Valorization of Dredged Harbor Sediments through Lightweight Aggregate Production: Application of Waste Oyster Shells

The treatment and valorization of wastes such as dredged harbor sediments and oyster shells have become critical for environmental management. In order to promote waste valorization and resource sustainability, this study evaluated the feasibility of using harbor sediments and oyster shells for ligh...

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Bibliographic Details
Published inSustainability Vol. 15; no. 6; p. 5466
Main Authors Lim, Yee Cheng, Chen, Chih-Feng, Chen, Chiu-Wen, Dong, Cheng-Di
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2023
Subjects
Absorption
Aggregates
Building materials
Carbon dioxide
Compressive strength
Concrete
Construction
Construction materials
Container ships
Decomposition
Dredging
Dredging wastes
Engineering
Environmental management
Feasibility studies
International trade
Leaching
Lightweight concretes
Metals
Natural resources
Oysters
Particle density (concentration)
Performance evaluation
Pollutants
Porosity
Ports
Sediments
Sediments (Geology)
Shells
Sintering
Sintering (powder metallurgy)
Sulfide compounds
Sustainability
Temperature requirements
Waste management
Water absorption
Taiwan
United States > US
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Summary:The treatment and valorization of wastes such as dredged harbor sediments and oyster shells have become critical for environmental management. In order to promote waste valorization and resource sustainability, this study evaluated the feasibility of using harbor sediments and oyster shells for lightweight aggregate (LWA) production. The effects of the oyster shell content and sintering temperature on the sediment-based LWA properties, including particle density (PD), water absorption (WA), and crushing strength (CS), were investigated. The engineering applicability of the sediment-based LWAs was also assessed. The results showed that it was feasible to use harbor sediments admixed with oyster shells to produce LWAs that were suitable for engineering applications. The LWA properties were highly varied according to the sintering temperature and oyster shell content. Remarkably, the LWAs prepared with a 5–15% oyster shell content and sintered at 1125 °C were suitable for structural lightweight concrete (PD: 1.73–1.83 g/cm3, WA: 12.2–15.1%, CS: 7.2–10.4 MPa). The open porosity was a key factor affecting the particle density, water absorption, and crushing strength of the LWAs. Moreover, the leachability of toxic metals and chloride ions in the LWAs complied with the regulations for building materials in Taiwan. Waste oyster shells could be an excellent additive to lower the optimal sintering temperature required for sediment-based LWA production.
ISSN:2071-1050
2071-1050
DOI:10.3390/su15065466