Nature Climate Change ( IF 29.6 ) Pub Date : 2021-01-04 , DOI: 10.1038/s41558-020-00960-0 Yi-Ming Wei , Jia-Ning Kang , Lan-Cui Liu , Qi Li , Peng-Tao Wang , Juan-Juan Hou , Qiao-Mei Liang , Hua Liao , Shi-Feng Huang , Biying Yu
A straightforward global layout of carbon capture, utilization and storage (CCUS) is imperative for limiting global warming well below 2 °C. Here, we propose a cost-effective strategy for matching carbon sources and sinks on a global scale. Results show 3,093 carbon clusters and 432 sinks in 85 countries and regions are selected to achieve 92 GtCO2 mitigation by CCUS, 64% of which will be sequestered into sedimentary basins for aquifer storage and 36% will be used for CO2-EOR (enhanced oil recovery). Of the identified source–sink matching, 80% are distributed within 300 km and are mainly located in China, the United States, the European Union, Russia and India. The total cost is ~0.12% of global cumulative gross domestic product. Of countries with CO2-EOR, 75% will turn into profitable at the oil price over US$100 per barrel. These findings indicate our proposed layout is economically feasible. However, its implementation requires global collaboration on financial and technological transfer.