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2020 | OriginalPaper | Buchkapitel

Oxides of Carbon Entrapment for Environmental Friendly Geomaterials Ash Derivation

verfasst von : Kennedy Onyelowe, A. Bunyamin Salahudeen, Adrian Eberemu, Charles Ezugwu, Talal Amhadi, George Alaneme

Erschienen in: Recent Thoughts in Geoenvironmental Engineering

Verlag: Springer International Publishing

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Abstract

Environmental friendly, environmental efficient, and sustainable civil engineering works have been studied with a focus on utilizing the derivatives of solid waste recycling and reuse to achieving infrastructural activities with low or zero carbon emission. The direct combustion model, which is a solid waste incinerator sodium hydroxide-oxides of carbon entrapment model (SWI-NaOH-OCEM) developed in the cause of this research has achieved a zero carbon release. It has been shown that CO and CO₂ emission during direct combustion can be entirely entrapped during the derivation of solid waste based supplementary cementing materials used as replacement for ordinary Portland cement in soft soils re-engineering works. This is achieved via the affinity between sodium hydroxide and oxides of carbon which gives rise to baking soda. Geomaterial ash has been synthesized for use in soft soil re-engineering with no hazardous emissions. The overall assessment of the present review work has left the environment free of the hazards of CO and CO₂ emission. It was shown that these supplementary cementing materials derived from solid wastes improve the engineering properties of treated soft clay and expansive soils. It has been shown that solid waste recycling and reuse is a hub to achieving environmental friendly, environmental efficient and sustainable infrastructural development on the global scale.

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Titel: Oxides of Carbon Entrapment for Environmental Friendly Geomaterials Ash Derivation
verfasst von: Kennedy Onyelowe
A. Bunyamin Salahudeen
Adrian Eberemu
Charles Ezugwu
Talal Amhadi
George Alaneme
Verlag: Springer International Publishing
Buch: Recent Thoughts in Geoenvironmental Engineering
Print ISBN: 978-3-030-34198-5

Electronic ISBN: 978-3-030-34199-2

Copyright-Jahr: 2020
DOI: https://doi.org/10.1007/978-3-030-34199-2_4

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