Advancing Sustainability through Carbon Capture, Utilization and Storage (CCUS) Technologies: The Hydrogel Case Study
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Abstract
Carbon capture, utilization, and storage (CCUS) consists of several technologies that are capable of playing
significant and diverse roles in the achievement of global energy and climate goals under the context of energy
transition. It forms a relevant technological approach for capturing carbon and delivering a net zero energy
system. Currently, CCUS projects are mainly taking place in developed countries, with some of them having
specific promotion policies such as 45Q under IRA in the US. Several of the current CCUS activities take the
form of enhanced oil recovery (EOR). CCS have a value chain comprising the CO2
capture, compression and
liquefaction, transportation (by pipeline or ships), and storage (e.g., underground in saline aquifer or depleted
reservoirs). CCU shares some of the CCS value chain elements, except storage, as it consists of techniques and
initiatives that convert captured emitted carbons into useful products. Hence, adopting a qualitative research
methodology, this study explores the concept and relevancy of CCUS in achieving net zero emissions using
hydrogel as a case study. This study aims for the implementation of a new CCUS value chain that involves
products based on carbon sequestration in land-based carbon dioxide removal (CDR), leading to a high
potential for mitigating carbon emissions. Consequently, CCUS is vital to attenuate the problems of climate
change, as it plays a key role in decarbonizing and facing the challenge of anthropogenic CO2
emissions, in
addition to providing a long-term alternative compatible with sustainable development. Based on its properties
and characteristics, especially as a polymeric electrolyte with a high capacity for conducting physical separation,
this study proposes hydrogel as a viable technique for the maximum capture of atmospheric carbon. Such
captured carbon is then utilized for various applications or stored appropriately. This study concludes with a
highlight of specific lessons learned in this regard, and the major challenges observed with this CCUS technique.
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