Cheuk Lun Chow scite author profile

The popularity of concrete has been accompanied with dreadful consumptions that have led to huge carbon footprint in our environment. The exhaustion of natural resources is not yet the problem, but also the energy that is needed for the fabrication of the natural materials, in which this process releases significant amount of carbon dioxide (CO2) emissions into the air. Ordinary Portland Cement (OPC) and natural aggregates, which are the key constituents of concrete, are suggested to be recycled or substituted in order to address the sustainability concern. Here, by-products have been targeted to reduce the carbon footprint, including, but not limited to, fly ash, rice husk ash, silica fume, recycled coarse aggregates, ground granular blast-furnace slag, waste glass, and plastic. Moreover, advanced approaches with an emphasis on sustainability are highlighted, which include the enhancement of the hydration process in cement (calcium-silicate hydrate) and the development of new materials that can be used in concrete (e.g. carbon nanotube). This review paper provides a comprehensive discussion upon the utilization of the reviewed materials, as well as the challenges and the knowledge gaps in producing green and sustainable concrete.

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Smoke movement in tilted tunnel fires with longitudinal ventilation

Chow

Gao

Zhao

et al. 2015

Fire Safety Journal

161

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Studying the potential of energy saving through vertical greenery systems: Using EnergyPlus simulation program

Dahanayake

Chow

2017

Energy and Buildings

122

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Long term performance and fire safety aspect of FRP composites used in building structures

Lau

Qiu

Zhou

et al. 2016

Construction and Building Materials

102

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Cheuk Lun Chow

Temperature and cooling demand reduction by green-roof types in different climates and urban densities: A co-simulation parametric study

Green Concrete: By-Products Utilization and Advanced Approaches

Smoke movement in tilted tunnel fires with longitudinal ventilation

Studying the potential of energy saving through vertical greenery systems: Using EnergyPlus simulation program

Long term performance and fire safety aspect of FRP composites used in building structures

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