Mineral carbonation using natural minerals or industrial wastes is a safe and promising
strategy for CO 2 sequestration. Application of industrial wastes for this purpose has …

Carbon dioxide (CO 2) mineral sequestration technologies are potentially capable of
sequestering billion tonnes of CO 2 annually. In recent years, pH swing mineral carbonation …

Summary The Paris Agreement's temperature goals require global CO 2 emissions to halve
by 2030 and reach net zero by 2050. CO 2 capture and utilization (CCU) technologies are …

Carbon capture and utilization (CCU) has attracted increased attention as a means to
mitigate and adapt to climate change. CCU technology regards CO2 as a raw material and …

For the first time, in this work, waste Pila globosa shells have been used to synthesize two
industrially valuable materials, gypsum and bassanite. In the first stage, gypsum was …

Mineral carbonation of alkali solid wastes is envisaged to be an effective method to
sequester CO 2 and turn the wastes into more valuable end products. Steel slag generated …

Mineral carbonation to sequester carbon dioxide presents the potential for mitigating global
warming. Currently, byproduct gypsum, an industrial solid waste, was used to fix carbon …

This study proposed a novel process of killing three birds with one stone for valorizing
titanium gypsum, which benefits the reduction of CO 2 emissions in cement industries, the …

Titanium gypsum is a solid waste produced by sulphuric acid titanium dioxide producers
when they neutralise the waste acid with calcium method, and the annual emission is quite …

With current energy demand and increased carbon dioxide emissions, the development of
CO 2 reduction technologies is imperative. One promising approach is to capture and utilize …