Carbon capture and storage (CCS) is the key technology to reduce CO 2 emissions from the
conventional power systems. CCS has the flexibility, compatibility, and great potential to …

The need to reduce greenhouse gas emissions and tackle climate change has mobilized the
whole world towards finding technologies and creating public policies aimed at a …

The need for deep decarbonisation in the energy intensive basic materials industry is
increasingly recognised. In light of the vast future potential for renewable electricity the …

Many countries have assigned an indispensable role for carbon capture and storage (CCS)
in their national climate change mitigation pathways. However, CCS deployment has stalled …

Carbon capture and storage (CCS) has been discussed intensively in China; however, the
CCS technology lock-in risk has been neglected for a long time and may have a negative …

Carbon capture, utilization, and storage (CCUS) is identified as a critical decarbonization
technology that is expected to be applied globally on a large scale, especially in a thermal …

Objective: The aim of the present article is to conduct an integrated assessment in order to
explore whether CCS could be a viable technological option for significantly reducing future …

This study adopts the real option approach to compare the impacts of different subsidy
schemes, including initial investment subsidy, electricity tariff subsidy, and CO 2 utilization …

Worldwide energy production requirements could not be fully satisfied by nuclear and
renewables sources. Therefore a sustainable use of fossil fuels (coal in particular) will be …

This work reviews the advantages and disadvantages of using mineral wastes for CCS and
their potential in CO2 abatement, highlighting the potential applications and scenarios. This …