Abstract CO 2 Capture Utilization and Storage (CCUS) is a fundamental strategy to mitigate
climate change, and carbon sequestration, through absorption, can be one of the solutions …

Direct biocatalytic processes for CO2 capture and transformation in value-added chemicals
may be considered a useful tool for reducing the concentration of this greenhouse gas in the …

The iron and steel-making industries have garnered significant attention in research related
to low-carbon transitions and the reuse of steel slag. This industry is known for its high …

Microbial-induced CaCO3 precipitation (MICP) is an innovative and rapidly developing
technology for sand solidification. The idea for this research project was built based on the …

In this paper, the promising way to utilize EAF (electric arc furnace) slag as a cementitious
material has been studied by employing microbially accelerated carbonation technology …

The advantages of microbial induced carbonate precipitation (MICP) as bio-cementation
technology for tailings-solidification are under extensive investigation. In order to improve …

The feasibility of using carbonation-activated steel slag as the exclusive binder for the
production of slag-bonded strand boards was studied in an attempt to replace the cement …

Biocementation is an emerging nature-inspired method of producing eco-friendly cement for
soil stabilization. This paper used the bovine-derived carbonic anhydrase (CA) enzyme to …

This study investigates the factors influencing the application of microbial-induced carbonate
deposition in the in-situ mineral carbonation process. Carbon-negative building materials …

The CO 2 atmosphere in the flue gas of cement kiln was simulated in this paper, and
different methods were used to activate the RHCP with particle size< 75 µm under normal …