of an Encapsulation-led Disposal Method for Tannery Sludge – A Circularity Approach

Saravanan J,

Venkateswara Rao P,

Pulijala Bhavani

et al.

Abstract: In the context of achieving sustainable development goals, continuously pushing possible extended research and attempting to implement the respective outcomes in expanding a circular economy for a broad range of products are high priorities. In this paper, we considered disposable tannery sludge as a matter of concern and proposed an innovative framework for placing tannery sludge in the economic value chain via an encapsulation technique-based construction product development. We used polypropylene plastic an… Show more

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Carbon sequestration and environmental impacts in ternary blended cements using dyeing sludge and papermaking sludge

Tian,

Cong,

et al. 2024

J Infrastruct Preserv Resil

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This research delves into the hydration processes and ecological repercussions of cement blended with papermaking sludge (PS) and dyeing sludge ash (DS). It targets the alleviation of detrimental environmental impacts from solid waste, alongside evaluating their prospective utilization in cement product fabrication. Low-temperature roasting DS is rich in phosphates, which impose a hindering effect on the initial hydration of cement clinker, and displays superior pozzolanic activity when juxtaposed with PS. Meanwhile, the incorporation of PS heightens the malleability of the cement paste blend, consequently modulating the pore size distribution within the cement matrix, resulting in amplified compressive resilience of the amalgamated cement samples. Additionally, the inclusion of DS and PS presents an augmented surface area, promoting the nucleation of hydration by-products. The infusion of a greater quantity of hydration by-products within the mixed cement matrix fosters pore refinement and advances strength development. Furthermore, the blended cement proficiently constrains heavy metals inherent in the sludge and curtails ecological implications during cement product fabrication. Furthermore, compared with conventional Portland cement, the ternary blended cement employs un-calcined PS and low-temperature activation DS. This approach facilitates enhanced carbonation and CO2 sequestration from industrial waste streams, thereby achieving carbon reduction at the source.

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Carbon sequestration and environmental impacts in ternary blended cements using dyeing sludge and papermaking sludge

Tian,

Cong,

et al. 2024

J Infrastruct Preserv Resil

View full text Add to dashboard Cite

show abstract

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Proposal of an Encapsulation-led Disposal Method for Tannery Sludge – A Circularity Approach

Cited by 1 publication

References 47 publications

Carbon sequestration and environmental impacts in ternary blended cements using dyeing sludge and papermaking sludge

Carbon sequestration and environmental impacts in ternary blended cements using dyeing sludge and papermaking sludge

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