Reducing cement consumption in mortars by waste-derived hydrochars

Waste-derived hydrochars are presented for the first time as promising materials to reduce the consumption of natural resources and the carbon footprint of the cement industry, while eliminating waste and sequestering a high amount of carbon in civil infrastructures. Rice husk (RH) and stabilized or...

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Bibliographic Details
Published in:Journal of Building Engineering 2023-09, Vol.75, p.106987, Article 106987
Main Authors: Santos, Michael M., Marques Sierra, Antonio Luis, Amado-Fierro, Álvaro, Suárez, Marta, Blanco, Francisco, La Fuente, José Manuel González, Diez, María A., Centeno, Teresa A.
Format: Article
Language:English
Subjects:
Bio-waste recovery
Blended mortar
Hydrothermal carbonization
Mixed-municipal waste
Rice husk
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Summary:Waste-derived hydrochars are presented for the first time as promising materials to reduce the consumption of natural resources and the carbon footprint of the cement industry, while eliminating waste and sequestering a high amount of carbon in civil infrastructures. Rice husk (RH) and stabilized organic waste from a mixed municipal waste mechanical-biological treatment plant (SOW) were subjected to hydrothermal carbonization at 200 °C for 2 h and the resulting hydrochars were thoroughly evaluated as cement substitutes in fresh and hardened mortars. Compared to the control, mortars with 1.25–5 wt% of cement replaced by hydrochar from stabilized organic fraction caused a decrease in compressive strength of about 50–60% at 28 days of curing, while flexural strength was diminished by about 38–47%. The use of rice husk-derived hydrochar led to a reduction of 32–47% in compressive strength and of 22–34% in flexural strength. With compressive and flexural strengths of 27–41 and 3.31–4.92 MPa, respectively, blended mortars (28 days) display good prospects for use in plastering, rendering, masonry, partition panels and low-load paving. On the other hand, substituting 5 wt% of cement by hydrochar decreases the thermal conductivity and increases electrical resistivity of the mortar by 25–30%, which enhances thermal insulation properties and potential durability. This approach opens a new avenue for large-scale application of biowaste hydrochars as secondary raw materials for sustainable construction. [Display omitted] •Waste-based hydrochar was identified as cement substitute for sustainable mortar.•Substitution of 1.25–5 wt% of cement by hydrochar led to lower compressive and flexural strength of mortar.•Mortars with hydrochar displayed compressive strength of 27–41 MPa.•Composite mortars had flexural strength of 3.31–4.92 MPa.•Hydrochar enhanced thermal insulation and electrical resistivity of mortar by 25–30%.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2023.106987