Decarbonizing the cement and concrete industry: A systematic review of socio-technical systems, technological innovations, and policy options.

Concrete is the most highly used construction material globally. This is largely due to its durability, versatility and manufacture from inexpensive and readily available materials. Although concrete has become an essential and ubiquitous construction material for modern society, its use has significant environmental impacts. The full cement and concrete lifecycle, from production to final disposal, accounts for nearly 10% of global energy-related CO 2 emissions with the majority of these emissions produced from cement, which is the binding material that holds concrete together. The cement and concrete industry (CCI), which is integral to global infrastructure development, is therefore confronted with a growing need to decarbonize its operations and products, as well as to support the decarbonization of associated end-user sectors. This paper provides a systematic and critical review of more than 800 studies to highlight ways in which the CCI can decarbonize. A socio-technical perspective is used to understand the full range of industrial and economic activities where a decarbonized paradigm for cement and concrete production is relevant. This perspective is further used to assess key technical, economic, social and political factors that will drive a net-zero transition in the CCI over the long term. • Reviews the cement and concrete industry (CCI) decarbonization literature. • Describes the CCI's sociotechnical system and energy and environmental impacts. • Highlights barriers and opportunities for CCI decarbonization. • Outlines technologies and policies to mitigate negative CCI impacts. • Proposes gaps and future agendas for CCI decarbonization research. [ABSTRACT FROM AUTHOR]